A baseball collides with a baseball glove. Which equation is used to calculate the force the glove exerts on the ball during the collision?(1 point
A. force = weight × acceleration
B. force = weight × velocity
C. force = mass × velocity
D. force = mass × acceleration
D. force = mass × acceleration is the equation used to calculate the force the glove exerts on the ball during the collision.
D. force = mass × acceleration
The equation used to calculate the force the glove exerts on the ball during the collision is D. force = mass × acceleration.
To understand why this equation is used, we need to break it down:
- The force is what we want to calculate, which represents the interaction between the glove and the ball during the collision.
- Mass (m) is a property of both the ball and the glove. It represents the amount of matter in each object and affects how they interact.
- Acceleration (a) represents the change in velocity per unit of time. In the context of this collision, it refers to how quickly the ball's velocity changes due to the force exerted by the glove.
Using this equation, we can determine the force by multiplying the mass of the ball or glove by the acceleration experienced during the collision. This equation considers both mass and acceleration, which are crucial factors in determining the force exerted during a collision.
b
E. force = tickle strength × laughter intensity
Just kidding! The correct answer is D. force = mass × acceleration. This equation, known as Newton's second law of motion, relates force, mass, and acceleration.