Q: Two soccer players kick the same 2kg ball at the same time in opposite directions One kicks with a force of 18 N the other kicks with a force of 10 N What is the resulting acceleration of the ball?

Write your answer...

Submit

Still have questions?

Related questions

15 -Brittany Goraczkowski

The net force acting on the ball is the difference between the two forces, so 15 N - 5 N = 10 N. Using Newton's second law (F = ma), we can find the resulting acceleration: 10 N = 2 kg * a. Therefore, the resulting acceleration of the ball is 5 m/s^2.

The net force acting on the ball is 10N (15N - 5N) in the direction of the stronger kick. Using Newton's second law (F = ma), we can calculate the resulting acceleration as 5 m/s^2 (10N / 2kg).

To find the resulting acceleration of the ball, you first need to calculate the net force acting on it by subtracting the force applied in the opposite direction (12 N) from the force applied in the other direction (20 N). Net force = 20 N - 12 N = 8 N Next, use the equation F = ma (Newton's second law) and rearrange it to find the acceleration: Acceleration (a) = Net force / mass = 8 N / 1 kg = 8 m/s^2. Therefore, the resulting acceleration of the ball is 8 m/s^2.

The net force on the ball is the difference between the two forces: 15 N - 5 N = 10 N. Using Newton's second law (F = ma), where the mass (m) is 2 kg, the resulting acceleration of the ball is 5 m/s^2.

The resulting acceleration of the ball is the net force acting on it divided by its mass. To find the net force, we subtract the force in the opposite direction (12 N) from the force in the initial direction (20 N), giving us a net force of 8 N. Dividing this net force by the mass of the ball (1 kg) gives an acceleration of 8 m/s^2.

Force = mass * acceleration18 N - 10 N = 8 N-----------------------8 N = 2 kg * acellerationacceleration = 8 N/2 kg4 m/s2======

its 8

To find the resulting acceleration, we need to calculate the net force acting on the ball. In this case, the net force is the difference between the two forces: 18 N - 10 N = 8 N. Using Newton's second law (F = ma), we can then find the acceleration by dividing the net force by the mass of the ball: 8 N / 2 kg = 4 m/s^2.

Yes, soccer involves both acceleration and deceleration. Players need to accelerate when they sprint to chase the ball or move quickly on the field. They also need to decelerate when they stop running or change directions suddenly.

Acceleration is a key aspect of soccer. Players need speed to get past defenders and have a shot on goal.

Players From the opposite team are not allowed to be in the crease when the have the ball, but the players from the defensive team may be in the crease