A box (350 kg) sits inside the trailer of a semitruck traveling at a speed of...
A box (350 kg) sits inside the trailer of a semitruck traveling at a speed of 15 m/s (~ 33 mph). Suddenly, a car in front of the truck stops in the road. The driver of the truck hits the brakes to bring the truck to a stop. Assume that the coefficient of static friction µs = 0.7 between the box and the floor of the trailer. Assume g = 10 m/s2. When the truck is slowing down, what is the maximum magnitude of the static friction force on box 1 (to slow it down with the truck and not let it slide)? When the truck is slowing down, what is the maximum magnitude of the truck's acceleration such that box 1 does not slide? What is the minimum time for the truck to stop such that box 1 does not slide? Use your maximum acceleration from the previous problem. Given this minimum time, what is the minimum distance for the truck to stop without box 1 sliding?
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A box (350 kg) sits inside the trailer of a semitruck traveling
at a speed of...
General Physics with Calc 1 8. A package of dishes (mass 50.0 kg) sits on the...
General Physics with Calc 1 8. A package of dishes (mass 50.0 kg) sits on the flatbed of a pickup truck with an open tailgate. The coefficient of static friction between the package and the truck's flatbed is 0.310, and the coefficient of kinetic friction is 0.240. (a) The truck accelerates forward on level ground. What is the maximum acceleration the truck can have so that the package does not slide relative to the truck bed? (b) The truck barely...
A box with mass M=10 kg is on the back of a trailer and it has...
A box with mass M=10 kg is on the back of a trailer and it has the coefficient of friction μ=0.2 with the back of the trailer. a) What is the maximum possible acceleration a=? of the truck such that the box does not slip on the back of the truck? b) If the truck moves with acceleration A=100 m/s such that the box slips on the back of the truck, with that acceleration will the box move on the...
m A box rests on top of a flat bed truck. The box has a mass...
m A box rests on top of a flat bed truck. The box has a mass of m = 16 kg. The coefficient of static friction between the box and truck is is = 0.82 and the coefficient of kinetic friction between the box and truck is Hk = 0.64. 1) The truck accelerates from rest to Vp = 19 m/s in t = 13 s (which is slow enough that the box will not slide). What is the acceleration...
A box rests on top of a flat bed truck. The box has a mass of...
A box rests on top of a flat bed truck. The box has a mass of m = 20 kg. The coefficient of static friction between the box and truck is mu_s = 0.86 and the coefficient of kinetic friction between the box and truck mu_s = 0.67. The truck accelerates from rest to v_f = 19 m/s in t = 12 s (which is slow enough that the box will not slide). What is the acceleration of the box?...
A box rests on top of a flat bed truck. The box has a mass of...
A box rests on top of a flat bed truck. The box has a mass of m-17 kg. The coefficient of static friction between the box and truck is08and the coefficient of kinetic frition between the box and truck is 0.63. 1) The truck accelerates from rest tovy 19 m/s in t 16 s (which is slow enough that the box will not slide). What is the acceleration of the box? m/s2 Submit 2) In the previous situation, what is...
2. (25 points) One hauling truck is traveling on a level road. The driver suddenly applies...
2. (25 points) One hauling truck is traveling on a level road. The driver suddenly applies the brakes, causing the truck to decelerate by an amount 9/3. This causes a box in the rear of the truck to slide forward. If the coefficient of sliding friction between the box and the trucked is 1/4, find the acceleration of the box relative to the truck.
draw free body diagram A boxed cake is placed in the trunk of a car to be delivered to a birthday party. The coefficient of static friction is 0.15 and for kinetic friction is 0.11. What is the mi...
draw free body diagram
A boxed cake is placed in the trunk of a car to be delivered to a birthday party. The coefficient of static friction is 0.15 and for kinetic friction is 0.11. What is the minimum 0-60 mph time that the car can accelerate and keep the box from sliding? In other words, what is the shortest time for the driver to accelerate from a stop up to 60 mph and not have the box slide back...
A truck is moving at 15m/s when the brakes are applied, in order to come to...
A truck is moving at 15m/s when the brakes are applied, in order to come to a stop before hitting a pothole 20m ahead. In the back of the truck is a crate. It is not tied down, but has a coefficient of static friction µs = 0.4 with the truck bed. Will the truck be able to stop in time, without the crate sliding? Please explain how you got the answer, like step by step. I don't want just...
Physics Homework help
A crate of mass 45.0 kg is being transported on the flatbed of a pickup truck. The coefficient of static friction between the crate and the truck's flatbed is 0.370,and the coefficient of kinetic friction is 0.210.(a) The truck accelerates forward on level ground. What is the maximum acceleration the truck can have so that the crate does not slide relative to the truck'sflatbed?3.63 m/s^2 which WebAssign says is correct.(b) The truck barely exceeds this acceleration and then moves with...
a box of mass 5kg rests on the back of a truck. The coefficient of static friction between the box and the truck is 2/5....
a box of mass 5kg rests on the back of a truck. The coefficient of static friction between the box and the truck is 2/5. The truck moves with acceleration at 3t m/sec^2. At what time does the box begin to slide off the back of the truck?
m A box rests on top of a flat bed truck. The box has a mass of m = 16 kg. The coefficient of static friction between the box and truck is is = 0.82 and the coefficient of kinetic friction between the box and truck is Hk = 0.64. 1) The truck accelerates from rest to Vp = 19 m/s in t = 13 s (which is slow enough that the box will not slide). What is the acceleration...
A box rests on top of a flat bed truck. The box has a mass of m = 20 kg. The coefficient of static friction between the box and truck is mu_s = 0.86 and the coefficient of kinetic friction between the box and truck mu_s = 0.67. The truck accelerates from rest to v_f = 19 m/s in t = 12 s (which is slow enough that the box will not slide). What is the acceleration of the box?...
A box rests on top of a flat bed truck. The box has a mass of m-17 kg. The coefficient of static friction between the box and truck is08and the coefficient of kinetic frition between the box and truck is 0.63. 1) The truck accelerates from rest tovy 19 m/s in t 16 s (which is slow enough that the box will not slide). What is the acceleration of the box? m/s2 Submit 2) In the previous situation, what is...
2. (25 points) One hauling truck is traveling on a level road. The driver suddenly applies the brakes, causing the truck to decelerate by an amount 9/3. This causes a box in the rear of the truck to slide forward. If the coefficient of sliding friction between the box and the trucked is 1/4, find the acceleration of the box relative to the truck.
draw free body diagram
A boxed cake is placed in the trunk of a car to be delivered to a birthday party. The coefficient of static friction is 0.15 and for kinetic friction is 0.11. What is the minimum 0-60 mph time that the car can accelerate and keep the box from sliding? In other words, what is the shortest time for the driver to accelerate from a stop up to 60 mph and not have the box slide back...
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