A 7.42 kg bundle starts up a 41.1° incline with 122 J of kinetic energy. How far will it slide up the incline if the coefficient of kinetic friction between bundle and incline is 0.373?
A 7.42 kg bundle starts up a 41.1° incline with 122 J of kinetic energy. How...
An 18-kg sled starts up a 28 ∘ incline with a speed of 2.3 m/s . The coefficient of kinetic friction is μk = 0.25. part A. How far up the incline does the sled travel? part B. What condition must you put on the coefficient of static friction if the sled is not to get stuck at the point determined in Part A? part C. If the sled slides back down, what is its speed when it returns to...
The object of mass M=10.00 kg starts out at the bottom of the inclined plane shown below. It is given an initial speed of 18.00 m/s up the plane. Assuming that the coefficient of kinetic friction between the block and the plane is 0.350, how far up the incline will the block slide before coming to a stop (use any appropriate method)?
An 18 kg sled starts up a 28 degree incline with a speed of 2.1 m/s. The coefficient of friction is 0.25. a.) How far up the incline does the sled travel? b.) What condition must you put on the coefficient of static friction if the sled is not to get stuck at the point determined in part a? c.) If the sled slides back down, what is its speed when it returns to its starting point?
A crate of mass 10.8 kg is pulled up a rough incline with an initial speed of 1.48 m/s. The pulling force is 98 N parallel to the incline, which makes an angle of 19.4° with the horizontal. The coefficient of kinetic friction is 0.400, and the crate is pulled 5.08 m. (a) How much work is done by the gravitational force on the crate? J (b) Determine the increase in internal energy of the crate–incline system owing to friction....
A crate of mass 10.6 kg is pulled up a rough incline with an initial speed of 1.52 m/s. The pulling force is 106 N parallel to the incline, which makes an angle of 19.4 degree with the horizontal. The coefficient of kinetic friction is 0.400, and the crate is pulled 5.06 m. How much work is done by the gravitational force on the crate? J Determine the increase in internal energy of the crate-incline system owing to friction. J...
A 1.00 kg block starts from rest at the top of a 20.0m long 30.0 incline. Its kinetic energy at the bottom of the incline is 98.0 J. How much work is done by friction? The solution should be 0, can you please show me how.
A crate of mass 10.8 kg is pulled up a rough incline with an initial speed of 1.52 m/s. The pulling force is 94 N parallel to the incline, which makes an angle of 20.8° with the horizontal. The coefficient of kinetic friction is 0.400, and the crate is pulled 4.94 m. (a) How much work is done by the gravitational force on the crate? (b) Determine the increase in internal energy of the crate–incline system owing to friction. (J)...
(3 points) A9.8 kg crate is pulled 5 m up a 30 degree incline by a rope angled 16 degrees above the incline. The tension in the rope is 135 N and the crate's coefficient of kinetic friction on the incline is 0.22. How much work is done by the tension? J. How much work is done by gravity? J. How much work is done by the normal force? J. What is the increase in thermal energy of the crate...
A 2.10-kg block starts from rest at the top of a 30.0° incline and slides a distance of 2.10 m down the incline in 1.00 s. (a) Find the magnitude of the acceleration of the block. m/s2 (b) Find the coefficient of kinetic friction between block and plane. (c) Find the friction force acting on the block. magnitude N direction ---Select--- up the incline down the incline normal to the incline and upward normal to the incline and downward (d)...
A solid block of mass 60.0 kg starts from rest and slides down a rough surface with a length of 10.0 m where the coefficient of friction is uk=0.20. The surface is inclined at 40.0°. After sliding 10 meters down the incline it hits a spring with a spring constant of ks = 550.0 N/m. Draw a freebody Diagram indicating all forces. Write out and solve the force and energy equations. How high is the block above the spring at...