- #1
killerinstinct
- 92
- 0
Inclined Plane Problem.
An object of mass M is positioned on an inclined plane with an angle theta. A force of Fp parallel to the base of inclined plane and opposite of the object's x motion is acted upon the object. Suppose there is friction of Uk between the object and inclined plane, and suppose that the force will make the object go up the inclined plane slightly, calculate Fn, the highest point, and acceleration at the end of the inclined plane as it comes down, in terms of m, Fw, sin, cos, Ff, theta, etc.
Preferably using real physics. if not, derived physics, and cosine!
An object of mass M is positioned on an inclined plane with an angle theta. A force of Fp parallel to the base of inclined plane and opposite of the object's x motion is acted upon the object. Suppose there is friction of Uk between the object and inclined plane, and suppose that the force will make the object go up the inclined plane slightly, calculate Fn, the highest point, and acceleration at the end of the inclined plane as it comes down, in terms of m, Fw, sin, cos, Ff, theta, etc.
Preferably using real physics. if not, derived physics, and cosine!