the crate with mass ms = 100 kg is on the cart of mass ma = 50 kg. The static coefficient of friction between the crate and the car is µs = 0.20. a) Find the intensity of the force P that will move the crate without shifting it, as shown, affecting the car. b) Find the intensity of the P force that will set the car in motion if the force P is applied to the ballot box. c) If the kinematic friction coefficient between the car and the crate is µk = 0.15 and P intensity is 300 N, find the accelerations of the car and the crate
the crate with mass ms = 100 kg is on the cart of mass ma = 50 kg. The static coefficient of friction between the crate and the car is µs = 0.20. a) Find the intensity of the force P that will move the crate without shifting it, as shown, affecting the car. b) Find the intensity of the P force that will set the car in motion if the force P is applied to the ballot box. c) If the kinematic friction coefficient between the car and the crate is µk = 0.15 and P intensity is 300 N, find the accelerations of the car and the crate
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the crate with mass ms = 100 kg is on the cart of mass ma = 50 kg. The static coefficient of friction between the crate and the car is µs = 0.20.
a) Find the intensity of the force P that will move the crate without shifting it, as shown, affecting the car.
b) Find the intensity of the P force that will set the car in motion if the force P is applied to the ballot box.
c) If the
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