3.0 kg F 5.0 kg
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- two masses are connected by a rope which passes over an ideal pulley as shown in the figure. Block A has a mass of 3.00kg and can slide along an irregular plane inclined 30.0 ° toward the horizontal. The coefficient of static friction between block A and the plane is 0.400. What mass must block B have for block A to start sliding down the ramp?The 0.20-kg particle has a speed v = 10.4 m/s as it passes the position shown. The coefficient of kinetic friction between the particle and the vertical-plane track is µ = 0.16. Determine the magnitude of the total force exerted by the track on the particle. What is the HK change in speed i (positive if speeds up, negative if slows down) of the particle? Answers: F = i= i i 36 p= 5.7 m N m/s²A Z-Drag is an arrangement of ropes in pulleys often used in rescue situations. Implemented properly, it can multiply a rescuer's input force by a factor of 3. Suppose a rescuer uses an ideal Z-Drag system to pull a wrapped river raft off of a rock. The rescuer pulls on the rope with a force of 300 N and the rope moves a total distance of 3 meters on the rescuer's end. What is the force on the raft? How far will the raft move?
- A book slides across a level, carpeted floor with an initial speed of 3.85 m/s and comes to rest after 3.75 m. Calculate the coefficient of kinetic friction between the book and the carpet. Assume the only forces acting on the book are friction, weight, and the normal force. μ = X10 TOOLSWhich of the following sentence is not correct? The direction of friction is always perpendicular to the direction of the gravity force (weight) of the object. The direction of friction is always perpendicular to the normal force. The direction of friction is always parallel to the surface between objects. The direction of friction is always opposite to the direction of motion of the object. Question 3 Compared with the force needed to keep a box to slide at constant velocity on a coarse surface, to start the box sliding usually needs less force. same force. more force.Three blocks (as shown in the figure) are released from rest and they start to accelerate with a constant magnitude of 0.41 m/s2. Block A has mass M, block B has mass 2.2 M and block C has mass 2.0M. The value of M is not given. What is the coefficient of kinetic friction between the table and block B? The mass and friction in the pulleys can be ignored. k= Pneed A B C
- A block with a mass of 10.09 kg is placed on a ramp. The ramp has an incline of ? = 25.7 degrees from the horizontal. The static coefficient of friction between the block and ramp is μs = 0.211, and the kinetic coefficient of friction between the block and ramp is μk = 0.112. A force, F, is exerted on the block as shown. Note that the force F is parallel with the ramp. What is the smallest value (magnitude) for the force, F, in Newtons that can be exerted on the block to hold the block stationary on the ramp? What is the largest value (magnitude) for the force, F, in Newtons that can be exerted on the block while still holding the block stationary on the ramp? What value (magnitude) for the force, F, is needed to move the block up the ramp at a constant speed?One block rests upon a horizontal surface. A second identical block rests upon the first one. The coefficient of static friction between the blocks is the same as the coefficient of static friction between the lower block and the horizontal surface. A horizontal force is applied to the upper block, and its magnitude is slowly increased. When the force reaches 49.3 N, the upper block just begins to slide. The force is then removed from the upper block, and the blocks are returned to their original configuration. What is the magnitude of the horizontal force that should be applied to the lower block, so that it just begins to slide out from under the upper block?A boy pulls a bag of baseball bats across a ball field toward the parking lot. The bag of bats has a mass of 6.9 kg, and the boy exerts a horizontal force of 22 N on the bag. As a result, the bag accelerates from rest to a speed of 1.08 m/s in a distance of 5.05 m. What is the coefficient of kinetic friction between the bag and the ground?
- The figure below illustrates the motion of an object on an inclined surface. The angle of inclination is 30 degrees. The data are as follows: a) The object's mass is 4 kg, b) g = 10 m/s². c) Coefficient of the kinetic friction = 0.5 / sqrt (3) and coefficient of the static friction = 1 / sqrt ( 3 ). d) Magnitude of the force F = 40 N. Does the object move up or down, or is it at rest? If up, enter 2. If down, enter 1. If at rest, enter 0. 30⁰ FA desperate hiker has to think fast to help his friend who has fallen below him. Quickly, he ties a rope to a rock of mass ma and makes his way over the ledge (see the figure). If the coefficient of maximum static friction between the rock and the ground is µ, and the mass of the hiker is mâ, what is the maximum mass of the friend, mc, that the rock can hold so the hikers can then make their way up over the ledge? Assume the rope is parallel to the ground and the point where the rope passes over the ledge is frictionless. mc = JuYou are driving a car at a constant speed of 14.0 m/s along a straight level road. As you approach anintersection, the stoplight turns red and you slam on breaks and the wheels lock and you skid to a stop in25.0 m. What is the coefficient of kinetic friction between your tires and the road?