A block is sliding up the ramp as shown. The ramp is oriented at an angle...
A 7.75 kg block is sent up a ramp inclined at an angle θ=36.5° from the horizontal. It is given an initial velocity of v0=15.0 m/s up the ramp. Between the block and the ramp, the coefficient of kinetic friction is μk=0.444 and the coefficient of static friction is μs=0.790. How far up the ramp in the direction along the ramp does the block go before it comes to a stop?
A 7.75 kg block is sent up a ramp inclined at an angle ?=29.5° from the horizontal. It is given an initial velocity ?0=15.0 m/s up the ramp. Between the block and the ramp, the coefficient of kinetic friction is ?k=0.339 and the coefficient of static friction is ?s=0.616. How far up the ramp in the direction along the ramp does the block go before it comes to a stop? Image of box on ramp. Ramp is inclined upward at...
A 6.75 kg block is sent up a ramp inclined at an angle 0 = 33.5° from the horizontal. It is given an initial velocity Vo = 15.0 m/s up the ramp. Between the block and the ramp, the coefficient of kinetic friction is uk = 0.397 and the coefficient of static friction is us = 0.712. How far up the ramp in the direction along the ramp does the block go before it comes to a stop? - -...
A box with a mass of 8.67 kg slides up a ramp inclined at an angle of 28.3° with the horizontal. The initial speed is 1.66 m/s and the coefficient of kinetic friction between the block and the ramp is 0.48. Determine the distance the block slides before coming to rest. m As shown in the figure below, a box of mass m = 35.0 kg is sliding along a horizontal frictionless surface at a speed vi = 5.55 m/s...
A box of mass m = 2.00 kg is positioned on a ramp at an angle θ. The length of the ramp (minus the width of the base of the box) is d = 3.00 m. The surface of the ramp has a coefficient of static friction μs = 0.500 and a coefficient of kinetic friction μk = 0.350. The angle θ is slowly increased until the box starts to slide down the ramp. Calculate the angle θmax at which...
A 8.25kg block is sent up a ramp inclined at an angle 38.5 from the horizontal. It is given an initial velocity v0=15.0 m/s up the ramp. Between the block and the ramp, the coefficient of kinetic friction is ?k=0.477 and the coefficient of static friction is ?s= 0.845. HOw far up the ramp (in the direction along the ramp) does the block go before it comes to a stop? _______m
A 6.75 kg block is sent up a ramp inclined at an angle ?=31.5° from the horizontal. It is given an initial velocity ?0=15.0 m/s up the ramp. Between the block and the ramp, the coefficient of kinetic friction is ?k=0.368 and the coefficient of static friction is ?s=0.663. How far up the ramp in the direction along the ramp does the block go before it comes to a stop?
A 2.75 kg block is sent up a ramp inclined at an angle ?=31.5° from the horizontal. It is given an initial velocity ?0=15.0 m/s up the ramp. Between the block and the ramp, the coefficient of kinetic friction is ?k=0.368 and the coefficient of static friction is ?s=0.663 How far up the ramp in the direction along the ramp does the block go before it comes to a stop?
A 3.25-kg block is sent up a ramp inclined at an angle theta = 37.5degree from the horizontal. It is given an initial velocity v_0 = 15.0 m/s up the ramp. Between the block and the ramp, the coefficient of kinetic friction is mu _k = 0.460 and the coefficient of static friction is mu _s = 0.817. How far up the ramp (in the direction along the ramp) does the block go before it comes to a stop?
A 22.5 kg block is sliding down the plane shown in the figure above. The plane is inclined from level at angle θ = 31.9°. The coefficient of static friction between the block and the surface is μs = 0.498, and the coefficient of kinetic friction is μk = 0.397. What is the magnitude of the frictional force acting on the block?