A 1Kg jar of Nutella is sitting on a table. Draw a free body diagram for...

A block weighing 32.7 N is sitting on a table. Your friend pushes down on the...

A block weighing 32.7 N is sitting on a table. Your friend pushes down on the block with a force of 26.6 N. The static coefficient of friction between the block and the table is 0.24. The kinetic coefficient of friction is 0.20. You pull horizontally to the right with a force F on a string that is attached to the right side of the block. What is the minimum force you need to exert to get the block to...

Find a small plastic food container and slide it on a kitchen table by giving it...

Find a small plastic food container and slide it on a kitchen table by giving it a gentle tap. a) Draw a free body diagram for that container. Identify all the forces acting on the container as well as acceleration it experiences. Which forces on the diagram compensate each other? Write down the expression for the net force. b) The container weighs 16.4g, use this to calculate the friction force for the problem, assuming a coefficient of kinetic friction between...

A box of oranges that has 10 oranges in it and is sitting on a table....

A box of oranges that has 10 oranges in it and is sitting on a table. Each orange’s mass is 100 g. A horizontal force of 10 N is applied to move the box to the right. The coefficient of friction between the box and the table is 0.2. Find a. The work done by the applied force in 15 s b. The work done by friction in 15 s c. The work done by the net force on the...

16. A 15.0 kg box rests on a flat table. The coefficient of kinetic friction between...

16. A 15.0 kg box rests on a flat table. The coefficient of kinetic friction between the table and the box is 0.20, and the coefficient of static friction is 0.25. A string pulls on the box with a force of 78 N at 0.0o. Using appropriate quantitative problem-solving steps, determine whether the box remains at rest or accelerates. If the box accelerates, determine the acceleration. A) Calculate the maximum static friction. Keep four sf. B) Calculate the kinetic friction....

The coefficient of kinetic friction between a refrigerator (mass 107 kg) and the floor is 0.18,...

The coefficient of kinetic friction between a refrigerator (mass 107 kg) and the floor is 0.18, and the coefficient of static friction is 0.88. After struggling to move the refrigerator, you finally apply enough force to get it moving. What is the minimum force required to keep it moving with a constant velocity?

A box of mass m = 10 kg sits on a table. The coefficient of kinetic...

A box of mass m = 10 kg sits on a table. The coefficient of kinetic friction is 0.2 between the table and the box. A force of F = 40 N is applied to it horizontally so that the box is moving along the table. a) Calculate the work done by the friction force when the box is displaced 3 m along the direction of its motion. b) What about the work done by the gravitational force? c) The...

A 3.00 kg block that has a coefficient of kinetic friction of 0.350 and is initially...

A 3.00 kg block that has a coefficient of kinetic friction of 0.350 and is initially moving at a constant velocity of to the right. A 75.0 newton force is then applied to the block, toward the right, at an angle of 200 above the horizontal. a) Free body diagram. b) The x and y components of the applied force.   c) The frictional force on the block. d) The acceleration of the block.

A 1.680 kg block of wood rests on a steel desk. The coefficient of static friction...

A 1.680 kg block of wood rests on a steel desk. The coefficient of static friction between the block and the desk is μs = 0.555 and the coefficient of kinetic friction is μk = 0.205. At time t = 0, a force F = 5.63 N is applied horizontally to the block. State the force of friction applied to the block by the table at the following times: T=0              T>0 Consider the same situation, but this time the external...

A 3.00 kg block that has a coefficient of kinetic friction of 0.350 and is initially...

A 3.00 kg block that has a coefficient of kinetic friction of 0.350 and is initially moving at a constant velocity of to the right. A 75.0 newton force is then applied to the block, toward the right, at an angle of 200 above the horizontal. Find the following:        a. Free body diagram.          b. The x and y components of the applied force.          c. The frictional force on the block.          d. The acceleration of the block.

A 3.00 kg block that has a coefficient of kinetic friction of 0.350 and is initially...

A 3.00 kg block that has a coefficient of kinetic friction of 0.350 and is initially moving at a constant velocity of to the right. A 75.0 newton force is then applied to the block, toward the right, at an angle of 200 above the horizontal. Find the following: a. Free body diagram. b. The x and y components of the applied force. c. The frictional force on the block. d. The acceleration of the block.