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2021

Core Curriculum by MidSchoolMath

Publisher
MidSchoolMath
Subject
Math
Grades
5-8
Report Release
04/22/2021
Review Tool Version
v1.5
Format
Core: Comprehensive

EdReports reviews determine if a program meets, partially meets, or does not meet expectations for alignment to college and career-ready standards. This rating reflects the overall series average.

Alignment (Gateway 1 & 2)
Meets Expectations

Materials must meet expectations for standards alignment in order to be reviewed for usability. This rating reflects the overall series average.

Usability (Gateway 3)
Meets Expectations
Our Review Process

Learn more about EdReports’ educator-led review process

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Note on review tool version

See the top of the page to confirm the review tool version used for this report:

Report for 7th Grade

Alignment Summary

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for Alignment to the CCSSM. In Gateway 1, the materials meet expectations for focus and coherence, and in Gateway 2, the materials meet expectations for rigor and practice-content connections.

7th Grade
Alignment (Gateway 1 & 2)
Meets Expectations
Gateway 3

Usability

27/27
0
17
24
27
Usability (Gateway 3)
Meets Expectations
Overview of Gateway 1

Focus & Coherence

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for focus and coherence. For focus, the materials assess grade-level content, and partially give all students extensive work with grade-level problems to meet the full intent of grade-level standards. For coherence, each grade’s materials are coherent and consistent with the CCSSM.

Criterion 1.1: Focus

06/06

Materials assess grade-level content and give all students extensive work with grade-level problems to meet the full intent of grade-level standards.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for focus as they assess grade-level content and provide all students extensive work with grade-level problems to meet the full intent of grade-level standards.

Indicator 1A
02/02

Materials assess the grade-level content and, if applicable, content from earlier grades.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for assessing grade-level content.

The materials are organized by the Domains and Clusters delineated by CCSS. Each Cluster has a Milestone Assessment, and all assessments include multiple choice and/or multiple select. The assessments are aligned to grade-level standards, and examples include:

  • In Milestone Assessment 7.G.A, Question 7, “A plane intersects the three-dimensional figure. What is the shape of the two-dimensional cross section? a) Triangle; b) Rectangle: c) Trapezoid; d) Pentagon.” There is an accompanying image of a rectangular prism that is intersected by a plane on its left and bottom faces.

  • In Milestone Assessment 7.NS.A, Question 19, “Which statements are true? Select all that apply. a) The product of a positive number and a negative number is always negative.; b) The sum of a positive number and a negative number is always negative; c) The quotient of two negative numbers is always positive; d) The sum of two positive numbers is always positive.”

  • In Milestone Assessment 7.G.B, Question 8, “A cube has a volume of 512 cubic units. What is the surface area of the cube? 
a) 1,024 square units
; b) 48 square units
; c) 384 square units
; d) 256 square units.”

  • In Milestone Assessment 7.SP.A, Question 2, “For which population would it be most necessary to use a sample for study? 
a) The soccer team at my school; b) Teachers at my school; 
c) Students in my math class; d) 7th graders in my state.”

Indicator 1B
04/04

Materials give all students extensive work with grade-level problems to meet the full intent of grade-level standards.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for giving all students extensive work with grade-level problems to meet the full intent of grade-level standards.

Materials present opportunities for all students to meet the full intent of grade-level standards through extensive work with grade-level problems. Each lesson addresses one grade-level standard with all standards addressed over the course of the year. Lessons are three to four days long. There are opportunities within each lesson to practice the content of the standards including: Math Simulator, one to four questions; Practice Printable typically has six to ten questions;  Additional Practice has four to ten questions; Clicker Quizzes include six questions; and the teacher can assign a specific domain in Test Trainer Pro. Examples where the full intent is attended to include:

  • In 7.SP.B.3-4 Perio Charts, students calculate measures of center and measures of variability to compare two sets of data. For example, Practice Printable Questions 1-4, “A karate studio wants to compare the ages of students in two of its classes. The information is shown in the box plots. 1) Compare the measure of variation between the two classes. 2) Compare their interquartile ranges. 3) Compare the median ages of the two classes. 4) What inferences can you draw about the ages of the students in these classes? Explain.”

  • In Hay Talk 7.EE.B.3, students solve multi-step real-life problems posed with positive and negative rational numbers in any form. For example, Practice Printable Question 1, “After receiving the given raise at work, who will make the most money per hour? Malala $9.90 per hour, 6% raise; Aaliyah $9.75 per hour, 7% raise, Phan $10 per hour, 4% raise” 

  • In 7.NS.A.1 Ghost Tamers!, students describe situations in which opposite quantities combine to make 0. For example, Practice Printable Question 1, “Place an ‘x’ inside the box next to each situation where the answer to the question would be 0.” Six scenarios are provided that include positive and negative numbers in real-life contexts that sometimes form a zero pair and other times do not.

The Test Trainer Pro and Simulation Trainer are also designed to provide additional, grade-level work.

  • In Test Trainer Pro, primarily used as a daily warm-up, teachers can assign a specific domain, but not standards. Teachers have access to the question bank in order to see what the questions are, but cannot edit them.

  • In Simulation Trainer, the content matches the lesson, but students can provide any number as an answer, then watch the steps worked out (no words) in a solution video. They’re presented with the same question again and can put in the correct answer, then watch the same solution again. If they get it correct the first time, they also watch the solution video. The next questions are not novel, but the same situation with new numbers. If students miss one, it resets them to the beginning, no matter where they were in the assignment. It is possible that some students would never complete a Simulation Trainer.

Criterion 1.2: Coherence

08/08

Each grade’s materials are coherent and consistent with the Standards.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for coherence. The majority of the materials: address the major clusters of the grade, have supporting content connected to major work, make connections between clusters and domains, and have content from prior and future grades connected to grade-level work.

Indicator 1C
02/02

When implemented as designed, the majority of the materials address the major clusters of each grade.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations that, when implemented as designed, the majority of the materials address the major clusters of each grade.

  • The approximate number of days devoted to major work of the grade (including assessments and supporting work connected to the major work) is 112 out of 174, which is approximately 64%.

  • The number of lessons devoted to major work of the grade (including assessments and supporting work connected to the major work) is 23 out of 35 lessons, which is approximately 66%.

  • The number of weeks devoted to major work (including assessments and supporting work connected to the major work) is 23 out of 36, which is approximately 64%. 

A day-level analysis is most representative of the materials because this represents the class time that is devoted to major work of the grade including reviews, domain intensives, and assessments. As a result, approximately 64% of the materials focus on major work of the grade.

Indicator 1D
02/02

Supporting content enhances focus and coherence simultaneously by engaging students in the major work of the grade.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for supporting content enhancing focus and coherence simultaneously by engaging students in the major work of the grade.

Examples of connections between supporting content and major work of the grade include:

  • 7.G.A.1 Build a Bigger Box connects to 7.RP.A as students use proportional reasoning when they analyze scale drawings. In the Teacher Instruction, the script reads, “Just by looking, it’s not easy to tell what the scale factor is. What multiplier will shrink \triangleMNO to the size of \triangleQRS? In a case like this, we can set up a proportion using the length of corresponding sides. There are many ways to determine side lengths in a scale drawing and similar figures. We can use ratios between sides and scale factors to tell us about the relationships of the side lengths.” In the Practice Printable, Question 7, “Figures 2 and 3 are scale drawings of Figure 1. Use the given scales to determine the dimensions of Figure 2 and Figure 3.” The given scales are provided as ratios. 

  • 7.SP.C.7b Break Time connects to 7.RP.A as students use proportional reasoning and percentages when they extrapolate from random samples and use probability. In the Practice Printable, Question 2, “Three cousins—Rayanna, Kip, and Marco—play the same game board every weekend. Fill in the missing information in the table.” The first column of the table bears the heading, “Probability of winning a game,” and the second column says, “Likely number of wins out of 60 games.”

  • 7.G.B.5 Guarding the Great Gate connects to 7.EE.4 as students use equations to find unknown angles in a figure. In the Practice Printable, Question 3 shows a straight angle split into 4 unequal sections. The sections measure 28°28^\degree, 3x°3x^\degree, 32°32^\degree, and 5x°5x^\degree. Part a) “Write and solve an equation to determine the value of xx.”; Part b) “Determine the measure of each angle.”

Indicator 1E
02/02

Materials include problems and activities that serve to connect two or more clusters in a domain or two or more domains in a grade.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for including problems and activities that serve to connect two or more clusters in a domain or two or more domains in a grade. Examples include:

  • 7.NS.A.1d Bad Accounting states, “This activity connects 7.NS.A to 7.EE.B as students will use the same strategies to simplify expressions and solve equations involving negative rational numbers.” In the Practice Printable, Questions 4 and 5 state, the students evaluate xx. Question 4 states, “Evaluate for x=78:x+2(x)x=\frac{7}{8}:-x+2-(-x)”; Question 5 states, “Evaluate for x=2.4:3c+6+2xx = -2.4: -3c+6+2x”.

  • 7.EE.B.4a Pen Perimeter connects the major work of 7.EE.B to 7.NS.A when students extend their understanding of fractions to rational numbers when solving equations. In the Practice Printable, Question 6 states, “Julio rented 1 movie and 3 video games. He paid $13.60 in total. The movie cost $4.75 to rent. The video games each cost the same amount. How much did Julio pay for each video game?” 

  • 7.RP.A.3 Sport Stats connects the major work of 7.RP.A to 7.EE.B and 7.NS.A as students write and solve equations and proportions representing situations involving percentages. In the Practice Printable, Question 4 states, “During a science lab, Rocco determined the boiling point of ethyl alcohol is 75°C75 \degree C. The actual boiling point of ethyl alcohol is 78°C78 \degree C. What is Rocoo’s percent error?”

  • 7.EE.B.4b The Fur Trader connects the major work of 7.EE.B to 7.NS.A as students solve multi-step, real-world problems by writing and solving equations and performing appropriate calculations using the properties of operations with rational numbers. In the Practice Printable, Question 2 states, “Jodi works at a watch shop. She makes $40 per day plus $15 for every watch she sells. If she wants to make $200 in a day, how many watches does she need to sell?”

Indicator 1F
02/02

Content from future grades is identified and related to grade-level work, and materials relate grade-level concepts explicitly to prior knowledge from earlier grades.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for clearly identifying content from future grades and relating it to grade-level work and explicitly relating grade-level concepts to prior knowledge from earlier grades.

An example of clearly identifying content from future grades and relating it to grade-level work is:

  • 7.RP.A.2d Doggy Diet identifies “Prerequisite Standards 6.RP.A.2, 6.RP.A.3, 7.RP.A.1” and Cluster Connections including “Direct Connection: In Doggy Diet, students will help Lena interpret points on a graph showing the proportional relationship between a dog's ideal weight and how much he can eat per day. Cross-Cluster Connection: This activity connects 7.RP.A to 8.F.B as students will extend their knowledge of proportional relationships, as they calculate and interpret components of graphs of linear functions, including (x, y) points, slope and y-intercept.”

Examples of explicitly relating grade-level concepts to prior knowledge from earlier grades include:

  • 7.NS.A.1c Avalanche Pits states, “Understanding and representing temperature changes reinforce their understanding of absolute value which they investigated in 6.NS.C.7.”

  • 7.RP.A.1 Candlelight Dinner states, “This activity connects 7.RP.A to 6.RP.A as students are extending their knowledge of ratios and rates to include complex fractions.”

  • 7.RP.A.3 Sports Stats states, “This activity connects 7.RP.A to 6.RP.A as students will apply their knowledge of ratio reasoning and proportional relationships to solve multi-step problems.”

Indicator 1G
Read

In order to foster coherence between grades, materials can be completed within a regular school year with little to no modification.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7, in order to foster coherence between grades, can be completed within a regular school year with little to no modification. As designed, the materials, with assessments, can be completed in 139-174 days.

  • There are five domains which contain a total of 35 lessons. Lessons are designed to take three to four days each, leading to a total of 105-140 lesson days.

  • There are five days for Major Cluster Intensives.

  • There are 29 assessment days including 10 days for review, 10 spiral review days in the Distributed Practice Modules, and nine milestone assessments. 

The Scope and Sequence Chart in the Teacher Edition provides pacing information. A lesson is designed for 60 minutes.

Overview of Gateway 2

Rigor & the Mathematical Practices

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for rigor and balance and practice-content connections. The materials reflect the balances in the Standards and help students develop conceptual understanding, procedural skill and fluency, and application. The materials make meaningful connections between the Standards for Mathematical Content and the Standards for Mathematical Practice (MPs).

Criterion 2.1: Rigor and Balance

08/08

Materials reflect the balances in the Standards and help students meet the Standards’ rigorous expectations, by giving appropriate attention to: developing students’ conceptual understanding; procedural skill and fluency; and engaging applications.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for rigor. The materials develop conceptual understanding of key mathematical concepts, give attention throughout the year to procedural skill and fluency, spend sufficient time working with engaging applications of mathematics, and do not always treat the three aspects of rigor together or separately.

Indicator 2A
02/02

Materials develop conceptual understanding of key mathematical concepts, especially where called for in specific content standards or cluster headings.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for developing conceptual understanding of key mathematical concepts, especially where called for in specific standards or cluster headings.

Examples of problems and questions that develop conceptual understanding across the grade level include:

  • In 7.RP.A.2a Hot Sauce!, students investigate heat ratings and discover that values must increase at the same rate, and ratios must be equivalent to each other in order to form a graph that is a straight line through the origin. 

  • In 7.NS.A.1b Space Selfie, the Teacher Instruction includes, “What was the Trackometer reading right before the ship shut down?; In which direction were they headed when the ship shut down?; Should the distance from home be more or less than 50 parsecs?; What does the number 50 represent?; What does the number -32 represent?; What is 50 + -32?; How far are they from home?; How does a number line help you calculate this answer?”

  • In 7.RP.A.2b Coffee Caravan, the Teacher Instruction includes, “Let’s take a deeper look at the constant of proportionality and how it is represented in various representations of proportional relationships. Let’s start with a verbal description of a proportional relationship. In a cookie recipe, for every 2 eggs there are 3 cups of flour. We could make a ratio table to show this relationship. We start with what we know, and then we can fill the rest in using the given proportion. For every 2 eggs, there are 3 cups of flour, which tells us, then, that for every 1 egg there will be 1121\frac{1}{2} (or 32\frac{3}{2}) cups of flour.”

  • In 7.EE.A.2a Taxing Problem, students rewrite equations and expressions in a variety of ways and decide between two sides of an argument. Students watch a video and try to determine, “Which dude is right?” about the cost of a bill. One dude argues, “It’s 0.085 times the bill, plus the bill” and the other says, “No dude, it’s 1.085 times the bill.” Teacher Instruction also provides other examples including calculating the cost of something at a discount.

Examples where students independently demonstrate conceptual understanding throughout the grade include:

  • In 7.NS.A.2a Reverse Meditation, Practice Printable, Question 1 states, “Use a pattern to fill in each blank, and then explain the pattern.” In Part A, students create a table from 4 to -4, and multiply by 4. They should see that the products are decreasing by 4 each time, leading to the conclusion that a negative times a positive yields a negative product. In Part B, they do the same except multiply by -4 leading to a negative times a negative yields a positive product. 

  • In 7.RP.A.2a Hot Sauce!, Practice Printable, Question 3 provides information about the cost of a gym membership at 2 gyms and students determine “For which company is the total cost proportional to the number of months? How do you know?”

  • In 7.RP.A.2d Doggy Diet, Practice Printable, Question 3 states, “Plot and label the following points on the graph: a) $1.25 will buy 5 pencils.; b) 0 pencils cost $0.00.; c) The unit rate is $0.25 per pencil.; d) 8 pencils for $2.00.; Write three other points that could be on this graph if it were extended.” The graph shows the relationship between the number of pencils bought and the cost, in dollars, of the pencils.

  • In 7.G.A.1 Build a Better Box, Practice Printable, Question 1 states, “Determine if each given scale factor would ENLARGE or REDUCE the size of the figure. a) 45%; b) 65\frac{6}{5}; c) 1.5; d) 13\frac{1}{3}; e) 110%; F) 0.8.”

Indicator 2B
02/02

Materials give attention throughout the year to individual standards that set an expectation for procedural skill and fluency.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for attending to the standards that set an expectation of procedural skill and fluency.

The materials develop procedural skill and fluency throughout the grade level in the Math Simulator, examples in Teacher Instruction, Cluster Intensives, domain specific Test Trainer Pro and the Clicker Quiz. Examples include:

  • In 7.NS.A.1d Bad Accounting, Teacher Instruction, the teacher prompt states, “Let’s rewrite the expression by replacing each subtraction with adding the additive inverse,” and “Now we can use the commutative property of addition to rearrange the terms by grouping positives and then negatives. We can then simplify.”

  • In 7.EE.A.1 Mathmalian Logic, Teacher Instruction, the teacher prompt states, “Remember the order of operations when simplifying expressions.” The teacher works through three examples; the first example asks if two expressions are equivalent “3xy+4y2x+8x2xy6y3xy+4y-2x+8x-2xy-6y and y(x+4)6(yx)y(x+4)-6(y-x)”, the second involves simplifying an expression with fractional coefficients, and the third involves subtracting one expression from another. The Teacher’s Guide further prompts the teacher to discuss which properties might be used in each step, and walks though reordering, grouping, and combining like terms using the given example. In the Simulation Trainer, students are given an image of a large amount of land with the width being an integer, and the length divided into smaller lengths and labeled with variables. Students create two expressions that represent the total area.

  • In 7.EE.B.4a Pen Perimeter, Teacher Instruction, the teacher discusses a real-world problem in which a jeweler makes a flat rate plus an additional $10 per sale. The teacher reasons through solving the problem.  Then he/she writes an equation and says, “We can solve the equation using inverse operations. We begin by subtracting the constant from both sides so we can isolate the variable.”

Examples of students independently demonstrating procedural skills and fluencies include:

  • In 7.NS.A.1d Bad Accounting, the Practice Printable contains six expressions in Question 1, “Evaluate each expression. Indicate the properties of operations where appropriate, “ such as “1b.) 228+(3)+1022-8+(-3)+10” and “1d.) 11.6(12.4)+15.3911.6-(-12.4)+15.3-9.”

  • In 7.EE.A.1 Mathmalian Logic, Practice Printable, Question 1 states, “Simplify each expression. Combine all like terms when possible,” and contains a table of five complex expressions. Question 2, “For which value of mm would Expression 2 be equivalent to Expression 1?” A table with five pairs of expressions is provided. 

  • In 7.EE.B.4a Pen Perimeter, Practice Printable, Question 7 states, “The sum of a number and 9 is multiplied by -2. The result is -8. What is the unknown number?”

Indicator 2C
02/02

Materials are designed so that teachers and students spend sufficient time working with engaging applications of the mathematics.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for being designed so that teachers and students spend sufficient time working with engaging applications of mathematics. Engaging applications include single and multi-step problems, routine and non-routine problems, presented in a context in which mathematics is applied. 

Examples of students engaging in routine application of skills and knowledge include:

  • In 7.NS.A.1b Space Selfie, Practice Printable, Question 1 states, “The temperature at 6 a.m. was 38°38\degreeF. Throughout the day until 10 p.m., the temperature rose 26°26\degreeF and then fell 23°23\degreeF. What was the temperature at 10 p.m.?”

  • In 7.NS.A.3 Chocolate Certified, an example is “Mark and his three friends went to the movies, where each ticket cost $11.25. They decided to share two large popcorns, which cost $4.25 each, and they each got a small soda for $3.25 each. Tax was 7.5% of the total. What was the total amount that they spent?”

  • In 7.EE.B.3 Hay Talk, Practice Printable, Question 1 states, “After receiving the given raise at work, who will make the most money per hour? Malala $9.90 per hour,  6% raise; Aaliyah $9.75 per hour,  7% raise;  Phan $10 per hour, 4% raise.”

Examples of students engaging in non-routine application of skills and knowledge include:

  • In 7.EE.B.4b The Fur Trader, the lesson narrative states, “It is important to not only know how to solve an inequality, but to also interpret an appropriate solution for the given context. In The Fur Trader, Professor Picklebottom decides to trade furs so he can make enough to survive the winter. He has already agreed to sell a large fur for $50, but needs to determine how many small furs he needs to obtain and sell, for $3 each. The data provided is two images -- one of Professor Picklebottom, contemplating his need to earn at least $100 to survive the winter and the other, an image of a large fur and small fur, showing the Trader’s payout amounts for each size.”

  • In 7.RP.A.2b Coffee Caravan, Practice Printable, the Introduction Problem states, “At what rate are they traveling? Misha and Sonia decide to go on another road trip. Traveling always makes them remember their dad, which is one reason why they like to drink coffee. He loved coffee. To honor their father, the sisters like to measure their rate of travel in miles per cup of coffee, so Sonia keeps track of their trip in her notebook.This time, though, Misha distracted her with karaoke, so she missed writing down a few cups. Look at Sonia’s notes carefully, and determine their rate of travel.” The data provided is a table with four data points for the number of cups of coffee and miles traveled.

  • In 7.RP.A.2c Food Factor, Practice Printable, the Introduction Problem states, "What equation should Ariel give to the guides? Mountain guide Ariel created an equation that has helped her fellow guides calculate the amount of food necessary based on the number of people on a trip. Since that equation has worked out so well, she wants an equation that the guides can use to determine the amount of water necessary for an excursion. She asks her guides to send another postcard with their water usage and number of people in the group. Help Ariel analyze the postcards, and write an equation that will calculate the liters of water necessary (w) based on the number of people in the group (n).” The data provided are three postcards with the requested information. 

  • In 7.EE.B.3 Hay Talk, Practice Printable, the Introduction Problem states, “How many bales should Ron and Carlie buy? Ron and Carlie recently rescued five more horses who were abandoned by their previous owners: Prius, Creed, Dalla, Chibi and Drago. They need to go to Howard’s Hay again and purchase more hay. Use the information in the vet report to calculate how many bales Ron and Carlie should buy.” The data provided is a note from the vet, “When ordering hay bales, it’s important to purchase quality straw with a high moisture content. In our area we recommend Howard’s Hay which sells 80-pound blaes. Don’t forget horses eat 2% of theis weight in hay each day! Below you will find the latest weights of your rescues from their most recent check-ups. Need to purchase for: Oct, Nov, Dec, Jan, Feb, Mar.”

Indicator 2D
02/02

The three aspects of rigor are not always treated together and are not always treated separately. There is a balance of the three aspects of rigor within the grade.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations that the three aspects of rigor are not always treated together and are not always treated separately. 

Examples of the three aspects of rigor being present independently throughout the materials include:

  • In 7.G.A.3 Doctor Dilim's Dimensions, students develop their conceptual understanding of two-dimensional plane sections by describing results from slicing three-dimensional figures. In the Practice Printable, Question 2 states, “Lloyd has two clay figures on a flat surface in front of him: a right square pyramid and a cube. He will make slices through each figure that are parallel and perpendicular to the flat surface. Determine which statements are true about the two-dimensional plane sections that could result from one of these slices. Place an ‘X’ in the appropriate column.” Students are given a chart with three statements for each of the shapes to identify if a cross-section could be triangular, square, or rectangular, but not square. 

  • In 7.EE.A.2 A Taxing Problem, students develop procedural skill in determining if given expressions are equivalent. In the Practice Printable, Question 3, students, “Determine whether each pair of expressions is equivalent.” There are four sets of expressions to compare such as “3(a4b)+2a3(a-4b) + 2a and 12b+5a-12b + 5a.”

  • In 7.G.B.6 Miracle Mural, students solve real-world problems involving area, surface area, and volume. In the Practice Printable, Question 2 states “Lauren’s grandma made her a birthday cake in the shape of an ‘L.’ She put frosting on all sides of the cake except for the bottom. a) How many square inches of cake did Grandma cover with frosting? b) How many cubic inches of space does Lauren’s cake take up?” 

Examples of multiple aspects of rigor being engaged simultaneously to develop students’ mathematical understanding of a single topic/unit of study include:

  • In 7.SP.A.1 Poll Position, students apply their conceptual understanding of sampling to solve real-world problems. In the Practice Printable, Question 3 states, “Darlene wants to know if sweetened tea or unsweetened tea is more popular in the United States. She posts a poll on social media that asks which one people prefer. 75% prefer unsweetened tea, and 25% prefer sweetened tea. Is this an accurate representation of the U.S. population? Why or why not?”

  • In 7.EE.B.4b The Fur Trader, students develop skill in solving inequalities, then use conceptual understanding to match the inequalities with number lines that show the solutions. In the Practice Printable, Questions 4-8 state “Match each inequality with the correct graph of solutions: 6x32>506x - 32 > 50; 2x14292x - 14 ≤ -29; 118+23t160118+\frac{2}{3}t≥160; 0.5x+6<10-0.5x + 6 < 10 with corresponding graphs.”

Criterion 2.2: Math Practices

10/10

Materials meaningfully connect the Standards for Mathematical Content and Standards for Mathematical Practice (MPs).

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for practice-content connections. The materials meaningfully connect the Standards for Mathematical Content and the Standards for Mathematical Practice (MPs).

Each Detailed Lesson Plan, Lesson Plan Overview, includes one to three MPs and describes how the lesson connects to the MPs. In addition, each Detailed Lesson Plan includes a specific tip from Jo Boaler that provides guidance about how to connect the MPs with the lesson. In the Teacher’s Guide, Protocols to Support Standards for Mathematical Practice includes, “To support the Standards for Mathematical Practice, MidSchoolMath has compiled a ‘Top 10’ bank to include protocols (or instructional moves) that teachers use to structure learning experiences to deepen the understanding of the SMP. Recommended protocols for each lesson are found in the Detailed Lesson Plans with teacher instructions to implement.” The protocols are directly related to the MPs they best support.

Indicator 2E
02/02

Materials support the intentional development of MP1: Make sense of problems and persevere in solving them; and MP2: Reason abstractly and quantitatively, for students, in connection to the grade-level content standards, as expected by the mathematical practice standards.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for supporting the intentional development of MP1: Make sense of problems and persevere in solving them; and MP2: Reason abstractly and quantitatively, for students, in connection to the grade-level content standards, as expected by the mathematical practice standards. 

Examples where MP1 (Make sense of problems and persevere in solving them) is connected to grade-level content include:

  • In 7.G.B.4 Crop Circle, Lesson Plan Overview, “It can be challenging for students to make sense of the formula for area of circle. Crop Circle creates a meaningful context for students to use area of circle, but they may not know the formula. In Immersion, teachers prompt students to connect to their prior knowledge of area of rectangles, and to explore the difference between that and a circle. In the Resolution phase, students discuss the relationship between area of rectangles, a circle, and pi, which will help their conceptual understanding of the formula.” 

  • In 7.G.B.5 Guarding the Great Gate, Lesson Plan Overview, “In Immersion and Data & Computation, students will use the diagrams and what they know about straight angles to make sense of the relationship between angles and to identify angle measures. Using the ‘Math Circles’ protocol, students make sense of the problem by discussing five questions about straight lines and angles that help them plan and determine how to solve the problem. This lesson offers extra practice of planning how to solve a problem and making a problem of your own.”

  • In 7.NS.A.1a Ghost Tamers!, Detailed Lesson Plan states, “In Immersion and Data & Computation, students will connect the idea of “neutralizing a charge” to the concept of zero pairs made from a negative value and positive value. This lesson provides an opportunity for students to struggle to make sense of the problem and persevere to solve through applying different approaches.”

Examples where MP2 (Reason abstractly and quantitatively) is connected to grade-level content include:

  • In 7.NS.A.2a Reverse Meditation, Lesson Plan Overview, “Reverse Meditation offers context for reasoning abstractly by visualizing the outcome to encourage brain communication as described by Jo Boaler in her tip for SMP2. In Data & Computation, students are asked to practice ‘decontextualizing’ and ‘contextualizing’ a situation using multiplication with signed numbers. In Resolution, students have an opportunity to visualize and create their own problem representing the math concept. In Clicker Quiz and Practice Printable, students will interpret problems in context and translate these problems from a situation to an equation. They work with real life examples in order to strengthen their knowledge and understanding of multiplication with signed numbers.”

  • In 7.RP.A.2d Doggie Diet, Detailed Lesson Plan, “SMP2: During Data & Computation, students analyze the abstract graphical representation and contextualize the parts of the graph as they relate to Simba’s diet situation.”

  • In 7.EE.B.3 Hay Talk, Detailed Lesson Plan, Applying Standards for Mathematical Practice, “Hay Talk provides students with an opportunity to solve a real-life situation by modeling with mathematics. In Immersion, the problem is unstructured, and students must make assumptions and approximations to simplify the situation. They must determine how certain quantities, such as the number of horses and number of days, affects how much hay will be needed. In Data & Computation, students will likely see a different approach in the Data Artifact (using the weight of the horse) than they had taken, prompting them to think about revising their model to include additional details and/or revising their model to be more accurate. In Resolution, the full intent of the practice is met as students present different ways of approaching the problem, and consider final revisions to make the model more accurate and complete.”

Indicator 2F
02/02

Materials support the intentional development of MP3: Construct viable arguments and critique the reasoning of others, for students, in connection to the grade-level content standards, as expected by the mathematical practice standards.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for supporting the intentional development of MP3: Construct viable arguments and critique the reasoning of others, for students, in connection to the grade-level content standards, as expected by the mathematical practice standards. 

The materials include 10 protocols to support Mathematical Practices. Several of these protocols engage students in constructing arguments and analyzing the arguments of others. When they are included in a lesson, the materials provide directions or prompts for the teacher to support engaging students in MP3. These include: 

  • “Lawyer Up! (12-17 min): When a task has the classroom divided between two answers or ideas, divide students into groups of four with two attorneys on each side. Tell each attorney team to prepare a defense for their ‘case’ (≈ 4 min). Instruct students to present their argument. Each attorney is given one minute to present their view, alternating sides (≈ 4 min). Together, the attorneys must decide which case is more defendable (≈ 1 min). Tally results of each group to determine which case wins (≈ 1-2 min). Complete the protocol with a ‘popcorn-style’ case summary (≈ 2-3 min).”

  • “Math Circles (15-28 min): Prior to class, create 5 to 7 engaging questions at grade level, place on different table-tops. For example, Why does a circle have 360 degrees and a triangle 180 degrees? Assign groups to take turns at each table to discuss concepts (≈ 3-4 min each table).”

  • “Quick Write (8-10 min): After showing an Immersion video, provide students with a unique prompt, such as: ‘I believe that the store owner should…’, or ‘The person on Mars should make the decision to…’ and include the prompt, ‘because…’ with blank space above and below. Quick writes are excellent for new concepts (≈ 8-10 min).”

  • “Sketch It! (11-13 min): Tell students to draw a picture that includes both the story and math components that create a visual representation of the math concept (≈ 5-7 min). Choose two students with varying approaches to present their work (≈ 1 min each) to the class (via MidSchoolMath software platform or other method) and prepare the entire class to discuss the advantages of each model (≈ 5 min).” 

The materials include examples of prompting students to construct viable arguments and critique the arguments of others.

  • In 7.RP.A.2a Hot Sauce!, Practice Printable, Introduction Problem, “Use Marty’s notes to determine if Mr. Davis’ perceived heat rating is proportional to the Scoville heat rating, and explain your reasoning.”

  • In 7.SP.A.1 Poll Position, Practice Printable, Question 5, “In a poll of Mr. Grey’s English class at Harrington High, 66% percent of students say that English is their favorite subject. A school newspaper reporter in the class wants to write an article stating that English is the favored class among students at Harrington High. Explain why this population is not an accurate representation of the student body, and suggest a way to better gather data to determine which subject is favored by the entire student body.”

  • In 7.NS.A.1d Bad Accounting, Practice Printable, Introduction Problem, “Cora Malone and her family have had issues with Mr. Skinner’s banking practices for as long as she can remember. She makes it a point to check Mr. Skinner’s calculations each time she goes to do business at the bank. He almost always has the incorrect balance. Determine if Mr. Skinner is swindling Miss Malone. If so, calculate Miss Malone’s actual account balance.”

  • In 7.EE.A.1 Mathmalian Logic, Practice Printable, Introduction Problem, “Whose method is correct and why? Mathmalians Lumi and Dalek are working to purchase two lots on Earth. They have just decided on their lots and now wish to calculate the total cost of the lots. The price per yard is p dollars. As always, they each have a different idea on how to calculate the cost. Lumi wants to use the following method to determine total cost: 70(x+y)p70(x + y)p. Dalek wants to use the following method to determine total cost: 70xp+70yp70xp + 70yp. Determine whose method is correct and explain your reasoning.”

  • In 7.EE.A.2 A Taxing Problem, Practice Printable, Introduction Problem, “The Giggle Barn has placed another order for Talking Giraffe 2, along with Singing Parrot. The quantities for each are equal, except the quantity is unknown. The dudes are again using different equations to determine the quantity. Dude #1: 58x=18,85058x = 18,850; Dude #2: 23x+35x=18,850.23x + 35x = 18,850. Which dude is right? Explain your reasoning.” 

The materials provide guidance for teachers on how to engage students with MP3. In several lessons, the Detailed Lesson Plan identifies MP3 and provides prompts that support teachers in engaging students with MP3. Examples include:

  • In 7.NS.A.1d Bad Accounting, “During the Immersion, students use the ‘Think-Pair-Share’ protocol to talk through what they need to know, with the teacher prompt (‘What are your ideas?’) provided. In Data & Computation, students are paired to use the ‘Lawyer Up!’ protocol to defend Ms. Malone’s or Mr. Skinner’s case. They are informed that one of them will be defending the ‘incorrect’ side but to try to make the strongest mathematical case possible. By arguing for a position that is incorrect, students learn to consider different perspectives and see how flawed arguments are formed. After a brief period, the student ‘attorneys’ must agree on which side they find most logical with best supporting evidence. This lesson encourages students to construct viable arguments and use reasoning while critiquing the arguments of others, including being able to see both strengths and weaknesses in arguments.”

  • In 7.NS.A.3 Chocolate Certified, the materials include that this lesson “uses a role play protocol that provides an interesting way for teachers to engage students in critiquing the reasoning of other students. In Resolution, both the teacher and students engage in a feedback process that reinforces how their assumptions, variables, and visual representations support a constructive argument developed within a model and how they can be improved.”

Indicator 2G
02/02

Materials support the intentional development of MP4: Model with mathematics; and MP5: Use appropriate tools strategically, for students, in connection to the grade-level content standards, as expected by the mathematical practice standards.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for supporting the intentional development of MP4 and MP5 for students, in connection to the grade-level content standards, as expected by the mathematical practice standards.

Examples of the intentional development of MP4 to meet its full intent in connection to grade-level content include:

  • In 7.EE.B.3 Hay Talk, the Detailed Lesson Plan states, “MP4: Model with mathematics. Hay Talk provides students with an opportunity to solve a real-life situation by modeling with mathematics. In Immersion, the problem is unstructured, and students must make assumptions and approximations to simplify the situation. They must determine how certain quantities, such as the number of horses and number of days, affects how much hay will be needed. In Data & Computation, students will likely see a different approach in the Data Artifact (using the weight of the horse) than they had taken, prompting them to think about revising their model to include additional details and/or revising their model to be more accurate. In Resolution, the full intent of the practice is met as students present different ways of approaching the problem, and consider final revisions to make the model more accurate and complete.”

  • In 7.G.B.4 Crop Circle, Lesson Plan Overview, “MP4: Model with Mathematics. On Day 1, during the Data & Computation phase, students will use the formula for area of a circle to solve a real-world problem. During the Resolution phase, students will see the relationship between area of a circle and pi, which will help their conceptual understanding of the formula.”

  • In 7.NS.A.3 Chocolate Certified, students calculate how much chocolate to bring on a group hike. The Detailed Lesson Plan states, “MP4: Model with mathematics. Chocolate Certified provides an opportunity for students to experience all aspects of Jo Boaler’s recommendations for this practice (open questions, make assumptions, create visuals, and revise work). This is a ‘deep’ modeling task with a role play protocol. Teachers are encouraged to spend additional time, in Immersion, to explore this multifaceted task and in debrief, during Resolution, to explore the process of modeling.”

Examples of the intentional development of MP5 to meet its full intent in connection to grade-level content include:

  • In 7.G.A.2 Love Triangle, the Detailed Lesson Plan states, “MP5: Use appropriate tools strategically. During Data & Computation, students strategically choose what tools they will use to help the designer construct a triangle and meet the client’s specifications, indicating the precise measurements. The protocol, which immerses students into the context of working as interns for the design company, enhances their thinking to consider a wider array of tools than they might if they maintained a student-only role.”

  • In 7.SP.C.7b Break Time, the Detailed Lesson Plan states, “MP5: Use appropriate tools strategically. In Resolution, students choose what tools to use in the development of a model that supports them in determining the likelihood of an outcome of an everyday life situation. Initial tools may include questionnaires or other observational tools. In Data & Computation, students may use spreadsheets, calculators, computational software, paper and pencil, rulers or other tools. In presentations, students may select a final medium, such as posters, animation software, slide decks, etc. Students are encouraged to choose tools that are appropriate and strategic to gather, calculate and communicate their data findings.”

Indicator 2H
02/02

Materials attend to the intentional development of MP6: Attend to precision; and attend to the specialized language of mathematics for students, in connection to the grade-level content standards, as expected by the mathematical practice standards.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for supporting the intentional development of MP6: Attend to precision for students, in connection to the grade-level content standards, as expected by the mathematical practice standards. 

The materials use precise and accurate terminology and definitions when describing mathematics, and the materials provide instruction in how to communicate mathematical thinking using words, diagrams, and symbols. Examples include:

  • Each Detailed Lesson Plan provides teachers with a list of vocabulary words and definitions that correspond to the language of the standard that is attached to the lesson; usually specific to content, but sometimes more general. For example, 7.RP.2c states, “Represent proportional relationships by equations.” The vocabulary provided to the teacher in 7.RP.A.2c Food Factor is, “Constant of proportionality: The constant value of the ratio of two proportional quantities, typically x and y; often written as k=yxk=\frac{y}{x}; also known as the rate of change.”

  • The vocabulary provided for the teacher is highlighted in red in the student materials on the Practice Printable.

  • Each Detailed Lesson Plan prompts teachers to “Look for opportunities to clarify vocabulary” while students work on the Immersion problem which includes, “As students explain their reasoning to you and to classmates, look for opportunities to clarify their vocabulary. Allow students to ‘get their idea out’ using their own language but when possible, make clarifying statements using precise vocabulary to say the same thing. This allows students to hear the vocabulary in context, which is among the strongest methods for learning vocabulary.” 

  • Each Detailed Lesson Plan includes this reminder, “Vocabulary Protocols: In your math classroom, make a Word Wall to hang and refer to vocabulary words throughout the lesson. As a whole-class exercise, create a visual representation and definition once students have had time to use their new words throughout a lesson. In the Practice Printable, remind students that key vocabulary words are highlighted. Definitions are available at the upper right in their student account. In the Student Reflection, the rubric lists the key vocabulary words for the lesson. Students are required to use these vocabulary words to explain, in narrative form, the math experienced in this lesson. During ‘Gallery Walks,’ vocabulary can be a focus of the ‘I Wonder..., I Notice…’ protocol.”

  • Each lesson includes student reflection. Students are provided with a list of vocabulary words from the lesson to help them include appropriate math vocabulary in the reflection. The rubric for the reflection includes, “I clearly described how the math is used in the story and used appropriate math vocabulary.” 

  • Vocabulary for students is provided in the Glossary in the student workbook. “This glossary contains terms and definitions used in MidSchoolMath Comprehensive Curriculum, including 5th to 8th grades.” 

  • The Teacher Instruction portion of each detailed lesson plan begins with, “Here are examples of statements you might make to the class:” which often, though not always, includes the vocabulary used in context. For example, the vocabulary provided for 7.RP.A.3 Sport Stats is “Proportional Relationship” and “Percent/Percentage.” The sample statements provided are, “In Sport Stats, we had to help Dave and Shannon calculate the win percentage for each unicycle hockey team so they could broadcast it on air; They calculated the win percentage by making a ratio of the number of games won to the total number of games played, dividing to create a decimal, and multiplying by 100; This is one way of solving this problem, but there are others. I’m wondering how does this relate to proportional relationships we’ve been studying?”

Indicator 2I
02/02

Materials support the intentional development of MP7: Look for and make use of structure; and MP8: Look for and express regularity in repeated reasoning, for students, in connection to the grade-level content standards, as expected by the mathematical practice standards.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for supporting the intentional development of MP7 and MP8 for students, in connection to the grade-level content standards, as expected by the mathematical practice standards.

Examples of the intentional development of MP7 to meet its full intent in connection to grade-level content include:

  • In 7.G.B.6 Miracle Mural, the Detailed Lesson Plan states, “MP7: Look for and make use of structure. In Data & Computation, students have an opportunity to look for and use familiar structures (grids, 2-D figures within the mural) in the Data Artifact to determine the area. They are asked several prompting questions that help them look for and understand patterns and structures. In Practice Printable, students will make sense of structure by decomposing figures into simpler figures from which to calculate area and/or volume.”

  • In 7.NS.A.1d Bad Accounting, the Detailed Lesson Plan states, “MP7: Look for and make use of structure. On Day 1, during both the Immersion and Data & Computation phases, students will recognize that they can use properties of operations to rewrite or rearrange expressions involving adding and subtracting rational numbers.”

  • In 7.RP.A.2a Hot Sauce!, the Detailed Lesson Plan states, “MP7: Look for and make use of structure. In Data & Computation, students are asked to draw a visual representation that is connected to the data. As students look for patterns apparent in the visual, they begin to see the underlying structure (a graph) that helps them determine if the pattern is proportional (linear). In Resolution, students apply Jo Boaler’s tip for SMP7 as they share different ways they solved the problem. They are encouraged to look for structures that help illustrate proportional relationships.”

Examples of the intentional development of MP8 to meet its full intent in connection to grade-level content include:

  • In 7.NS.A.1b Space Selfie, the Detailed Lesson Plan states, “MP8: Look for and express regularity in repeated reasoning. During Teacher Instruction, students experience repeated reasoning as they use the operation of addition with negative and positive numbers to solve each problem. This computation is further understood as repeated reasoning as they see the solution in a visual form on a number line. The full intent of the practice occurs as students are asked to generalize a rule in abstract form (using p and q as integers) through the prompts:  Explain when p + q is positive.;  Explain when p + q is negative.; Explain when p + q is neither positive nor negative.”

  • In 7.RP.A.2c Food Factor, the Detailed Lesson Plan states, “MP8: Look for and express regularity in repeated reasoning. During Data & Computation, Practice Printable, and Clicker Quiz students have various opportunities to engage in MP8 as they look for the repeated reasoning within data provided either in a tabular format or in a verbal description. Students express regularity in the repeated reasoning shown in proportional relationships by writing an equation that relates the two variables in a general manner.”

Overview of Gateway 3

Usability

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for Usability. The materials meet expectations for Criterion 1, Teacher Supports, for Criterion 2, Assessment, and for Criterion 3, Student Supports.

Criterion 3.1: Teacher Supports

09/09

The program includes opportunities for teachers to effectively plan and utilize materials with integrity and to further develop their own understanding of the content.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for Teacher Supports. The materials: provide teacher guidance with useful annotations and suggestions for enacting the materials, contain adult-level explanations and examples of the more complex grade-level concepts and concepts beyond the current grade so that teachers can improve their own knowledge of the subject, include standards correlation information that explains the role of the standards in the context of the overall series, provide explanations of the instructional approaches of the program and identification of the research-based strategies, and provide a comprehensive list of supplies needed to support instructional activities.

Indicator 3A
02/02

Materials provide teacher guidance with useful annotations and suggestions for how to enact the student materials and ancillary materials, with specific attention to engaging students in order to guide their mathematical development.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for providing teacher guidance with useful annotations and suggestions for how to enact the student materials and ancillary materials, with specific attention to engaging students in order to guide their mathematical development.

Materials provide comprehensive guidance that will assist teachers in presenting the student and ancillary materials.

  • A Curriculum Overview provides a chart of the components and description for the lessons, assessments, and Domain Review. The curriculum components are described briefly in the Overview section. 

  • A Practical Approach to Using Assessments, Rubrics & Scoring Guidelines helps the teacher understand rubrics for the assessments.

  • In the Teacher Guide, there is instruction on planning a lesson with a sample sequence for lessons and assessments. The materials provide pacing for the year.

  • In the Teacher Guide, the instructional protocols used throughout the series are described and connected to the Mathematical Practices they support. 

  • In the Detailed Lesson Plan, there is a section to help support Diverse Learners with a chart of Accommodations, Modifications, and Extensions, as well as Language Routines. 

  • Common Misconceptions are listed in each Detailed Lesson Plan.

  • Teachers are given suggestions for vocabulary incorporation such as, “In your math classroom, make a Word Wall to hang and refer to vocabulary words throughout the lesson. As a whole-class exercise, create a visual representation and definition once students have had time to use their new words throughout a lesson.”

  • Guidance is given to teachers for applying and reinforcing math practices in the Teacher Guide and in Detailed Lesson Plans. For example, MP8: “This practice is reinforced by having the students watch a complimentary video in which Jo Boaler has students modeling how to look for and identify patterns in real-life scenarios.” Guidance shared directly from Jo Boaler states, “Students need time and space to develop their capacity to ‘look for and express regularity in repeated reasoning.’ When you provide tasks that are specific to supporting MP8, explicitly tell students that it’s ok to slow down, and to think deeply.” Several “tips” to address the MP are also shared.k to slow down, and to think deeply.”

  • “Detailed Lesson Plans provide a step-by-step guide with specific learning objectives for the math standard, lesson summary, prerequisite standards, vocabulary and vocabulary protocols, applying Standards for Mathematical Practice, Jo Boaler's SMP Tips, cluster connection, common misconceptions, instruction at a glance, and day-by-day teaching instructions with time allotments. Also included are suggestions for differentiation, and instructional moves as well as tips for the English Language Learner student.”

Materials include sufficient and useful annotations and suggestions that are presented within the context of the specific learning objectives. Throughout each lesson’s Detailed Lesson Plan, there is narrative information to assist the teacher in presenting student material throughout all phases. Examples include:

  • 7.NS.A.2c The Mastermind, Teacher Instruction: “Remember that the properties of operations can be used as a tool when multiplying and dividing rational numbers. In The Mastermind, DJ Mastermind used the distributive property to quickly solve a problem involving mixed numbers in his head. We could have just multiplied these numbers on paper, but sometimes the structure of the properties of operations help us to rearrange problems or to break them down so we can simplify our calculations.”

  • 7.G.B.6 Miracle Mural, Common Misconceptions: “Students may struggle with when to use square units or cubic units. Remind students that area is ‘covering,’ which involves 2-dimensions and square units, while volume is ‘filling,’ which involves 3-dimensions and cubic units.”

  • 7.RP.A.2a Hot Sauce!, Instruction at a Glance Pro Tip: “Students may struggle with the difference between additive reasoning and multiplicative reasoning. Help them understand that although additive relationships can form a line, the line won't go through the origin and the ratios between values won't be equivalent.”

  • 7.NS.A.1b Space Selfie, Part 3 Resolution: “1. Play Resolution video to the whole class, and have the students compare their solutions as they watch. 2. After the video, prompt students with the following questions: What did you do that was the same? What was different? What strategy do you think was more efficient to find the equation? Why? Students may respond aloud or in a journal.”

Indicator 3B
02/02

Materials contain adult-level explanations and examples of the more complex grade-level/course-level concepts and concepts beyond the current course so that teachers can improve their own knowledge of the subject.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for containing adult-level explanations and examples of the more complex grade/course-level concepts and concepts beyond the current course so that teachers can improve their own knowledge of the subject.

Under the Resources Tab, there is a section dedicated to Adult-Level Resources. These contain adult-level explanations including examples of the more complex grade/course-level concepts so that teachers can improve their own knowledge of the subject. There are also professional articles provided on topics such as mathematical growth mindset, cultural diversity in math, and mathematical language routines.

The Teacher Guide contains a page at the beginning of each cluster section titled, “Cluster Refresher for the Teacher - Adult Level Explanation”. This provides a page of basic background information for the teacher including strategies to develop understanding. For example,

  • “7.RP.A involves analyzing proportional relationships and using them to solve real-world and mathematical problems. The concept relies on the understanding of how numbers relate to each other in multiplicative and divisional ways and applying that understanding to real-world contexts. ... The importance of understanding proportionality is paramount to realizing how many uses it has in a real world context. Application of this skill assists with cooking, money applications, statistics, measurement, geometry, architecture, and a great deal in the field of science, just to name a few.”

The Adult-Level Explanations booklet under the Resources tab includes a progression through each domain from Grade 5 through High School. The last section is Beyond Grade 8, which explains how the middle grades learning connects to high school standards. For example: Beyond Grade 8: Ratios & Proportions:

  • “Understanding the quantitative relationship between two quantities describes ratio, while equivalence between sets of ratios describes proportion. Making the connection that numbers relate to each other in the sense of multiplication and division is key to identifying and understanding proportional relationships. ... In the high school years, these concepts continue to build on each other. These concepts are essential in all facets of life, extending to topics such as speed, density, and acceleration in science, drawing conclusions about populations in statistics, adjusting recipes while cooking, and getting the best deal at the grocery store.”

Indicator 3C
02/02

Materials include standards correlation information that explains the role of the standards in the context of the overall series.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for including standards correlation information that explains the role of the standards in the context of the overall series.

Correlation information is present for the mathematics standards addressed throughout the grade level/series.

  • Each course in this series includes a document called Planning the Year that provides the standards and pacing for each lesson. 

  • There are standards correlations in the Scope and Sequence Chart that lists each Lesson, Domain Review, and Major Cluster Lessons throughout a year.

  • Each lesson is designed to address a single standard.

Explanations of the role of the specific grade-level/course-level mathematics are present in the context of the series.

  • The Teacher Guide contains a page at the beginning of each cluster section titled “Role of Mathematics” which clearly identifies the grade-level clusters and standards within a domain and describes the intent of the cluster. The Cluster Role Across Grade Levels describes the grade-level content in context of the domain progression from when the initial related skills were introduced to how the skills progress through high school. For example, “The 7.RP.A cluster involves analyzing proportional relationships and using them to solve real world and mathematical problems. Students compute unit rates, recognize and represent proportional relationships, and use them to solve multistep ratio and percent problems. Skills leading up to this cluster begin in Grade 4, where students multiply or divide to solve word problems, distinguishing multiplicative reasoning from additive reasoning (4.OA.A.2). ... These skills will continue to be applied in High School, as students create equations in two or more variables to represent relationships between quantities (HSA.CED.A.2), use units to understand and guide the solution of multi-step problems (HSN.Q.A.1) and apply concepts of density based on area and volume (HSG.MG.A.2).”

  • The Detailed Lesson Plan for each lesson lists the Prerequisite Standards required for students to be successful in the lesson. For example, in 7.G.B.5 Guarding the Great Gate, the Prerequisite Standard listed is 4.MD.C.7.

  • The Detailed Lesson Plan for each lesson includes Cluster Connections that identify connections between clusters and coherence across grade levels. For example, in 7.G.A.3 Doctor Dilim's Dimensions, Cross-Cluster Connection: “This activity connects 7.G.A to 8.G.C as students will build capacity for seeing 3-D figures as a collection of 2-D components, which provides a foundation to better understand how formulas are developed for surface area and volume of pyramids, cylinders and cones.”

Indicator 3D
Read

Materials provide strategies for informing all stakeholders, including students, parents, or caregivers about the program and suggestions for how they can help support student progress and achievement.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 provide some strategies for informing all stakeholders, including students, parents, or caregivers about the program, and the materials provide minimal suggestions for how they can help support student progress and achievement.

In the Resources, the Letter to Parents addresses the structure and philosophy of the series as a whole but does not provide specific curricular support. Suggestions for how parents or caregivers can help support student progress and achievement are included in the Parent Letter: “We invite you to contribute to your student’s learning by facilitating discussions at home about what they are learning in math class. Ask your student to log in to their MidSchoolMath account and show you their math work. Try your best to listen and not be critique. Expect that math problems and solutions may be presented differently than how you were taught.” The program does not provide any other suggestions for how stakeholders can help support student progress and achievement throughout the remainder of the materials.

Indicator 3E
02/02

Materials provide explanations of the instructional approaches of the program and identification of the research-based strategies.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for providing explanations of the instructional approaches of the program and identification of the research-based strategies.

Materials explain the instructional approaches of the program.

  • The Curriculum Overview in the Teacher's Guide states that the curriculum is designed to “STOP THE DROP.” The materials state, “Core Curriculum by MidSchoolMath is developed to fix this problem through a fundamentally different approach... MidSchoolMath emphasizes structured, conceptual learning to prepare students for Algebra I... MidSchoolMath is specifically designed to address the ‘The Mid School Math Cliff’.”

  • In the Teacher Guide, the overview on Scoring Guidelines states, “In coordination with Dr. Jo Boaler, MidSchoolMath has developed an approach to using rubrics and scoring with an emphasis on making them useful and practical for helping teachers support student learning. This is in contrast to the use of scoring guidelines for the primary purpose of giving grades.” 

  • In the Letter to the Parent, the instructional approaches are summarized, “MidSchoolMath strives to help students see that math is relevant and holds value and meaning in the world. The curriculum is designed not only to enhance student engagement, but also to provide stronger visual representation of concepts with focus on logic structures and mathematical thinking for long-term comprehension. ... Peer Teaching: Students learning from other students is a powerful mechanism, wherein both the ‘teachers’ and the ‘learners’' receive learning benefits.”

Materials reference relevant research sources:

  • “Hattie, J. (2017) Visible Learning

  • Cooney, J.B., Laidlaw, J. (2019) A curriculum structure with potential for higher than average gains in middle school math

  • Tomlinson (2003) Differentiated Instruction

  • Dweck (2016) Growth Mindset

  • Carrier & Pashler (1992) The influence of retrieval on retention: the testing effect

  • Boaler, J. (2016) Mathematical MindSets

  • Rohrer, D., & Pashler, H. (2007) Increasing retention without increasing study time

  • Kibble, J (2017) Best practices in summative assessment

  • Laidlaw, J. (2019) Ongoing research in simulators and contextualized math

  • Lave, J. (1988) Cognition in practice: Mind, mathematics and culture in everyday life

  • Schmidt and Houang (2005) Lack of focus in mathematics curriculum: symptom or cause.”

Materials include research-based strategies. Examples include:

  • “Detailed Lesson Plans (Research Indicator: Teacher pedagogy and efficacy remains the highest overall factor impacting student achievement. Multiple instructional models show greater gains than ‘stand and deliver’.)

  • The Math Simulator (Research Indicator: On randomized controlled trials, The Math SimulatorTM elicited high effect sizes for achievement gains across educational interventions. Contextual learning and Productive Failure are likely influences contributing to the large achievement gains.)

  • Teacher Instruction (Research Indicator: Clarity of teacher instruction shows a large effect on student achievement.)

  • Practice Printable (Research Indicator: Differentiation of instruction leads to higher effect sizes compared to full-time ‘whole-group’ instruction. Varied instructional approaches support a growth mindset, an indicator for student success.)”

Indicator 3F
01/01

Materials provide a comprehensive list of supplies needed to support instructional activities.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for providing a comprehensive list of supplies needed to support instructional activities.

The Teacher Guide includes Planning the Year, Comprehensive Supply List which provides a supply list of both required and recommended supplies for the grade. For example: “Required: Markers, Chart, Paper, Colored Pencils, Dry-erase Markers, Graph Paper, Ruler, Protractor, Compass; Recommended: Individual white boards/laminated alternative, Calculator, Dice, Playing cards, Algebra tiles.”

Each Detailed Lesson Plan includes a Materials List for each component of the lesson. For example in 7.SP.C.8.a-b Red Buffalo:

  • “Immersion: Materials - Red Buffalo Immersion video; Chart paper/Interactive whiteboard; White paper

  • Data & Computation: Materials - Copies of Red Buffalo Data Artifact, one per student 

  • Resolution: Materials - Red Buffalo Resolution video

  • Math Simulator: Materials - Red Buffalo Simulation Trainer; Student Devices; Paper and Pencil; Student Headphones

  • Practice Printable: Materials - Red Buffalo Practice Printable

  • Student Reflection: Materials - Copies of Student Reflection rubric, 1 per student; White Paper; Colored Pencils; Sticky notes

  • Clicker Quiz: Materials - Red Buffalo Clicker Quiz; Student Devices; Paper and Pencil”

Indicator 3G
Read

This is not an assessed indicator in Mathematics.

Indicator 3H
Read

This is not an assessed indicator in Mathematics.

Criterion 3.2: Assessment

10/10

The program includes a system of assessments identifying how materials provide tools, guidance, and support for teachers to collect, interpret, and act on data about student progress towards the standards.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for Assessment. The materials: have assessment information included in the materials to indicate which standards are assessed, include an assessment system that provides multiple opportunities throughout the grade to determine students' learning and sufficient guidance to teachers for interpreting student performance and suggestions for follow-up, and provide assessments that include opportunities for students to demonstrate the full intent of grade-level standards and practices.

Indicator 3I
02/02

Assessment information is included in the materials to indicate which standards are assessed.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for having assessment information included in the materials to indicate which standards are assessed. The materials consistently identify the standards and Mathematical Practices addressed by formal assessments.

  • In the Teacher Guide, Curriculum Components lists several assessments: Clicker Quiz, Test Trainer Pro, and the summative Milestone Assessment. Each cluster has a Pre-assessment and a Post-assessment (Milestone Assessment) which clearly identifies the standard(s) being assessed. The standard is part of the title, for example, “Milestone Post-Assessment 7.SP.C.”; individual tasks and items are not identified on the actual assessment. However, each problem is identified with the standard being assessed in the teacher answer key. 

  • Standards are identified accurately and are from the appropriate grade level. 

  • Assessment problems are presented in the same order as the lessons. They are sequential according to Domain and Cluster headings.

  • The Milestone Assessments include a chart that aligns Mathematical Practices to each question on the assessment, including identifying if the assessment is online, print, or both.

  • The end of each lesson includes a student self-assessment rubric that has students evaluate their understanding of the content standard and the mathematical practices that align with the lesson.

Indicator 3J
04/04

Assessment system provides multiple opportunities throughout the grade, course, and/or series to determine students' learning and sufficient guidance to teachers for interpreting student performance and suggestions for follow-up.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for including an assessment system that provides multiple opportunities throughout the grade to determine students' learning and sufficient guidance to teachers for interpreting student performance and suggestions for follow-up. There is guidance provided to help interpret student performance and specific suggestions for following-up. 

The assessment system provides multiple opportunities to determine students' learning and sufficient guidance to teachers for interpreting student performance.

  • In the Teacher Guide, the Domain Curriculum Components lists two assessments: Test Trainer Pro (formative) and Milestone Assessment (summative). 

    • “Milestone Assessment is a summative evaluation following each cluster per grade. They are automatically graded, yielding the percentage of items answered correctly. The math items are crafted to include items of varying difficulty.” “Please note: Milestone Assessments should not be used to determine student growth. As summative assessments, they are not as sensitive nor as accurate as the adaptive tool, Test Trainer Pro, for providing individual student data for achievement gains over time.”

    • “Test Trainer Pro acts as a low-stakes, formative learning tool for students to practice testing under more relaxed and stress-free conditions. It is an adaptive tool and is designed to elicit the largest gains in student achievement possible in the shortest period of time.”

  • The Teacher Guide contains a section titled “A Practical Approach to Using Assessments, Rubrics & Scoring Guidelines.” This section provides several assessment rubrics: 

    • The MidSchoolMath Rubric and Scoring Framework aligns a percentage “raw score” with a 4-point rubric and proficiency levels.

    • The Milestone Assessment Rubric aligns a percentage “raw score” with a 4-point rubric and has suggestions for follow-up.

    • The Student Self Assessment has students reflect and identify understanding for each lesson component. 

  • An article by Jo Boaler, “Assessing Students in a Growth Mindset Paradigm with Jo Boaler” provides “recommendations for assessment and grading practices to encourage growth mindsets.”

  • Each Curricular cluster contains a tab for Assessments which has a Milestone Assessment Overview & Rubric. There is a rubric from 0 to 3 provided for the open response section of the assessment. To earn all 3 points, students must demonstrate accuracy, show work, and may only have minor mistakes.

    • “Recommended Scoring for Milestone Assessments: A 3-point response includes the correct solution(s) to the question and demonstrates a thorough understanding of the mathematical concepts and/or procedures in the task. This response: Indicates that the student has completed the task correctly, using mathematically sound procedures; Contains sufficient work to demonstrate a thorough understanding of the mathematical concepts and/or procedures; May contain inconsequential errors that to not detract from the correct solution(s) and the demonstration of a thorough understanding.”

  • The Overview states, “All items in Milestone Assessments are at grade level and evaluate student understanding of the content at the ‘cluster’ level. Milestone Assessments should only be administered to students after all lessons are completed within the cluster, following recommended sequence and pacing.”

  • The answer key for each Milestone Assessment provides examples of correct responses for each problem. There is a sample response for the open-ended questions. 

  • Several of the other lesson components could be used as formative assessments or for progress monitoring such as the Clicker Quiz.

The assessment system provides task-specific suggestions for following-up with students. There are suggestions for follow-up that are generic strategies, and there are some that direct students to review specific content.

  • The Milestone Assessment Rubric includes Recommendations for Follow Up. These are found in the front matter of the Teacher Guide. They are generic to all assessments and align with the 4 points of the rubric: 

    • “Review and correct any mistakes that were made. Participate in reteaching session led by teacher.

    • Review and correct any mistakes that were made. Identify common mistakes and create a ‘Top-3 Tips’ sheet for classmates. 

    • Review and correct any mistakes that were made. Participate in the tutorial session. 

    • Review and correct any mistakes that were made. Plan and host a tutorial session for the Nearing Proficient group.”

  • The Milestone Assessment also includes suggestions based on which problems are missed. The guidance directs students to review the worked example and Clicker Quiz in the lessons that align to the missed problems and then revise the problems they missed in the assessment. This provides specific feedback to review the content of the lesson. 

  • The Student Self-Assessment provides a generic strategy for follow-up: “Recommended follow-up: When students self-identify as ‘Don’t get it!’ Or ‘Getting there!’ on an assignment, is it essential for teachers to attempt to provide support for these students as soon as possible. Additionally, it is helpful for teachers to use scoring on Practice Printables and Clicker Quizzes to gauge student comprehension. Use the general scoring guidelines to determine approximate proficiency. It is highly recommended that all assignments may be revised by students, even those which are scored.”

  • The Student Self-Assessment provides suggestions based on where the students rate themselves. Students are directed to review specific parts of the lesson to reinforce the parts they do not feel successful with. There are also more generic strategies suggested that go across lessons and grade levels.

  • The materials state that “Test Trainer Pro automates assessment and recommendations for follow-up under the score. As an assessment, Test Trainer Pro is the most specific, and most accurate measure available in MidSchoolMath to determine how students are performing in terms of grade and domain level performance.” A teacher can view the Test Trainer Pro question bank; however, there is no way to review the specific follow-up recommendations provided since they are adapted to each student. 

  • Exit Ticket results are sometimes used to suggest grouping for instructional activities the following day.

Indicator 3K
04/04

Assessments include opportunities for students to demonstrate the full intent of grade-level/course-level standards and practices across the series.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for providing assessments that include opportunities for students to demonstrate the full intent of grade-level standards and practices across the series. Assessments include opportunities for students to demonstrate the full intent of grade-level standards and the mathematical practices across the series.

  • Assessments are specific to each standard, so there is opportunity for students to demonstrate to the full intent of grade-level standards. 

  • Considering both formative and summative assessments, there are a variety of item types offered including Exit Tickets, Clicker Quizzes, Test Trainer Pro, Lesson Reflection, Self-Reflection, and Milestone Assessments.

  • Most assessments are online and multiple choice in format, though there is a print option for milestone assessments that includes open response. 

  • Students have the opportunity to demonstrate the full intent of the practices in assessments; practices are aligned in Milestone assessments and addressed in the student self-assessments for each lesson.

Indicator 3L
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Assessments offer accommodations that allow students to demonstrate their knowledge and skills without changing the content of the assessment.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 provide few accommodations for assessments that allow students to demonstrate their knowledge and skills without changing the content of the assessment.

  • For Milestone Post Assessments, the materials state, “Guidance for follow-up is provided in the milestone rubric. It is highly recommended that even Milestone Post Assessments may be revised by students to achieve a higher score.”

  • The Clicker Quizzes sometimes provide specific suggestions such as, “Provide students with a laminated number line, and fraction tiles.” or “Allow students to use vocabulary cards.”

  • In the Teacher Guide, “Assessing Students in a Growth Mindset Paradigm with Jo Boaler” suggests, “If a grade is required and there is no additional time available due to school schedule constraints, I recommend having a conversation with that student to negotiate the grade, with the student indicating what they have learned, while collaborating on next steps to make progress on unfinished learning.” The article also states, “Current assessment practices can undermine the growth mindset messages students receive in other areas of the teaching and learning process. For example, a teacher may allow students to revise work to encourage a growth mindset during a low-stakes assignment, yet when it comes to a test, no revision is allowed.”

  • Test Trainer Pro is used for Progress Monitoring. “Test Trainer Pro automatically adapts to student ability level as students move through questions. Instruct students to work in a lower grade level or Core Skills (Grades 1-4) as needed or in a higher grade level or Algebra I as needed.” “Test Trainer Pro meets students where they are and works alongside challenging grade level content. Students have the opportunity to practice items needed to complete learning, while the emphasis remains focused on mastering the current grade level.”

Criterion 3.3: Student Supports

08/08

The program includes materials designed for each student’s regular and active participation in grade-level/grade-band/series content.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for Student Supports. The materials provide: strategies and supports for students in special populations to support their regular and active participation in learning grade-level mathematics, extensions and/or opportunities for students to engage with grade-level mathematics at higher levels of complexity, strategies and supports for students who read, write, and/or speak in a language other than English to regularly participate in learning grade-level mathematics, and manipulatives, both virtual and physical, that are accurate representations of the mathematical objects they represent and, when appropriate, are connected to written methods.

Indicator 3M
02/02

Materials provide strategies and supports for students in special populations to support their regular and active participation in learning grade-level/series mathematics.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for providing strategies and supports for students in special populations to support their regular and active participation in learning grade-level/series mathematics.

Materials regularly provide strategies, supports, and resources for students in special populations to help them access grade-level mathematics. In each Detailed Lesson Plan, Supporting Diverse Learners, there is a chart titled Accommodations, Modifications, and Extensions for English Learners (EL) and Special Populations that provides accommodations for each component of the lesson. Many of these are generic, but some are specific to the content of the lesson. For example, the components of 7.EE.B.4a, Pen Perimeter, include:

  • The Math Simulator Immersion: “Reinforce vocabulary in action: Quotient: a result obtained by dividing one number by another; Using the Frayer model, have students create vocabulary cards for each of the lesson’s vocabulary words, plus quotient, positive quotient, and negative quotient.”

  • The Math Simulator Data & Computation: “Provide students with a graphic organizer with concrete examples as well as definitions and mathematical rules for the following words: integers, non-integers, rational numbers, undefined, quotients, positive quotients, and negative quotients. Give students real world examples of what the fractions mean (like the one in the problem) to help students make the fractions with a negative make more sense.  Another example would be negative temperatures.”

  • Simulation Trainer: “Pair students to allow for peer teaching and support.”

  • Practice Printable: “Upon completion of the first page (Procedure #1), consider following the Exit Ticket Differentiation Plan. Pair students to allow for peer teaching and support. Consider allowing students to answer questions verbally to a scribe. Students may benefit from extended time.” The Practice Printable also has interactive buttons that allow students to complete work online through draw and text tools as well as a work pad that includes an opportunity to chat with the teacher. 

  • Clicker Quiz: “Students may benefit from a printed copy of the Clicker Quiz pages. Read Clicker Quiz questions aloud to students, especially those questions that are text-intensive.”

Indicator 3N
02/02

Materials provide extensions and/or opportunities for students to engage with grade-level/course-level mathematics at higher levels of complexity.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for providing extensions and/or opportunities for students to engage with grade-level mathematics at higher levels of complexity.

Materials provide multiple opportunities for advanced students to investigate the grade-level content at a higher level of complexity. The Exit Ticket in each lesson provides a differentiation plan that includes extension. While some strategies are the same across lessons, there are a variety of tasks offered. Examples include:

  • 7.G.A.3 Doctor Dilim's Dimensions, “Task the students with creating a match game with index cards. One pair of cards should have a visual model of a 3D figure with a line for a cross-section cut, and the other should have a visual model of 2D figure that matches.”

  • 7.NS.A.1a Ghost Tamers, “Create a poster to explain the idea of opposite quantities. Include at least one diagram, at least one real-life example, and at least one mathematical example.”

  • 7.NS.A.2d Grandpa's Journey, “Analyze these rational numbers and their decimal equivalents. Attempt to define a shortcut telling you and your classmates when a rational number will terminate or repeat just by looking at the fraction representation.”

In each Detailed Lesson Plan under Supporting Diverse Learners, there is a chart titled Accommodations, Modifications and Extensions for English Learners (EL) and Special Populations that provides extensions for each component of the lesson. Many of these are generic, but some are specific to the content of the lesson. For example, the components of 7.EE.B.4a Pen Perimeter include:

  • The Math Simulator Data & Computation: “Have students create additional clues to a map like the ones in the Immersion and trade with a partner to solve. Have them use a 20 × 20 map to do so.”

  • Practice Printable: “Upon completion of the first page (Procedure #1), consider following the Exit Ticket Differentiation Plan. Have students create problems like a)-d) using fractions. Have them exchange them with a partner and solve.”

  • Clicker Quiz: “Task students with writing and solving their own ‘clicker quiz’ question.”

  • Extensions are optional; there are no instances of advanced students doing more assignments than their classmates.

Indicator 3O
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Materials provide varied approaches to learning tasks over time and variety in how students are expected to demonstrate their learning with opportunities for students to monitor their learning.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 provide opportunities for varied approaches to learning tasks over time and variety in how students are expected to demonstrate their learning with opportunities for students to monitor their learning.

Many of the protocols used throughout the materials provide multi-modal opportunities for students to share their thinking such as Sketch It, I Wonder I Notice, Gallery Walk, Lawyer Up!, and Make Up Your Own. The Math Simulator Immersion Video that introduces each lesson provides a large variety of situations and “artifacts” for students to investigate. Within the components of the lesson, students have the opportunity to work online using Clicker Quizzes and the Simulation Trainer. They also have the option to work online or use paper/pencil with the artifacts during Data & Computation and Practice Printables.

The Math Simulator process engages students with problem solving and interacting with each other to start each lesson. Examples include:

  • 7.G.A.4 Crop Circle, “What is the area of the field? In Crop Circle, Farmer Ellie tells her audience that a secret to good farming is a circular field and center pivot irrigation. She emphasizes that one needs to know the area of the field to more effectively use the irrigation system. Hence, she challenges her audience to calculate the area of the circular field. The data provided is an image of the circular field labeled with the length of the diameter.” In the Detailed Lesson Plan on Day 1 Immersion, students use the protocol, “Think-Pair-Share. Ask students to think individually about what information they need to know and make some notes ( 1-2 min). Tell students to pair with a partner and discuss their notes ( 2 min). Finally, facilitate whole-class by cold-calling on students to share their strategies on an interactive board (≈ 2 min).”

  • 7.G.A.3, Dr. Dilim’s Dimensions, “What is the two-dimensional cross-section of each figure? In Doctor Dilim’s Dimensions, Doctor Dilim is running a virtual radiology lab training future doctors and nurses to read MRIs. She gives her students a brief overview of MRI technology, telling them that it is basically able to slice a body part into many two-dimensional pictures, which can then be analyzed separately. She leaves the students with the task of determining the shape of two-dimensional cross-sections formed by planes intersecting three-dimensional figures. The data provided is an image of Dr. Dilim and the 3-D figures she leaves for her medical students to analyze.” In the Detailed Lesson Plan, “Have students ask clarifying questions of one another before switching to new partners two or three times, again asking clarifying questions of one another. Finally, have students return to their seats and write their final thoughts in sentences, or make drawings about their final thoughts.”

In the Teacher Guide, under Curriculum Components & Research Indicators, the student reflection at the end of each lesson is described, “Student Reflection warrants special attention as the culminating assignment designed to trigger a ‘memory cascade’ of the math concept. Students create a visual representation and supporting narrative to demonstrate their mastery of the standard.”

In the Teacher Guide, under a Practical Approach to Using Assessments, Rubrics & Scoring Guidelines, materials state, “Self-assessments are an excellent, and very quick way, for teachers to gauge student learning.” Students have the opportunity to self-assess throughout the lesson using a rating scale and also on many of the exit tickets.

Indicator 3P
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Materials provide opportunities for teachers to use a variety of grouping strategies.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 provide opportunities for teachers to use a variety of grouping strategies. 

  • There are grouping strategies included for many of the protocols used throughout the materials such as Think-Pair-Share, Lawyer Up!, and Gallery Walk. 

  • In each lesson, students complete an Exit Ticket “with the option of using the results to group the students for work the next day.” 

  • The materials refer to grouping or regrouping students, but they don’t provide specific guidance to teachers on how to group the students. For example, “Gather necessary materials, make any necessary student groupings, and plan any protocols that you deem helpful.”

Indicator 3Q
02/02

Materials provide strategies and supports for students who read, write, and/or speak in a language other than English to regularly participate in learning grade-level mathematics.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for providing strategies and supports for students who read, write, and/or speak in a language other than English to regularly participate in learning grade-level mathematics.

Materials consistently provide strategies and supports for students who read, write, and/or speak in a language other than English to meet or exceed grade-level standards through regular and active participation in grade-level mathematics. Examples include:

  • In the Detailed Lesson Plan for every lesson, the same two strategies are suggested: “Access Closed Caption and Spanish Subtitles within the video.” and “Pair students to allow for peer teaching and support. Consider allowing EL students to write the narrative in their native language, then use a digital translator to help them transcribe it into English.” 

  • Each Detailed Lesson Plan makes a connection with one of the eight identified Math Language Routines (MLR), listed and described in the Teacher Guide. The MLRs include: Stronger and Clearer Each Time, Collect and Display, Critique, Correct, and Clarify, Information Gap, Co-Craft Questions and Problems, Three Reads, Compare and Connect, Discussion Supports.

  • All materials are available in Spanish. 

  • The use of protocols such as Think-Pair-Share, Quick Write, and I Wonder I Notice provides opportunities for developing skills with speaking, reading, and writing.

  • Vocabulary is provided at the beginning of each lesson and reinforced during practice and lesson reflection, “In the Practice Printable, remind students that key vocabulary words are highlighted.” In the Student Reflection, the rubric lists the key vocabulary words for the lesson. Students are required to use these vocabulary words to explain, in narrative form, the math experienced in the lesson. 

  • There is teacher guidance under the Resources tab - Math Language Routines. “Principles for the Design of Mathematics Curricula: Promoting Language and Content Development”, from the Stanford University Graduate School of Education, provides background information, philosophy, four design principles, and eight math language routines with examples. 

  • There are no strategies provided to differentiate the levels of student progress in language development.

Indicator 3R
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Materials provide a balance of images or information about people, representing various demographic and physical characteristics.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 provide a balance of images or information about people, representing various demographic and physical characteristics.

The actors in the videos are from different races and portray people from many ethnicities in a positive, respectful manner, and there is no demographic bias for who achieves success in the problem situation that starts each lesson. Names in the problems include multi-cultural references such as Mario, Jalil, Misha, and Sonia. There are some colloquialisms such as “dude”. The settings span a wide range including rural, urban, international, and space.

Indicator 3S
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Materials provide guidance to encourage teachers to draw upon student home language to facilitate learning.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 do not provide specific guidance to encourage teachers to draw upon student home language to facilitate learning.

While there are supports in place to help students who read, write, and/or speak in a language other than English, there is no evidence of promoting home language and knowledge as an asset to engage students in the content material or purposefully utilizing student home language in context with the materials.

Indicator 3T
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Materials provide guidance to encourage teachers to draw upon student cultural and social backgrounds to facilitate learning.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 provide some guidance to encourage teachers to draw upon student cultural and social backgrounds to facilitate learning.

  • Under the Resources tab, “Cultural Diversity in Math Moving from Shallow Notions of Culture to Student-Centered Mathematics Tasks”, written by Toya J. Frank, Ph.D., discusses how to “make tasks more accessible for students across diverse backgrounds and cultures.” The article recognizes that “our primary goal is to build common languages for mathematical discourse, while still remaining aware that these diverse perspectives exist.” “It is often recommended that the solution is to create tasks that may be more locally relevant.”

  • Materials for all stakeholders are available in Spanish, including video subtitles and communication with parents.

Indicator 3U
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Materials provide supports for different reading levels to ensure accessibility for students.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 provide some supports for different reading levels to ensure accessibility for students. Examples include:

  • In the Detailed Lesson Plan Overview, a frequent suggestion is, “In your math classroom, make a Word Wall to hang and refer to vocabulary words throughout the lesson. As a whole-class exercise, create a visual representation and definition once students have had time to use their new words throughout a lesson.”

  • In the Teacher Guide under Math Language Routines, the introduction states, “A 'math language routine' (MLR) refers to a structured but adaptable format for amplifying, assessing, and developing students' language. The routines emphasize the use of language that is meaningful and purposeful, not inauthentic or simply answer-based. These routines can be adapted and incorporated across lessons in each unit to fit the mathematical work wherever there are productive opportunities to support students in using and improving their English and disciplinary language.” These routines are included in each lesson.

Other supports that promote accessibility for students include:

  • The mathematical practices support students in accessing grade-level content. In the Teacher Guide under Practices and Protocols, Jo Boaler explains each practice and provides suggestions for incorporating them to help students engage with the content. For example, MP1 Make sense and persevere in solving problems: “1. Let students know that it is good to slow down, and take time formulating the problem. 2. Help students understand that mistakes and struggle create brain growth, that mistakes and struggling are central to learning and building perseverance. 3. Open up any mathematical question or task to encourage students to discuss possible methods, and to encourage opportunities for students to see and solve in different ways. 4. Research has shown that students are more successful when they are shown a problem before being given a method to solve it - give students questions and ask them - use your intuition, what do you think you could do? Try some different approaches. Later have students share their thinking.”

  • For Grades 6-8, the Major Cluster Intensive, Teacher-created Intensive includes Dan Meyer 3-Act Tasks. These tasks are designed to provide multiple entry points and multiple strategies to find solutions.

Indicator 3V
02/02

Manipulatives, both virtual and physical, are accurate representations of the mathematical objects they represent and, when appropriate, are connected to written methods.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 meet expectations for providing manipulatives, both virtual and physical, that are accurate representations of the mathematical objects they represent and, when appropriate, are connected to written methods.

Examples where manipulatives are accurate representations of mathematical objects include:

  • The students have access to virtual manipulatives on the Work Pad which is available online in their Simulator Trainer, Practice Printable, Assessments, and Clicker Quiz. These include shapes, 2-color counters, base 10 blocks, algebra tiles, protractor, and ruler. In addition, there are different styles of digital graph paper and dot paper on the digital whiteboard.

  • Throughout the materials, there are visual models with number lines, graphs, or bars, though these cannot be manipulated. 

  • During the Immersion and Resolution videos, items from the real world are used to represent mathematical concepts. 

  • The Teacher Guide has a section titled “Guidance on the Use of Virtual Manipulatives.” This section includes sub-sections titled: Overview, General Guidance, During Lessons, Manipulative Tools, and Examples of their Use & Connecting to Written Methods. The “Examples of their Use & Connecting to Written Methods” provides teachers with guidance about how to use and make connections with the manipulatives.

  • In the Detailed Lesson Plan, Practice Printable, there is a “Manipulative Task!” where students use the virtual tools in the Work Pad and specifically connect manipulatives to written methods. For example, 7.RP.A.2b Coffee Caravan, Manipulative Task for Digital WorkPad: “Have students return to Problem #1d on the Practice Printable and use the WorkPad to graphically represent the data provided in the table. The students should aim to visually verify if the relation in the table has the same constant of proportionality as y = 1/3x. Encourage students to experiment with the different manipulatives provided in the WorkPad to complete the exercise. For example, students could use the grid background, Line tool, and the Text tool to create and label a coordinate plane, keeping in mind the scale necessary to easily plot the given data points. Finally, the students could use the 2-Color Counters to plot the given ordered pairs, and may connect them using the Line tool. Using this visual representation, students can explore how a graph can help them visually identify the constant of proportionality by observing patterns between each point of data.”

Criterion 3.4: Intentional Design

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The program includes a visual design that is engaging and references or integrates digital technology, when applicable, with guidance for teachers.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 include a visual design that is engaging and integrates digital technology, when applicable, with guidance for teachers. The materials: integrate technology such as interactive tools, virtual manipulatives/objects, and/or dynamic mathematics software in ways that engage students in the grade-level standards, include or reference digital technology that provides opportunities for teachers and/or students to collaborate with each other, have a visual design that supports students in engaging thoughtfully with the subject, and provide some teacher guidance for the use of embedded technology to support and enhance student learning.

Indicator 3W
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Materials integrate technology such as interactive tools, virtual manipulatives/objects, and/or dynamic mathematics software in ways that engage students in the grade-level/series standards, when applicable.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 integrate technology such as interactive tools, virtual manipulatives/objects, and/or dynamic mathematics software in ways that engage students in the grade-level standards, when applicable.

  • All aspects of the materials can be accessed digitally. Some components are only digital such as the Simulation Trainer, the Clicker Quizzes, and Test Trainer Pro. 

  • The Math Simulator is the introduction video for each lesson which automatically guides students through the stages of Immersion, Data & Computation, and Resolution. The Simulator engages students and adds real-world context to the lesson.

  • Every lesson includes an interactive Workpad which provides access to virtual manipulatives as well as text and draw tools and options for virtual paper, such as graph paper and dot paper, to show work virtually.

  • Teachers can assign parts of the lessons for independent work or choose Live Classroom where they host an electronic session with students and can share student work with the whole class.

  • Test Trainer Pro allows for Progress Monitoring which teachers can track by clicking on individual student dots to see their progress. 

  • The digital materials do not allow for customizing or editing existing lessons for local use, but teachers can upload their own materials.

Indicator 3X
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Materials include or reference digital technology that provides opportunities for teachers and/or students to collaborate with each other, when applicable.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 include or reference digital technology that provides opportunities for teachers and/or students to collaborate with each other, when applicable.

  • In the Live Classroom option, there is a chat feature so students can comment with each other and reflect on each others’ work.

  • There is a chat feature in each Practice Printable on the Workpad where students can send a message directly to the teacher.

  • In the Math Simulator, after the Immersion video, a text box states, “What do you need to know? What are your ideas?” that allows anyone to share thinking with the whole class. 

  • Teachers can assign the Math Simulator to students and let the system automatically guide them through each step, including several places where they collaborate and share their ideas within a chat.

  • In the Progress Monitoring section, students and teachers can send messages back and forth or messages can be sent to the whole class.

Indicator 3Y
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The visual design (whether in print or digital) supports students in engaging thoughtfully with the subject, and is neither distracting nor chaotic.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 have a visual design (whether in print or digital) that supports students in engaging thoughtfully with the subject, and is neither distracting nor chaotic.

  • Graphics are visually appealing and connect with the lesson. Images are realistic and colorful; they are not distracting, and they support student learning.

  • The Immersion videos are produced with various actors representing events in current and historical times. Students are engaged without being distracted from the math concept being presented.

  • Digital artifacts are provided to help students understand the problem presented in the Immersion videos. Each lesson includes artifacts specific to the simulation task; some examples are: tax bills, acre lots, receipts for merchandise, boxes.

  • The format is consistent from grade to grade and lesson to lesson. Every lesson has five sections: the Math Simulator, the Simulation Trainer, Practice Printable, Clicker Quiz, and Student Reflection, with the same organizational structure and clear routines.

Indicator 3Z
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Materials provide teacher guidance for the use of embedded technology to support and enhance student learning, when applicable.

The materials reviewed for Core Curriculum by MidSchoolMath Grade 7 provide teacher guidance for the use of embedded technology to support and enhance student learning, when applicable.

  • Under the Resources tab, “Software Instructions” provides step-by-step guidance to setting up and implementing the materials.

  • On the landing page of the website, the publishers post notices about upcoming changes. Currently, there is a video that shares the updates of their Simulator software and that professional development will be offered on this as well.

  • In the Teacher Guide under Curriculum Overview, Manipulatives and the Workpad, “...the Workpad includes a set of manipulatives that aide students in transitioning to more abstract understandings, For example, the Algebra Tiles can be used to understand abstract equations in a visual format. Base 10 Blocks allow a deeper understanding of the decimal system in symbol format.”