Theres a 3kg block placed halfway on a 10m ramp with a slope of 17 deg. Another block with a mass of 1kg is pushed at 9m/s from the bottom of the ramp. The coefficient of friction is 0.24. The bottom block goes up the ramp and sticks to the top block and continues moving. How far up the ramp do both the blocks stop
Theres a 3kg block placed halfway on a 10m ramp with a slope of 17 deg....
3) Referring to the picture below, consider a block of mass m-1kg, sliding down a ramp with that is frictionless. The block continues to slide a distance d along the table, which has coefficient of friction u 0.2. Using conservation of energy answer the following: a If the block starts at a height h=5.1m how fast is it going at the very bottom of the ramp? b. The block comes to a stop a distance, d, from the bottom of...
A block is placed on a frictionless ramp at a height hof 14.5 m above the ground. Starting from rest, the block slides down the ramp. At the bottom of the ramp, the block slides onto a frictionless horizontal track without slowing down. At the end of the horizontal track, the block slides smoothly onto a second frictionless ramp. 0 = 48.3° By = 25.5 How far along the second ramp does the block travel before coming to a momentary...
5. The right end of a spring with spring constant k = 8N m is located a distance d = 2m to the left of a plane inclined at an angle θ 30°. A small block, which we can treat as a point mass. has a mass m 4kg is placed at the very top of the inclined plane and the inclined plane has a length L-3m a) First assume there is no friction between the block and the floor....
Monash College MCD 4270 Engineering Design Informal Assessment 10: (Sem1 2016) Name ID Number: As shown in igure 6 below, a block of mass 3 kg sits on a ramp that is inclined at an angle of S0 degrees to the horizontal. On top of this block rests another block of mass 2 kg. The two blocks are connected by a cord that passes over a frictionless pulley. The coefficient of static friction between all surfaces (i.e., between the two...
1. A 1 kg block of wood is moving with a velocity of 10 m s-1 on top of a table. The coefficient of kinetic friction between the block of wood and the table is 0.1. The block of wood is a cube with sides of 12 cm. a) How far does the block move before coming to a stop? b) If momentum id conserved, where did the momentum of the block go? c) The block slows down because of...
51 A block of mass m in step 1 is placed on top of a tertical spring with deflects by Ax and is held at that displacement In step 2, the spring is while not changing the displacement of the spring In step 3, the mass is released and travels horizontally on a surfacewith a kinetic coefficient of friction μk for a length d until it reaches a slope with the same kinetic coefficient of friction, which it continues to...
[2] A block with mass ma is placed on an inclined plane with slope angle α and is connected to a second hinging block with mass ma > ma by a massless cord passing over a small frictionless pulley (see figure). The coefficient of kinetic friction between mass mA and the incline is negligible. Initially the masses are at rest, with mass mA at the bottom of the incline and mass mg a height h above the table supporting the...
. A 2.00kg block is moved from point A (at rest) a distance of 2.00 m to point B under the action of a variable force F(x) 10x + 6x2. Once in point B it is moving down 1.00 m through an 60.00 inclined frictionless surface until hit a spring (point C) as shown in figure. (The coefficient of kinetic friction between the block and the surface between A and B is 0.3 and the spring constant equal to 400...
(no 4. A block is observed to have a kinetic enetop.The y of 600 J at the bottom of a smooth friction) hill. It continues up the hill to block upon stopping is a. zero The total mechanical energy of the stop. ( 600J d. less than 600J b. more than 600 J 5. A skier, of mass 40 kg, initially at rest. Pitst hillif the vertica shes off the top of a hill. How y at rest, Pus hil...
1. An unknown mass (mı) on a rough horizontal surface is attached by a wire that passes over a massless, frictionless pulley to a 2.50kg mass (m2) as shown below. The bottom of the hanging mass is 1.50m above the floor. The system is released from rest at t-0s and the 2.50kg mass strikes the floor 0.82s later. The system is now returned to its initial position and a 1.20kg mass is placed on top of the block of mass...