Lesson 4
Square Roots on the Number Line
Problem 1
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Find the exact length of each line segment.
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Estimate the length of each line segment to the nearest tenth of a unit. Explain your reasoning.
Solution
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Problem 2
Plot each number on the \(x\)-axis: \(\sqrt{16},\text{ } \sqrt{35},\text{ } \sqrt{66}\). Consider using the grid to help.
Solution
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Problem 3
Use the fact that \(\sqrt{7}\) is a solution to the equation \(x^2 = 7\) to find a decimal approximation of \(\sqrt{7}\) whose square is between 6.9 and 7.1.
Solution
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Problem 4
Graphite is made up of layers of graphene. Each layer of graphene is about 200 picometers, or \(200 \times 10^{\text-12}\) meters, thick. How many layers of graphene are there in a 1.6-mm-thick piece of graphite? Express your answer in scientific notation.
Solution
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(From Unit 7, Lesson 14.)Problem 5
Here is a scatter plot that shows the number of assists and points for a group of hockey players. The model, represented by \(y = 1.5 x + 1.2\), is graphed with the scatter plot.
- What does the slope mean in this situation?
- Based on the model, how many points will a player have if he has 30 assists?
Solution
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(From Unit 6, Lesson 6.)Problem 6
The points \((12, 23)\) and \((14, 45)\) lie on a line. What is the slope of the line?
Solution
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(From Unit 3, Lesson 5.)