How far can Shane throw a baseball to Ryan on top of a building?

What is the distance traveled by the baseball?

Shane is standing on top of a building and throws a baseball to Ryan, Ryan caught the ball 1.7 seconds after Shane threw it. Treat the baseball as an ideal projectile.

Answer:

The horizontal distance traveled by the baseball is determined by its initial horizontal velocity and the time of flight.

Shane, standing on top of a building, throws a baseball to Ryan. The time of flight for the ball from Shane to Ryan is 1.7 seconds.

In projectile motion, the horizontal and vertical motions are independent of each other. Therefore, we can calculate the horizontal distance traveled by the baseball using the initial horizontal velocity and time of flight.

Since the horizontal velocity remains constant throughout the motion, the formula to calculate the horizontal distance is:

Horizontal distance = Initial horizontal velocity × Time of flight

We need to find the initial horizontal velocity to determine the horizontal distance. To find the initial horizontal velocity, we can use the vertical motion of the baseball.

By considering the vertical displacement and vertical velocity at the time of flight, we can calculate the initial horizontal velocity and subsequently determine the horizontal distance traveled by the baseball.

← How does resistance affect the brightness of a light bulb Calculating radioactive decay activity of uranium 238 →