A 4.82 kg block located on a horizontal frictionless floor is pulled by a cord that...

A 8.0kg block is pulled along a horizontal frictionless floor by a cord that  exerts a force...

A 8.0kg block is pulled along a horizontal frictionless floor by a cord that  exerts a force T​ ​ = 10N at an angle of 30​o​ above the horizontal as shown  below. Draw a free body diagram for each scenario below.     What is the acceleration of the block? Include FBD The force T​ ​ is slowly increased. What is the value of T​ ​ just before the block is lifted off the floor? Include FBD What is the acceleration of the...

A block with mass 6.00 kg slides on a horizontal floor as it is pulled with...

A block with mass 6.00 kg slides on a horizontal floor as it is pulled with a string by a force of 50.0 N at an angle of 30.0° with the horizontal. The force of friction between the floor and the block is 10 N. A. Draw below a free body diagram for the block. Label all the forces and describe each force: name and source of the force. B. Find the y-component of the net force. Explain your answer....

A 7.00 kg block sits on the floor at rest. Block is being pulled across a...

A 7.00 kg block sits on the floor at rest. Block is being pulled across a frictionless floor with a force F=14 N at an angle of 35 degrees. What is the magnitude of block’s acceleration?

A 12 kg block is pulled along a level plane by a F = 76 N...

A 12 kg block is pulled along a level plane by a F = 76 N force directed 40° above the horizontal. The coefficient of kinetic friction between the block and plane is 0.39. Find the x-component of the 76 N force acting on the block. Find the y-component of the 76 N force acting on the block. Find the normal force acting on the block. Find the friction force acting on the block. Find the acceleration of the block.

A block of mass 1.970  kg is free to slide on a frictionless, horizontal surface. A cord...

A block of mass 1.970  kg is free to slide on a frictionless, horizontal surface. A cord attached to the block passes over a pulley whose diameter is 0.150  m , to a hanging book with mass 3.030  kg . The system is released from rest, and both the book and the block are observed to move a distance 1.19  m over a time interval of 0.780  s ; at the instant at which that distance is measured, the book is still moving downwards and...

Block B of 40.0 kg is sitting at a frictionless horizontal floor at a height h1...

Block B of 40.0 kg is sitting at a frictionless horizontal floor at a height h1 = 40.0 m above the ground, when a second 100.0 kg block (block A), moving at an unknown speed hits and sticks to block B. After the collision, the combination slides down a hill which has friction, with a speed of 2.00 m/s. A. What was the speed of the block A before the collision? B. At the end of the path, a very...

Question 1: A 2-kg wood block is pulled by a string across a rough horizontal floor....

Question 1: A 2-kg wood block is pulled by a string across a rough horizontal floor. The string exerts a tension force of 30 N on the block at an angle of 20º above the horizontal. The block moves at constant speed. If the block is pulled for a distance of 3.0 m, how much work is done by the tension force? Question 2: Part A: A spring-loaded toy gun is used to launch a 12.0-g plastic ball. The spring...

A mass m = 13 kg is pulled along a horizontal floor, with a coefficient of...

A mass m = 13 kg is pulled along a horizontal floor, with a coefficient of kinetic friction μk = 0.07, for a distance d = 5.1 m. Then the mass is continued to be pulled up a frictionless incline that makes an angle θ = 33° with the horizontal. The entire time the massless rope used to pull the block is pulled parallel to the incline at an angle of θ = 33° (thus on the incline it is...

A 12 kg block is pulled along a level plane by a FF = 86 NN...

A 12 kg block is pulled along a level plane by a FF = 86 NN force directed 40° above the horizontal. The coefficient of kinetic friction between the block and plane is μkμk = 0.39 1.Find the x-component of the 86 NN force acting on the block. Fx=. N 2.Find the y-component of the 86 NN force acting on the block Fy 3.Find the y-component of the 86 NN force acting on the block. 4. Find the acceleration of...

A 3.00 kg block starts from rest at the top of a 30° incline and accelerates...

A 3.00 kg block starts from rest at the top of a 30° incline and accelerates uniformly down the incline, moving 1.83 m in 1.80 s. (a) Find the magnitude of the acceleration of the block. m/s2 (b) Find the coefficient of kinetic friction between the block and the incline. (c) Find the magnitude of the frictional force acting on the block. N (d) Find the speed of the block after it has slid a distance 1.83 m. m/s