114 box ofmass m-3 kg slips to the inclined plane. If its initial velocity is vot)rn/s:...
A 50 kg box is thrown along an inclined plane with an angle of
20, the initial speed of the box is 30 m/s. We know
µs = 0.25 and
µk = 0.20 between the box and the
inclined plane find:
A) How much time does it take for the box to go up the inclined
plane before coming to a stop?
B) The distance traveled by the box when going up the inclined
plane
C) How much time does...
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.
3) A 5 kg block is set into motion up an inclined plane with an initial velocity of 8 m/s as shown below. The block comes to rest after travelling 3 m up the plane which is inclined at an angle of 30° W, = 8.00 m/s 3.00 m 30.0° For this motion, determine: a) The change in the block's kinetic energy b) The change in the block's potential energy c) The frictional force exerted on the object d) The...
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A box starts to slide down from a rough inclined plane at an initial height of h = 2.1 m as shown below. The box starts sliding from rest (the initial speed is zero) and reaches the bottom of the plane at a final speed of 3.3 m/s. The inclination angle is 0 = 11°. Find the friction coefficient p between the box and the plane by following the steps listed below. g V.=0 а IIIIIIII M...
Exercise 1 A bicycle rides an inclined plane with an initial velocity 15 m/s. 500 N a) What is the velocity of the bicycle when it costs a net high of h=5m? We neglect friction b) What maximum high h that could be reached by the bicycle?
15-2. A 20-15 block slides down a 30° inclined plane with an initial velocity of 2 ft/s. Determine the velocity of the block in 3 s if the coefficient of kinetic friction between the block and the plane is uk = 0.25.
Easy velocity on inclined plane problem. A block of mass m slides down an inclined plane at an angle theta. The block is released at rest from a height h. Find the velocity, in components, of the block as it reaches the bottom of the inclined plane. h=.5m m=2.0kg theta=30 degrees Can you do this without using conservation of energy? That is the easiest way to do it, but I cannot find the solution using any other methods that I...
09. A box of mass 1 Kg slides with initial velocity 6 m/s on a frictionless surface and collides inelastically with an identical rest box. The boxes stick together and move after the collision. What is the change of kinetic energy? A)-9 B) 18)3 D) -15]
N MA) m. A inclined to to a 30° ta plane kg goes goes up Al point A = 2 m/s the and return to point A with v= 1 m/s mar) > up and by goes up a) Find the work done th b) If Me for What diolence travel the mass until hit velocity is FRN up to the plane ceco voolm/s mass m=2kg goes up to 300 inclined plane. 130 At point Å VA-2m/s, the mass goes...
A 28-lb block slides down a 30° inclined plane with an initial velocity of 2 ft/s. Part A 0.29 Determine the velocity of the block in 3 s if the coefficient of kinetic friction between the block and the plane is Express your answer to three significant figures and include the appropriate units. Val Units Submit Request Answer