Similarities
of Translational and Rotational Kinematics
Part I, Theory
• In your notebook or on a piece
of paper, sketch free-body diagrams for the masses on the hanger and
the cart. (You might need to look again at the experimental setup
in the picture in the Overview.) Friction is negligible at this
steep angle. (Do you understand why?) The acceleration for the
cart will be up the slope.
• Sum the forces in the direction of travel and predict the
acceleration based on the mass of the hanger, mh, the mass
of the cart,
mc, gravitational acceleration, g, and the angle of the
track up from
the horizontal, φ.
• Write out the equations for translational and rotational
kinematics (x(t), θ(t), v(t), and ω(t)). Also write the equations
connecting x and θ, v and ω, and a and α. The latter are based on
the “no-slip” condition that the string will not slip on the pulley
(radius r).
• When you are satisfied, open the worksheet for today and answer
Questions 1-3. Ask your lab instructor if they are correct, then
move on to Part II.
Back to the Overview
On to Part II
On to Part III
Worksheet
Index