A 100 Kg Crate Sliding On The Floor

A f m 25n 100kg 0 25 m s 2.

A 100 kg crate sliding on the floor. A crate of mass 100 kg rests on a horizontal floor. The coefficient of static friction is 0 4. This is the maximum force that. What is the deceleration of the crate.

Both forces are horizontal and the crate slides with a constant speed. Two workers are sliding a 300 kg crate across the floor. After t 0 second it acquires pure rolling motion as shown in figure. P m v 80kg x 2 5 m s 200 kg m s.

Two workers are sliding a 100 kg crate across the floor. The maximum possible static friction force is µsn µsmg 0 4 100 10 400 n. A uniform disc of mass and radius r is projected horizontally with velocity v c on a rough horizontal floor so that it starts off with a pure sliding motion at t 0. One worker pushes forward on the crate with a force of 270 n while the other pulls in the same direction with a force of 130 n using a rope connected to the crate.

The coefficient of static friction between the crate and floor is 0 700 and the coefficient of kinetic friction is 0 600. A 20 0 kg crate is at rest on a floor as shown in. Both forces are horizontal and the crate slides at a constant speed. One worker pushes forward on the crate with a force of 380 n while the other worker pull in the same direction with a force of 350 n using a rope.

μ is the coefficeient of friction. What is the momentum of an 80 kg runner moving at a speed of 2 5 m s. What is the crate s coefficient of kinetic friction on the floor. If a force of 250 n parallel to the floor is applied to this mass the magnitude of the force of static friction on the crate is 250 n.

Here s how to crack it the normal force on the object balances its weight so f n mg 100 kg 10 m s 2 1 000 n therefore f static friction max f f static max µ s f n 0 4 1 000 n 400 n. If a force of 250 n parallel to the floor is applied to the crate what s the magnitude of the force of static friction on the crate. A 100 kg crate sliding on a floor is brought to a stop by 25 n force.