Copyright © Michael Richmond.
This work is licensed under a Creative Commons License.
Predict how far the cart will roll down the ramp
We place a cart of mass M
on a ramp tilted at angle θ.
It is attached to a spring of force constant
k, which is initially at its rest length.
We hold the cart in the "start" position for a moment,
then release it.
The cart rolls down the ramp a distance L
before coming to a momentary halt.
It then starts back up the ramp,
pulled by the spring.
Ignore friction for the moment ...
- What is the cart's kinetic energy at the moment it is released?
- How much work is done by gravity as the cart rolls?
- How much work is done by the spring as the cart rolls?
- What is the cart's kinetic energy when it reaches
the bottom of its motion?
- Write an equation which gives the distance L
in terms of other quantities (if there is no friction).
Okay, now let's add friction. Suppose that the
coefficient of kinetic friction between
track and cart is μ.
- How much work is done by friction as the cart rolls?
- Write an equation which gives the distance L
in terms of other quantities (if there is friction).
Copyright © Michael Richmond.
This work is licensed under a Creative Commons License.