A crate of mass m1 on a frictionless inclined plane is attached to another crate of mass m2 by a massless rope. The rope passes over an ideal pulley so the mass m2 is suspended in air. The plane is inclined at an angle ? = 36.9°. Use conservation of energy to find how fast crate m2 is moving after m1 has traveled a distance of 1.4 m along the incline, starting from rest. The mass of m1 is 13.0 kg and the mass of m2 is 23.4 kg.

Two crates of mass m1 = 39 kg and m2 = 14 kg are connected by amassless rope that passes over a massless, frictionless pulley asshown in the figure below. The crates start from rest.
What are the initial kinetic and potential energies of each crate?(Use the following as necessary: h for the distance from the bottomof m2 to the bottom of m1.)

PE1i = J
KE1i = J
PE2i = J
KE2i = J

If the crate on the left (m1) moves downward through a distance h,what is the change in the potential energy of m1 and m2? Expressyour answers in terms of h.
What is the speed of the crates after they have moved a distance h= 2.2 m?


?PE1 = J
?PE2 = J

v = m/s

A man is attempting to lift a crate using a two-part pulley system as shown in the image. The crate has a mass of m₂ =81 kg, and the man has m₁=75 kg. He pulls down on the rope with a force of magnitude 629 N. The pulleys are massless and frictionless

Using T to describe the magnitude of the tension force, write an expression for the sum of the forces in the y-direction acting on the crate in terms of gravity and the variables provided.