Three horizontally stacked blocks was pushed with 100 N. The first block was 10 kg, the...
Friction coefficient of friction support force, sliding or static coefficient Three horizontally stacked blocks was pushed with 100 N. The first block was 10 kg, the second block was 6 kg and the third block was 4 kg. The floor sliding coefficient of friction was 0.2. Find the acceleration and the internal forces at the block edges.
A 4 kg block is stacked on top of an 8 kg block. The blocks are pulled horizontally by a rope attached to the bottom block. The force of the pull is 50 N and the coefficient of kinetic friction between the bottom block and the floor is 0.3. What is the acceleration of the two blocks? What is the minimum static friction coefficient necessary to keep the top block stacked to the bottom block?
A system sitting on a floor was pushed with 100 N. The floor sliding coefficient of friction was 0.2. The system was a 25-kg cage that would push a 5-kg block in front with the 5-kg not touching the floor. The static friction coefficient between the cage and block was 0.5. Find the acceleration
A system sitting on a floor was pushed with 100 N. The floor sliding coefficient of friction was 0.2. The system was a 25-kg cage that would push a 5-kg block in front with the 5-kg not touching the floor. The static friction coefficient between the cage and block was 0.5. Find the acceleration
A 25 kg horizontal cage was pushed with 100 N. The floor sliding coefficient of friction was 0.2. Find the acceleration
A 25 kg horizontal cage was pushed with 100 N. The floor sliding coefficient of friction was 0.2. Find the acceleration
A 10 kg block is pushed against a vertical wall by a horizontal force of 100 N as shown in the figure the coefficient of static friction between the block and the wall is 0.60 and the coefficient of kinetic friction is 0.40 which of the following statements is true if the block is initially at rest 1) The block slides down the wall with an acceleration of magnitude 3.8 m/s2 The block will slide down the wall because the...
Please show work: 3. Two stone blocks with mass m = 100 kg are stacked as shown in figure 1 on a stone surface. The top block is held in place by a chain and cannot move to the right. The coefficient of static friction between the blocks, and between the lower block and the surface, is μ8-0.6. stack? What is the minimum force F necessary to begin sliding the lower block out from under the Figure 1: Two stone...
3. A smaller 1-kg block is pushed horizontally against a larger 9-kg block by a force F, as shown below. The coefficient of static friction between the two blocks is 0.20, however the ground that the larger block sits on is frictionless. a. Draw a complete free-body diagram for each block. Hint: remember that the blocks exert forces on each other because they are in contact, and do not forget Newton's 3rd law. (10pts) b. What minimum force F is...
A 4.50 kg block starting from rest is pushed by a force of 38.5 N at an angle of 35.0 with the horizontal (see diagram).The coefficient of kinetic friction between the block and the floor is 0.195. It starts from rest and begins to accelerate. a. Draw a free-body diagram for this situation. b. What is the acceleration of the block? c. How far does it go in the first four seconds of this acceleration? 35