Session 1 Agenda Introduction to the Module Concept Development Module Review Curriculum Overview of A Story of Ratios Grade 7 Module 4 Overview Questions to address How many topics are there and what are those topics ID: 759318
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Slide1
A Story of Ratios
Grade 7 – Module 4
Session 1
Slide2Agenda
Introduction to the ModuleConcept DevelopmentModule Review
Slide3Curriculum Overview of
A Story of Ratios
Slide4Grade 7 Module 4 Overview
Questions to address:
How many topics are there and what are those topics?How many days are required for lessons? Assessments? Remediation and return?What are some of the important topics and concepts discussed in the narrative?
Module Overview (p. 3)
Slide5Topic A
Finding the Whole
What concepts do you expect to see in Topic A?
Topic A Opener (p. 11)
Slide6Lesson 1: Percent
Students understand that percent is the number and that the symbol means percent.Students convert between fraction, decimal, and percent; including percents that are less than or greater than .Students write a non-whole number percent as a complex fraction.
Lesson 1 / Student Outcomes
Slide7Percent
Color in a 10 x 10 grid to represent each fraction:
Lesson 1 / Opening Exercise
Slide8What are equivalent representations of ?
Percent
Lesson 1 / Opening Exercise
Slide9What are equivalent representations of
Percent
Lesson 1 / Opening Exercise
Slide10Percent
Use the meaning of the word “percent” to write each percent as a fraction and then a decimal.Percent Fraction Decimal
Lesson 1 / Example 1
Slide11Consider this…
The following is not from the module, but is to help make a point…I will name a sequence of colors and for each one, do one of the following:If I name a red color, raise your right hand high.If I name a blue color, clap your hands together once.
Slide12Lesson 2: Part of a Whole as a Percent
Students understand that the whole is , and use the formula to problem-solve when given two terms out of three from the part, whole, and percent.Students solve word problems involving percent using expressions, equations, numeric, and visual models.
Lesson 2 / Student Outcomes
Slide13Part of a Whole as a Percent
Example 1: In Ty’s math class, 20% of the students earned an A on a test. If there were 30 students in the class, how many got an A?
Lesson 2 / Example 1 and Exercise 1
Slide14Part of a Whole as a Percent
Is the expression equivalent to from our steps in Example 1? What does represent? What does represent? What does their product represent?
Lesson 2 / Discussion
Slide15Lesson 3: Comparing Quantities w/ Percent
Students use the context of a word problem to determine which of two quantities represents the whole.Students understand that the whole is 100% and think of one quantity as a percent of another using the formula , to problem solve when given two terms out of three from a quantity, whole, and percent.When comparing two quantities, students compute percent more or percent less using algebraic, numeric, and visual models.
Lesson 3 / Student Outcomes
Slide16Comparing Quantities with Percent
Six club members decided to evenly split the total number of bracelets to be produced [300 bracelets]. Of the 54 bracelets produced over the weekend, Anna produced 32 bracelets. Compare the number of bracelets that Emily produced [22] as a percent of those that Anna produced. Compare the number of bracelets that Anna produced as a percent of the number that Emily produced.
Lesson 3 / Example 1(a) and (b)
Slide17Comparing Quantities with Percent
What percent more did Anna produce in bracelets that Emily?What percent fewer did Emily produce in bracelets than Anna?
Lesson 3 / Example 1(a) and (b
)
Slide18Lesson 4: Percent Increase and Decrease
Students solve percent problems when one quantity is a certain percent more or less than another.Students solve percent problems involving a percent increase or decrease.
Lesson 4 / Student Outcomes
Slide19Percent Increase and Decrease
A sales representative is taking 10% off of your bill as an apology for any inconveniences.
Lesson 4 / Discussion
Slide20Lesson 5: Find One Hundred Percent Given Another Percent
Students find 100% of a quantity (the whole) when given an quantity that is a percent of the whole by using a variety of methods including finding 1%, equations, mental math using factors of 100, and double number line models.Students solve word problems involving finding 100% of a given quantity with and without using equations.
Lesson 5 / Student Outcomes
Slide21Find One Hundred Percent Given Another Percent
What are the whole number factors of 100? What are the multiples of those factors (up to 100)? How many multiples are there of each factor (up to 100)?
Lesson 5 / Opening Exercise
Slide22Find One Hundred Percent Given Another Percent
Nick currently has 7,200 points in his fantasy baseball league which is 20% more points than Adam has. How many points does Adam have?
Lesson 5 / Exercise 2
Slide23Mental Math using Factors of 100
If is ___% of a number, what is that number? How did you find your answer?
Lesson 5 / Example 2
Slide24Lesson 6: Fluency with Percents
Students solve various types of percent problems by identifying the type of percent problem and applying appropriate strategies.Students extend mental math practices to mentally calculate the part, the percent, or the whole in percent word problems.
Lesson 6 / Student Outcomes
Slide25Lesson 6: Fluency with Percents
Richard works from 11:00 a.m. to 3:00 a.m. His dinner break is of the way through his work shift. What time is Richard’s dinner break?
Lesson 6 / Exercise 2
Slide26Topic B
Percent Problems Including More than One Whole
What concepts do you expect to see in Topic B?
Topic B Opener (p. 101)
Slide27Lesson 7: Markup and Markdown Problems
Students understand the terms original price, selling price, markup, markdown, markup rate, and markdown rate.Students identify the original price as the whole and use their knowledge of percent and proportional relationships to solve multi-step markup and markdown problems.Students understand equations for markup and markdown problems and use them to solve markup and markdown problems.
Lesson 7 / Student Outcomes
Slide28Markup and Markdown Problems
Black Friday: A mountain bike is discounted by 30% and then discounted an additional 10% for shoppers who arrive before 5:00 a.m. Find the sales price of the bicycle.In all, by how much has the price of the bicycle been discounted in dollars? Explain.After both discounts were taken, what was the total percent discount?
Lesson 7 / Example 2
Slide29Markup and Markdown Problems
Exercise 4:Write an equation to determine the selling price, , on an item that is originally price dollars after a markup of 25%.Create a table (and label it) showing five possible solutions to your equation.Create a graph (and label it) of your equation.Interpret the points and .
Lesson 7 / Exercise (4)
Slide30Lesson 8: Percent Error Problems
Given the exact value, , of a quantity and an approximate value, , of the quantity, students use the absolute error, , to compute the percent error by using the formula .Students understand the meaning of percent error: the percent the absolute error is of the exact value.Students understand that when an exact value is not known, an estimate of the percent error can still be computed when given a range determined by two inclusive values; (e.g., if there are known to be between 6,000 and 7,000 black bears in New York, but the exact number is not known, the percent error can be estimated at most , which is .
Lesson 8 / Student Outcomes
Slide31Understanding Percent Error
How Far Off?Using a 12-inch ruler, measure the diagonal of a sheet of paper and record your value.
Lesson 8 / Example 1
Slide32Understanding Percent Error
How Far Off?Use the formula for absolute error to find the absolute errors of the given measurements.
Lesson 8 / Example 1
Slide33Percent Error Problems
The attendance at a musical event was counted several times. All counts were between and . If the actual attendance number is between and , inclusive, what is the most and least the percent error could be? Explain your answer.
Lesson 8 / Example 3
Slide34Lesson 9: Problem Solving when the Percent Changes
Students solve percent problems where quantities and percents change.Students use a variety of methods to solve problems where quantities and percents change, including double number lines, visual models, and equations.
Lesson 9 / Student Outcomes
Slide35Solving Problems when the Percent Changes
Tom’s money is of Sally’s money. After Sally spent and Tom saved all of his money, Tom’s money is more than Sally’s money. How much money did each have at the beginning?
Lesson 9 / Example 1
Slide36Problem Solving when the Percent Changes
Kimberly and Mike have an equal amount of money. After Kimberly spent $50 and Mike spent $25, Mike’s money is 50% more than Kimberly’s. How much money did Mike and Kimberly have at first?
Lesson 9 / Example 3
Slide37Lesson 10: Simple Interest
Students solve simple interest problems using the formula: , where , , , and .When using the formula , students recognize that units for both interest and time must be compatible; students convert the units when necessary.
Lesson 10 / Student Outcomes
Slide38Understanding Simple Interest
Larry invests $100 in a savings plan. The plan pays interest each year on his $100 account balance. The following chart shows the balance on his account after each year for the next five years. He did not make any deposits or withdrawals during this time.
Lesson 10 / Example 1
Time (in years)
Balance (in dollars)
1
104.50
2
109.00
3
113.50
4
118.00
5
122.50
Slide39Simple Interest
Complete Lesson 10, Problem Set #3
Lesson 10 / Problem Set #3
Slide40Lesson 11: Tax, Commissions, Fees, and other Real-World Percent Problems
Students solve real-world percent problems involving tax, gratuities, commissions, and fees.Students solve word problems involving percent using equations , tables, and graphs.Students identify the constant of proportionality (the tax rate, commission rate, etc.) in graphs, equations, tables, and in the context of the situation.
Lesson 11 / Student Outcomes
Slide41Tax, Commissions, Fees, and other Real-World Percent Problems
Complete modeling Exercise 5 (parts a, b, and c) from lesson 11. Write up your solutions on poster paper to present to the group.
Lesson 11 / Exercise 5
Slide42Mid-Module Assessment
Complete Problem #1 from the Mid-Module Assessment
Mid-Module Assessment / Problem #1
Slide43A Story of Ratios
Grade 7 – Module 4
Session 1
Slide44Topic C
Scale Drawings
What concepts do you expect to see in Topic C?
Topic C Opener (p. 170)
Slide45Lesson 12: The Scale Factor as a Percent for a Scale Drawing
Given a scale factor in percent, students make a scale drawing of a picture or geometric figure using that scale, recognizing that the enlarged or reduced distances in a scale drawing are proportional to the corresponding distances in the original picture.Students understand scale factor to be the constant of proportionality.Student make scale drawings in which the horizontal and vertical scales are different.
Lesson 12 / Student Outcomes
Slide46The Scale Factor as a Percent for a Scale Drawing
Create a scale drawing of the following drawing using a horizontal scale factor of , and a vertical scale factor of .
Lesson 12 / Exercise 1
Slide47The Scale Factor as a Percent for a Scale Drawing
Create a scale drawing of the original drawing given below with a horizontal scale factor of 80% and a vertical scale factor of 175%. Write numerical equations to find the horizontal and vertical distances.
Lesson 12 / Problem Set #2
Slide48Lesson 13: Changing Scales
Given Drawing 1, and Drawing 2 (a scale model of Drawing 1 with scale factor), students understand that Drawing 1 is also a scale model of Drawing 2, and compute the scale factor.Given three drawings that are scale drawings of each other, and two scale factors, students compute the other related scale factor.
Lesson 13 / Student Outcomes
Slide49Changing Scales
A regular octagon is an eight-sided polygon with side lengths that are all equal. All three octagons are scale drawings of each other. Use the chart and the side lengths to compute each scale factor as a percent. How can we check our answers?
Lesson 13 / Example 2
Slide50Changing Scales
The scale factor from Drawing 1 to Drawing 2 is and the scale factor from Drawing 1 to Drawing 3 is . Drawing 2 is also a scale drawing of Drawing 3. Is Drawing 2 a reduction or an enlargement of Drawing 3? Justify your answer using the scale factor. The drawing is not necessarily drawn to scale.
Lesson 13 / Example 3
Slide51Lesson 14: Computing Actual Lengths from a Scale Drawing
Given a scale drawing, students compute the lengths in the actual picture using the scale factor.
Lesson 14 / Student Outcomes
Slide52Computing Actual Lengths from a Scale Drawing
The distance around the entire small boat is 28.4 units. The larger figure is a scale drawing of the smaller sketch of the boat. State the scale factor as a percent, and then use the scale factor to find the distance around the scale drawing.
Lesson 14 / Example 1
Slide53Lesson 15: Solving Area Problems Using Scale Drawings
Students solve area problems related to scale drawings and percent by using the fact that an area, , of a scale drawing is times the corresponding area, , in the original picture, where is the scale factor.
Lesson 15 / Student Outcomes
Slide54Solving Area Problems Using Scale Drawings
What percent of the area of the large disk lies outside the smaller disk?
Lesson 15 / Example 2
Slide55Solving Area Problems Using Scale Drawings
Use Figure 1 below and the enlarged scale drawing to justify why the area of the scale drawing is times the area of the original figure.
Lesson 15 / Example 4
Slide56Topic D
Population, Mixture, and Counting Problems Involving Percents
What concepts do you expect to see in Topic D?
Topic D Opener (p. 227)
Slide57Lesson 16: Population Problems
Students write and use algebraic expressions and equations to solve percentage word problems related to populations of people and compilations.
Lesson 16 / Student Outcomes
Slide58Population Problems
A school has girls and boys. If of the girls wear glasses and of the boys wear glasses, what percent of all students wears glasses?
Lesson 16 / Example 1
Slide59Population Problems
The weight of the first of three containers is more than the second, and the third container is lighter than the second. The first container is heavier than the third container by what percent?
Lesson 16 / Example 2
Slide60Population Problems
In one year’s time, of Ms. McElroy’s investments increased by , of her investments decreased by , and of investments increased by . By what percent did the total of her investments increase?
Lesson 16 / Example 3
Slide61Lesson 17: Mixture Problems
Students write and use algebraic expressions and equations to solve percent word problems related to mixtures.
Lesson 17 / Student Outcomes
Slide62Mixture Problems
A 6-pint oil mixture is added to a 3-pint oil mixture. What percentage of the resulting mixture is oil?
Lesson 17 / Exercise 1a
Slide63Mixture Problems
is used to model a mixture problem. How many units are in the total mixture?What percentages relate to the two solutions that are combined to make the final mixture?The two solutions combine to make six units of what percentage solution?When the amount of a resulting solution is given (for instance gallons) but the amounts of the mixing solutions are unknown, how are the amounts of the mixing solutions represented?
Lesson 17 / Exercise 2
Slide64Lesson 18: Counting Problems
Students solve counting problems related to computing percentages.
Lesson 18 / Student Outcomes
Slide65Counting Problems
How many 4-letter passwords can be formed using the letters “A” and “B”?What percentage of the 4-letter passwords contain:No “A’s”?Exactly one “A”?Exactly 2 “A’s”?Exactly 3 “A’s”?4 “A’s”?
Lesson 18 / Exercises 1-2
Slide66End-of-Module Assessment
End-of-Module Assessment
Slide67Your Biggest Takeaway
Take a moment to reflect on today’s module focus session and prepare 1 or 2 key takeaways that you think are important to share with the group.
Slide68Key Points
Percent is a part to whole relationship.Focus on identifying the whole quantity (or quantities) in percent problems.Greater fluency with percent improves problem solving abilities.Percent problems can be represented in a variety of models including equations, visual models, and numeric models.Percent can compare a part of a quantity to the whole quantity, or can compare two separate quantities.A percent of a set of quantities represents a proportional relationship.Percent error is not just a formula to memorize … it has meaning.
Key Points
The scale factor is the unit rate (in percent form)Scale drawings may have more than one scale factor (horizontal and vertical scales).Given a drawing , and scale drawing of drawing with a scale factor , drawing is a scale drawing of drawing with scale factor .Work with percents in module 4 ushers in the topics of probability and statistics in module 5.
A Story of Ratios
Grade 7 – Module 4
Session 1