# Find Μs, The Coefficient Of Static Friction Between The Rod And The Rails. Find Μs, The Coefficient Of Static Friction Between The Rod And The Rails.. Part a find the coefficient of static friction between the rod and the rails from phys 2426 at western texas college. The rod is placed in a vertical magnetic field. Solved Find μs, The Coefficient Of Static Friction Betwee… from www.chegg.com

F = 0.4 × 90. How heavy is the material. Express the coefficient of static friction in terms of variables given in the introduction.

### How Rough Is The Surface.

The rod begins to slide when the field reaches the value b = 1.23×10−2t. Assume that the rod has a slightly flattened bottom so that it slides instead of rolling. Assume that the rod has a slightly flattened bottom so that it slides instead of rolling.

### Part A Find The Coefficient Of Static Friction Between The Rod And The Rails.

Will the box move from its position. Force applied or normal force n = 90 n. The magnitude of the frictional force depends on two factors.

### Assume That The Rod Has A Slightly Flattened Bottom So That It Slides Instead Of Rolling.

If the object or plane is inclined at an angle (∅), the normal. = 0.75 x 700 kg x 9.8 m/s 2. The normal force and the static frictional force of an object are 50n and 80n respectively.

### F = Μ S × N.

Find μs, the coefficient of static friction between the rod and the rails. Using this, the force of static friction can be found: The rod is placed in a vertical magnetic field.

### Use 9.80 M/S For The Magnitude Of The Acceleration Due To Gravity.

Homework equations f= ilxb f=ma f=(fn)(u) where f is the frictional force, fn is the normal force. N is the normal force, sometimes it’s denoted by η. Minimum possible coefficient of static friction.