Suppose you have a 75-kg wooden crate resting on a wood floor (μs = 0.45, μk...

Question 1: A wood crate (m = 200 kg) sits in the back of a truck....

Question 1: A wood crate (m = 200 kg) sits in the back of a truck. The friction coefficients between the crate and the truck are μs = 0.5 and μk = 0.3. a) (8 points) The truck starts moving up a 15◦ hill. What is the maximum acceleration the truck can have that will not make the crate slide out the back? b) (8 points) What is the maximum acceleration the truck can have that will not make the...

Two wooden crates rest on top of one another. The smaller top crate has a mass...

Two wooden crates rest on top of one another. The smaller top crate has a mass of m1 = 15 kg and the larger bottom crate has a mass of m2 = 88 kg. There is NO friction between the crate and the floor, but the coefficient of static friction between the two crates is μs = 0.85 and the coefficient of kinetic friction between the two crates is μk = 0.66. A massless rope is attached to the lower...

A 35 kg crate is at rest on the floor. A man attempts to push it...

A 35 kg crate is at rest on the floor. A man attempts to push it across the floor by applying a 100 N force horizontally. (a) Take the coefficient of static friction between the crate and the floor to be 0.37 and show that the crate does not move. (b) A second man helps by pulling up on the crate. Calculate the minimum vertical force he must apply so that the crate starts to move across the floor. (c)...

A crate of 31.6-kg tools rests on a horizontal floor. You exert a gradually increasing horizontal...

A crate of 31.6-kg tools rests on a horizontal floor. You exert a gradually increasing horizontal push on it and observe that the crate just begins to move when your force exceeds 309 N . After that you must reduce your push to 248 N to keep it moving at a steady 22.0 cm/s What is the coefficient of static friction between the crate and the floor? What is the coefficient of kinetic friction between the crate and the floor?...

A 69 kg crate is dragged across a floor by pulling on a rope attached to...

A 69 kg crate is dragged across a floor by pulling on a rope attached to the crate and inclined 12° above the horizontal. (a) If the coefficient of static friction is 0.46, what minimum force magnitude is required from the rope to start the crate moving? (b) If μk = 0.36, what is the magnitude of the initial acceleration (m/s^2) of the crate?

A crate of 41.3-kg tools rests on a horizontal floor. You exert a gradually increasing horizontal...

A crate of 41.3-kg tools rests on a horizontal floor. You exert a gradually increasing horizontal push on it and observe that the crate just begins to move when your force exceeds 337 N . After that you must reduce your push to 202 N to keep it moving at a steady 20.0 cm/s . Part A.) What is the coefficient of static friction between the crate and the floor? (static fraction=???) Part B.) What is the coefficient of kinetic...

A 55-kg crate is pulled horizontally 7.0 m across the floor by a force F whose...

A 55-kg crate is pulled horizontally 7.0 m across the floor by a force F whose magnitude is 160 N. The force F is parallel to the displacement of the box. The coefficient of kinetic friction is 0.25. A. If the crate starts from rest, use the work-energy theorem to find the velocity of the crate after it has moved 7.0 m horizontally. B. After the crate has moved 7.0 m horizontally, the external force F no longer acts on...

Suppose you have to move a heavy crate of weight 875 N by sliding it along...

Suppose you have to move a heavy crate of weight 875 N by sliding it along a horizontal concrete floor. You push the crate to the right with a horizontal force of magnitude 300 N, but friction prevents the crate from sliding. What is the magnitude Fp of the minimum force you need to exert on the crate to make it start sliding along the floor? Let the coefficient of static friction ?s between the crate and the floor be...

A 75-kg soccer player jumps vertically upwards and heads the 0.45-kg ball as it is descending...

A 75-kg soccer player jumps vertically upwards and heads the 0.45-kg ball as it is descending vertically with a speed of 22 m/s. (Note that the force of gravity may be ignored during the brief collision time.) (a) If the player was moving upward with a speed of 4.0 m/s just before impact, what will be the speed of the ball immediately after the collision if the ball rebounds vertically upwards and the collision is elastic? (b) If the ball...

In this example we will calculate the coefficients of static and kinetic friction using two equations...

In this example we will calculate the coefficients of static and kinetic friction using two equations along with Newton’s second law of motion. Suppose that a delivery company has just unloaded a 500 N crate full of home exercise equipment in your level driveway. You find that to get it started moving toward your garage, you have to pull with a horizontal force of magnitude 230 N. Once the crate “breaks loose” and starts to move, you can keep it...