A soccer ball with a mass of 2.10 kg accelerates at 235 m/s² at the instant it is kicked.

Determine the force applied by the player. (Hint: Label your numbers to get full credit.) Use full sentences. Grammar and spelling will be graded!

The force applied by the player on a soccer ball with a mass of 2.10 kg that accelerates at 235 m/s² is 493.5 Newtons, calculated using the formula F = m x a.

Explanation:

The force applied by a soccer player when kicking a soccer ball can be determined using Newton's second law of motion, which relates force, mass, and acceleration.

The formula for this law is F = m imes a, where F represents the force in Newtons (N), m is the mass of the object in kilograms (kg), and a is the acceleration in meters per second squared (m/s²).

In the given question, a soccer ball with a mass of 2.10 kg accelerates at 235 m/s². To calculate the force applied by the player, we simply multiply the mass by the acceleration:

F = m imes a = 2.10 kg imes 235 m/s²

= 493.5 N.

Therefore, the force applied by the player on the soccer ball is 493.5 Newtons.

A soccer ball with a mass of 2.10 kg accelerates at 235 m/s² at the instant it is kicked. Determine the force applied by the player. (Hint: Label your numbers to get full credit.) Use full sentences. Grammar and spelling will be graded!

Answer :

Final answer:

Explanation:

Other Questions

A soccer ball with a mass of 2.10 kg accelerates at 235 m/s² at the instant it is kicked.

Determine the force applied by the player. (Hint: Label your numbers to get full credit.) Use full sentences. Grammar and spelling will be graded!