Starting from rest, a ball of mass 3 kg experiences a constant force of 6 N for 10 s. What is the final kinetic energy (in J) of the ball after 10 s?

Starting from rest, a ball of mass 3 kg experiences a constant force of 6 N...
Starting from rest, a ball of mass 4 kg experiences a constant force of 24 N for 10 s. What is the final kinetic energy (in J) of the ball after 10 s?
Consider a cart with a mass of 21.40 kg. Starting from rest the cart is pushed horizontally with a net force of 20.6 N for a distance of 6.20 m. Find the final kinetic energy of the cart. Give your answer in joules (J) and with 3 significant figures.
A billiard ball of mass 0.15 kg is uniformly accelerated from rest and travels 85.75 cm in 0.7 s. What is its final kinetic energy (in J) after 0.7 s? (please do not round your answer)
A billiard ball of mass 0.18 kg is uniformly accelerated from rest and travels 72 cm in 0.6 s. What is its final kinetic energy (in J) after 0.6 s? (please do not round your answer)
A ball of mass 1 kg is uniformly accelerated from rest and travels 12 m in 2 s. What is its final kinetic energy (in J) after 2 s? A: 72.0 B: 84.2 C: 98.6 D: 115 E: 135
Starting from rest, you drag a 30.0 kg box as shown below. Your force is 200.0 N while friction applies a 185 N force. What is the box's speed if you drag it across the ground for 5.00 meters? ______________ m/s With a starting velocity of 2 m/s to the right, you drag a 30.0 kg box for 4 meters, as shown below. Your force is 200.0 N and the box's final velocity is 1.15 m/s to the right. How...
Starting from rest, a 3.2-kg box is pushed on a horizontal floor with a force of 482.6 N parallel to the floor. The coefficient of kinetic friction between the box and the floor is 0.5. What is the kinetic energy of the box after it has been pushed with the constant force of 5.8 meters?
An object of mass 7.5 kg is attached to a spring constant 2.5 N/m. Starting from its maximum displacement at rest, the object undergoes simple harmonic oscillations of amplitude 53 cm. after 4.5 s have passed, determine: A) the objects position x=-0.45 m B) the objects velocity v= -0.16 m/s C) the objects acceleration a= 0.15 m/s2 D) the objects kinetic energy K= 0.095 J E) the potential energy store in the spring U=0.26J F) the total energy in the...
__PRESENT
D. A fireman of mass 80 kg is sliding down a firepole starting from rest. When he reaches the bottom, 4.2 m below his starting point, his speed is 2.2 m/s. How much work is done by friction? E. A 150 g ball rolls at 10 cm/s rightward over a frictionless surface towards a spring 75 cm away, with spring constant 200 N/m. How far does is the spring compressed when the ball is brought to rest? F. A...