The initial velocity of a 1.51 kg block sliding down a frictionless inclined plane is found to be 1.48 m/s. Then 1.66 s later, it has a velocity of 8.60 m/s. What is the angle of the plane with respect to the horizontal?
The initial velocity of a 1.51 kg block sliding down a frictionless inclined plane is found...
The velocity of a 1.10 kg block sliding down a frictionless
inclined plane is found to be 1.11 m/s. 1.90 s later, it has a
velocity of 7.38 m/s. What is the angle of the plane with respect
to the horizontal? Use "deg" as your units.
25. A block of mass 25 kg is sliding down an inclined plane at a speed of 5.0 m/s when it passes point A Point A is 5.0 m above the ground. The incline plane makes an angle of 46e above the horizontal. Point B is 1.5 m above the ground The coefficient of kinetic friction is 0.30. Find the speed of the block, in m/s, at point E.
A 2 kg block is sliding down a plane inclined at 30˚ to the horizontal. The coefficient of friction between the block and the plane is 0.25. How much work is done by gravity if the block slides 5 m? How much work is done by friction? If the block starts from rest, what is its speed after sliding the 5 m?
A small block with mass 0.221 kg is sliding down a frictionless ramp that is inclined at an angle of 53.1
A block of mass 2.0 Kg is sliding down an inclined plane, as shown (the angle is 30 degrees). If the coefficient of kinetic friction is 0.250, determine the net acceleration of the block down the plane.
A block of mass m is sliding down a plane inclined at an angle theta to the horizontal. If the coefficient of friction is µk . Find the acceleration of the block. Draw a vector diagram to solve this question.
A 4.40-kg block is set into motion up an inclined plane with an initial speed of v_i = 8.60 m/s (see figure below). The block comes to rest after traveling d = 3.00 m along the plane, which is inclined at an angle of theta = 30.0degree to the horizontal. (a) For this motion, determine the change in the block's kinetic energy. (b) For this motion, determine the change in potential energy of the block-Earth system. (c) Determine the friction...
ii) Initially a 20.0 kg box is sliding at 1.26 m/s down an inclined plane that makes a 11.9° angle with the horizontal. If it reaches a velocity of 2.23 m/s in the same direction in 0.75 seconds and the coefficient of friction is 0.257, find the necessary applied force.
A 100-kg block slides up or down a frictionless inclined plane that makes an angle of 30°. What is the acceleration of the block on the x-direction (parallel to the plane)? What is the magnitude of the normal force on the block?How would the acceleration change if friction is present?
A 1 kg block slides down an inclined plane which makes an angle of 30degree to the horizontal. Starting from rest, it is found to have a speed of 3 m/s after it has moved through a distance of 1.6 m. Find the amount of mechanical energy dissipated due to friction as the block slides down the plane, and hence find the coefficient of friction between the block and the plane, Explain your steps and reasoning. Remember to draw a...