if a 2.29 kg object is placed on a frictionless incline of 53.8 and released from...

An object with a mass of 5 kg is placed on a frictionless incline. The inclines...

An object with a mass of 5 kg is placed on a frictionless incline. The inclines length is 10 m & its angle of inclination is 30 degrees. A rope is connected to this mass, parallel to the incline, strung over a pulley, & connected to a vertically hanging mass of 15 kg. Both masses are initially at rest. a) What is the acceleration of the vertically hanging mass? b) What is the tension of the rope? c) What is...

Name:__________________________________________Section____ A block of mass ? = 12.0 kg is released from rest on an incline...

Name:__________________________________________Section____ A block of mass ? = 12.0 kg is released from rest on an incline angled at θ = 30 degrees. The block slides down and incline of length ? = 1.40 m along the incline, which has a coefficient of kinetic friction between the incline and the block of ?? = 0.180. The block then slides on a horizontal frictionless surface until it encounters a spring with a spring constant of ? = 205 N/m. Refer to the...

A small block has constant acceleration as it slides down a frictionless incline. The block is...

A small block has constant acceleration as it slides down a frictionless incline. The block is released from rest at the top of the incline, and its speed after it has traveled 7.00 mm to the bottom of the incline is 3.80 m/s . What is the speed of the block when it is 3.00 mm from the top of the incline?

A 9.0-kg box of oranges slides from rest down a frictionless incline from a height of...

A 9.0-kg box of oranges slides from rest down a frictionless incline from a height of 5.0 m. A constant frictional force, introduced at point A, brings the block to rest at point B. If the coefficient of kinetic friction is 0.26, what is the distance between A and B?

A 9.31 kg block is placed at the top of a frictionless inclined plane angled at...

A 9.31 kg block is placed at the top of a frictionless inclined plane angled at 14.9 degrees relative to the horizontal. When released (from rest), the block slides down the full 2.77 meter length of the incline. Calculate the speed (magnitude of the velocity) of the block at the bottom of the incline. [Start by drawing a free-body diagram for the block.] Note that all the information provided may not be necessary to solve the problem.

A 8 kg block slides down a frictionless incline making an angle of 20◦ with the...

A 8 kg block slides down a frictionless incline making an angle of 20◦ with the horizontal. The acceleration of gravity is 9.81 m/s2 . a) Find the work done by the gravitational force when the block slides 5.9 m (measured along the incline). b) What is the total work done on the block? c) What is the speed of the block after it has moved 5.9 m if it starts from rest? d) What is its speed after 5.9...

A 10 kg box slides down a long, frictionless incline of angle 30°. It starts from...

A 10 kg box slides down a long, frictionless incline of angle 30°. It starts from rest at time t = 0 at the top of the incline at a height of 18 m above ground. (a) What is the original potential energy of the box relative to the ground? ---J (b) From Newton's laws, find the distance the box travels in 1 s and its speed at t = 1 s. ---m ---m/s (c) Find the potential energy and...

Part a. Starting from rest, a 14 kg box slides down a frictionless incline that is...

Part a. Starting from rest, a 14 kg box slides down a frictionless incline that is 7 meters tall. What is the velocity of the box at the bottom of the incline? Part b. A thin hoop of mass 14 kg and radius 1.2 m rolls down an incline that is 7 meters tall. What is the velocity of the thin hoop at the bottom of the incline? Part c. A solid disk of mass 14 kg and radius 1.2...

A 3.30-kg object is attached to a spring and placed on frictionless, horizontal surface. A horizontal...

A 3.30-kg object is attached to a spring and placed on frictionless, horizontal surface. A horizontal force of 21.0 N is required to hold the object at rest when it is pulled 0.200 m from its equilibrium position (the origin of the x axis). The object is now released from rest from this stretched position, and it subsequently undergoes simple harmonic oscillations. (a) Find the force constant of the spring. N/m (b) Find the frequency of the oscillations. Hz (c)...

A 1.50-kg object is attached to a spring and placed on frictionless, horizontal surface. A horizontal...

A 1.50-kg object is attached to a spring and placed on frictionless, horizontal surface. A horizontal force of 28.0 N is required to hold the object at rest when it is pulled 0.200 m from its equilibrium position (the origin of the x axis). The object is now released from rest from this stretched position, and it subsequently undergoes simple harmonic oscillations. a.)Find the force constant of the spring. b.)Find the frequency of the oscillations. c.)Find the maximum speed of...