Lesson 16

Bank Shot

Problem 1

Lin is playing hand ball and wants the ball to bounce off wall \(CB\) and land at \(D\). Where on the wall should she aim if she's standing at point \(A\)?

Rectangular handball court.
A:

7.8 feet away from point \(B\)

B:

13.3 feet away from point \(B\)

C:

Anywhere along the wall since all of the triangles will be similar. 

Solution

For access, consult one of our IM Certified Partners.

Problem 2

You want to make a bank shot. Sketch the path of the cue ball so it will bounce off of the bottom side and knock the yellow stripe 9 ball into the top middle pocket.  

Drawing of pool table.

How can you check to see if your bank shot works? 

Solution

For access, consult one of our IM Certified Partners.

Problem 3

Mai is playing a game with a class of second graders. Mai knows she is exactly 120 inches from the mirror on the floor. She has students stand so that she can just see the top of their heads and then guesses their heights. The students are amazed!

Diagram of 2 stick figures.

How is Mai so accurate? What is the height, \(h\), of the student? 

Solution

For access, consult one of our IM Certified Partners.

Problem 4

In the right triangles shown, the measure of angle \(ABC\) is the same as the measure of angle \(EBD\)​​​​​. What is the length of side \(BD\)

Two right triangles, A B C and E B D. Angles C and D are right angles and D is above C on B C. Side A B is 5, A C is 3 and D E is 2. Angle A B C is congruent to angle E B D.

Solution

For access, consult one of our IM Certified Partners.

(From Unit 3, Lesson 15.)

Problem 5

In right triangle \(ABC\), angle \(C\) is a right angle, \(AB=17\), and \(BC=15\). What is the length of \(AC\)?

Solution

For access, consult one of our IM Certified Partners.

(From Unit 3, Lesson 15.)

Problem 6

Fill in the blanks to complete the proof of the Pythagorean Theorem:

Triangle with sides a, b, and c. Right angle between a and b. Segment h drawn from vertex between a and b and meets c at a right angle. H splits c into 2 lengths labeled x and y. X is adjacent to a.

\(\frac{a}{x} = \frac{c}{a} \) can be rewritten as \(\underline{\hspace{.5in}1\hspace{.5in}}\) and \(\frac{b}{y}=\frac{c}{b}\) can be written as \(\underline{\hspace{.5in}2\hspace{.5in}}\). So, \(a^2+b^2=\)\(\underline{\hspace{.5in}3\hspace{.5in}}\). By factoring, \(a^2+b^2=\) \(\underline{\hspace{.5in}4\hspace{.5in}}\). We know that \(x+y=\)\(\underline{\hspace{.5in}5\hspace{.5in}}\). So, \(a^2+b^2=\)\(\underline{\hspace{.5in}6\hspace{.5in}}\).

Solution

For access, consult one of our IM Certified Partners.

(From Unit 3, Lesson 14.)

Problem 7

In right triangle \(ABC\), altitude \(CD\) with length \(h\) is drawn to its hypotenuse. We also know \(AD=4\) and \(DB=16\). What is the length of \(AC\)?

Right triangle A B C, an altitude C D with length h is drawn to its hypotenuse. 

​​​​​​

Solution

For access, consult one of our IM Certified Partners.

(From Unit 3, Lesson 13.)

Problem 8

Match each vocabulary term with its definition.

Solution

For access, consult one of our IM Certified Partners.

(From Unit 3, Lesson 12.)

Problem 9

Clare and Diego are discussing the quadrilaterals. Clare thinks the quadrilaterals are similar because the side lengths are proportional. Diego thinks they need more information to know for sure if they are similar. Do you agree with either of them? Explain your reasoning. 

Quadrilateral W X Y Z. W X, 3. X Y, 9. Y Z, 3. Z W, 9.
 
Quadrilateral A B C D. Length of A B is 2, A D is 6, B C is 6, and C D is 2.

Solution

For access, consult one of our IM Certified Partners.

(From Unit 3, Lesson 8.)