phy121

A child in a car tosses a ball upward so that after release it requires 1/2 second to rise and fall back into the child's

hand at the same height from which it was released. The car is traveling at a constant speed of 10 meters / second in the

horizontal direction.

Between release and catch, how far did the ball travel in the horizontal direction?

10m/s * .5sec = 5m

As observed by a passenger in the car, what was the path of the ball from its release until the instant it was caught?

Due to the ball, passenger, and child all traveling at the same speed as the vehicle, the ball would appear to have a perfectly verticle path.

Sketch the path of the ball as observed by a line of people standing along the side of the road. Describe your sketch.

What was shape of the path of the ball?

It would be a semicircle or arch with a 5m base with a peak at rougly .306m.

How fast was the ball moving in the vertical direction at the instant of release? At that instant, what is its velocity as

observed by a line of people standing along the side of the road?

The ball will be moving 2.45m/s on the y-axis.

The ball would appear to have a velocity of (2.45m/s theta 90*) + (10m/s theta 0*) = 10.3m/s theta 13.77*

How high did the ball rise above its point of release before it began to fall back down?

.306M

I determined this looking at only the downward side of the arch. Using `ds = (vF / 2) * `dt where vF = 2.45m/s and `dt is .25sec.

10min