289,904 views
10 votes
10 votes
2.

You drop a ball from a height of 1.5 meters. Each curved path has 74% of the height of the previous path. a. Write a rule for the sequence using centimeters. The initial height is given by the term n = 1. b. What height will the ball be at the top of the sixth path?

A. A(n) = 150 • (0.74)^n–1 ; 33.29 cm
B. A(n) = 1.5 • (0.74)^n–1 ; 0.33 cm
C. A(n) = 150 • (74)^n–1 ; 332,850,993,600 cm
D. A(n) = 0.74 • (1.5)^n–1 ; 5.62 cm

User Clarise
by
2.6k points

1 Answer

22 votes
22 votes

Answer:

A. A(n) = 150 • (0.74)^n–1 ; 33.29 cm

Explanation:

This is a geometric sequence.

a%5B1%5D=1.5m=150cm, r=0.74

The formula is

a%5Bn%5D=a%5B1%5Dr%5E%28n-1%29

Just substitute a1 = 150cm and r = 0.74

a%5Bn%5D=150%280.74%29%5E%28n-1%29

That's the rule.

For the second part, substitute n = 6

cm.

2. You drop a ball from a height of 1.5 meters. Each curved path has 74% of the height-example-1
2. You drop a ball from a height of 1.5 meters. Each curved path has 74% of the height-example-2
2. You drop a ball from a height of 1.5 meters. Each curved path has 74% of the height-example-3
2. You drop a ball from a height of 1.5 meters. Each curved path has 74% of the height-example-4
2. You drop a ball from a height of 1.5 meters. Each curved path has 74% of the height-example-5
User Ropeney
by
2.3k points