Answer:
25.82 m/s
Explanation:
We are given;
Force exerted by baseball player; F = 100 N
Distance covered by ball; d = 0.5 m
Mass of ball; m = 0.15 kg
Now, to get the velocity at which the ball leaves his hand, we will equate the work done to the kinetic energy.
We should note that work done is a measure of the energy exerted by the baseball player.
Thus;
F × d = ½mv²
100 × 0.5 = ½ × 0.15 × v²
v² = (2 × 100 × 0.5)/0.15
v² = 666.67
v = √666.67
v = 25.82 m/s
Answer:
PE = mgh
Explanation:
m is mass, g is gravitational constant (9.81) and h is height
What’s the weight and how high is the clif
Newton's first law of motion is connected with inertia :)
Answer:
Forces, Gravity, Friction, Direction, Acceleration.
