Part (b) says suppose it does start to slide anyway and you maintained the same applied force, what would the acceleration be? And it's gonna have acceleration because the friction force will change to the kinetic friction force now which is always less than the static friction force. So then we can make substitution's up here: we'll replace this maximum static friction force with the applied force-which is what we want to find- and we'll replace the normal force with mg-the force of gravity- and so then we have 0.5-coefficient of static friction- multiply by 120 kilograms times 9.80 meters per second squared which with one significant figure- since we have only one significant figure in our static friction coefficient- is 6 times 10 to the 2 newtons would be the maximum applied force you could apply without the crate moving. So we know that the normal force upwards is going to equal gravity downwards because there's no vertical acceleration and we also know that the applied force to the right is gonna equal the static friction force to the left because likewise there's no motion horizontally. Now the friction force when it's in the static context is less than or equal to the coefficient of static friction multiplied by the normal force which means at its maximum, it's going to be equal to this product here. We are told the mass is 120 kilograms and then in part (a), we are asked what maximum force could we exert horizontally, what applied force could we apply such that the crate does not move? Now there's a normal force upwards exerted by the floor which is important because that is responsible in part for the friction force because the static friction force is this coefficient of static friction multiplied by this normal force and we also have the friction force opposing the applied force and we have gravity downwards. So we write those two pieces of information down. Crate made out of wood is resting on a floor also made out of wood and that tells us that when we look in table, we need to look at this wood-on-wood section to find the coefficient of static friction which is 0.5 and the coefficient of kinetic friction when it's sliding of 0.3.
This is College Physics Answers with Shaun Dychko.
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