A swimmer bounces straight up from a diving board and falls feet first into a pool. She starts with a velocity of 4.00 m/s and her takeoff point is 1.80 m above the pool. (a) Ho…

Question

asked Jun 20, 2020 2.2k views

1 Answer

Jonatan Hedborg · Answer 1 · 2020-06-25T09:17:26+0000

Step-by-step explanation:

Given that,

Velocity = 4.00 m/s

Distance = 1.80 m

(a). We need to calculate the time

Using equation of motion

s = ut+(1)/(2)gt^2+h

Put the value in the equation

0=4.00t+(1)/(2)*9.8* t^2+1.80

-9.8t^2+8.00t+3.60=0

$t =1.139\ sec$

The time is 1.139 sec.

(b). We need to calculate the highest point above the board her feet reach

Using equation of motion

v^2-u^2=2as

s=(v^2-u^2)/(2g)

Put the value in the equation

s=(0^2-(4.00)^2)/(2*(-9.8))

$s=0.82\ m$

The highest point above the board her feet reach is

$s' = 0.82+1.8 = 2.62\ m$

The highest point above the board her feet reach is 2.62 m

(c). We need to calculate her velocity when her feet hit the water

Using equation of motion

v = u+gt

Put the value in the equation

v=4.00-9.8*1.139

$v=-7.16\ m/s$

Her velocity when her feet hit the water is 7.16 in downward.

Hence, This is the required solution.