Unit 2, Lesson 4: Color Mixtures

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Unit 2, Lesson 4: Color Mixtures Lesson Goals Understand that equivalent ratios represent mixtures that are comprised of multiple batches of the same recipe. Understand that doubling the recipe means doubling each ingredient, and more generally, multiple batches of a recipe result from multiplying the amounts of each ingredient by the same number. Understand and communicate that doubling, tripling, or halving a recipe for colored water yields the same resulting color. Required Materials graduated cylinders markers food coloring beakers paper cups 4.1: Number Talk: Adjusting a Factor (10 minutes) Setup: Display one problem at a time. 1 minute of quiet think time, followed by a whole-class discussion. Unit 2: Introducing Ratios, Lesson 4: Color Mixtures 1

Student task statement Find the value of each product mentally. Possible responses 1. 90 2. 180 3. 270 4. 585 Unit 2: Introducing Ratios, Lesson 4: Color Mixtures 2

4.2: Turning Green (35 minutes) Setup: Students in groups of 2 4. Each group needs a beaker of blue water and one of yellow water, one graduated cylinder, a permanent marker, a craft stick, and 3 opaque white cups. Demonstrate use of the cylinder by mixing 5 ml of blue water with 15 ml of yellow water. Unit 2: Introducing Ratios, Lesson 4: Color Mixtures 3

Student task statement Your teacher mixed milliliters of blue water and milliliters of yellow water in the ratio. 1. Doubling the original recipe: a. Draw a diagram to represent the amount of each color that you will combine to double your teacher s recipe. Possible responses 1. Doubling: a. A diagram that shows arranged in 2 batches. b. b. Use a marker to label an empty cup with the ratio of blue water to yellow water in this double batch. c. Yes, if done correctly. c. Predict whether these amounts of blue and yellow will make the same shade of green as your teacher s mixture. Next, check your prediction by measuring those amounts and mixing them in the cup. d. Is the ratio in your mixture equivalent to the ratio in your teacher s mixture? Explain your reasoning. 2. Tripling the original recipe: d. Yes, it is 2 batches of the same shade of green. 2. Tripling: a. A diagram that shows arranged in 3 batches. a. Draw a diagram to represent triple your teacher s recipe. b. b. Label an empty cup with the ratio of blue water to yellow water. c. Predict whether these amounts will make the same shade of green. Next, check your prediction by mixing those amounts. d. Is the ratio in your new mixture equivalent to the ratio in your teacher s mixture? Explain your reasoning. 3. Next, invent your own recipe for a bluer shade of green water. c. Yes, if done correctly. d. Yes, it is 2 batches of the same shade of green. 3. Bluer: a. A diagram that shows more blue for the same yellow or Unit 2: Introducing Ratios, Lesson 4: Color Mixtures 4

a. Draw a diagram to represent the amount of each color you will combine. less yellow for the same blue. b. Label the final empty cup with the ratio of blue water to yellow water in this recipe. c. Test your recipe by mixing a batch in the cup. Does the mixture yield a bluer shade of green? d. Is the ratio you used in this recipe equivalent to the ratio in your teacher s mixture? Explain your reasoning. b. Answers vary. Sample responses:,. c. Yes, if done correctly. d. No, because it is not the same shade of green. Anticipated misconceptions If any students come up with an incorrect recipe, consider letting this play out. A different shade of green shows that the ratio of blue to yellow in their mixture is not equivalent to the ratio of blue to yellow in the other mixtures. Rescuing the incorrect mixture to display during discussion may lead to meaningful conversations about what equivalent ratios mean. Unit 2: Introducing Ratios, Lesson 4: Color Mixtures 5

Are you ready for more? Someone has made a shade of green by using 17 ml of blue and 13 ml of yellow. They are sure it cannot be turned into the original shade of green by adding more blue or yellow. Either explain how more can be added to create the original green shade, or explain why this is impossible. Possible Responses You could add 3 ml of blue to get 20 ml of blue, and 47 ml of yellow to get 60 ml of yellow. The blue to yellow ratio of will make the same shade of green as. It's a quadruple batch. Unit 2: Introducing Ratios, Lesson 4: Color Mixtures 6

4.3: Perfect Purple Water (Optional, 10 minutes) Setup: Students in groups of 2. Student task statement The recipe for Perfect Purple Water says, Mix 8 ml of blue water with 3 ml of red water. Jada mixes 24 ml of blue water with 9 ml of red water. Andre mixes 16 ml of blue water with 9 ml of red water. 1. Which person will get a color mixture that is the same shade as Perfect Purple Water? Explain or show your reasoning. 2. Find another combination of blue water and red water that will also result in the same shade as Perfect Purple Water. Explain or show your reasoning. Possible responses 1. Jada s mixture will result in the same shade of purple, and Andre's will not. 2. Answers vary. Sample response: Anticipated misconceptions At a quick glance, students may think that since Andre is mixing a multiple of 8 with a multiple of 3, it will also result in Perfect Purple Water. If this happens, ask them to take a closer look at how the values are related or draw a diagram showing batches. Lesson Synthesis (5 minutes) How did you decide that the mixture with the ratio was 3 batches of the recipe with the ratio? How did we know that,, and were equivalent ratios? Unit 2: Introducing Ratios, Lesson 4: Color Mixtures 7

4.4: Orange Water (Cool-down, 5 minutes) Setup: None. Student task statement A recipe for orange water says, Mix 3 teaspoons yellow water with 1 teaspoon red water. For this recipe, we might say: The ratio of teaspoons of yellow water to teaspoons of red water is. 1. Write a ratio for 2 batches of this recipe. 2. Write a ratio for 4 batches of this recipe. Possible responses 1. The ratio of teaspoons of yellow to teaspoons of red is. 2. The ratio of teaspoons of yellow to teaspoons of red is. 3. Explain why we can say that any two of these three ratios are equivalent. 3. is equivalent to because each part of is obtained by doubling the corresponding part of. is equivalent to because each part of is obtained by multiplying the corresponding part of by 4. Unit 2: Introducing Ratios, Lesson 4: Color Mixtures 8

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