# Question 1: A conveyor belt moves horizontally at a fixed... A box of mass ```SP221/2141&amp;4341
Chapter 7 Homework
Due Monday October 24, 2016
Question 1: A conveyor belt moves horizontally at a fixed constant speed v. A box of mass
m is placed onto the belt, initially at rest. The coefficient of kinetic friction between the box
and the conveyor belt is &micro;k . The box initially slips on the conveyor belt, but eventually it is
also moving at a speed v and from then on does not slip against the conveyor belt. How much
thermal energy is produced by friction between the box and conveyor belt as the box comes to the
same speed as the conveyor belt? Give your answer in terms of the given quantities (v, m, &micro;k ) and g.
Hint: First determine the work done by the belt on the box, i.e. determine the change in
the box’s kinetic energy. Then determine the work done by the box on the conveyor belt (this is
the hard part of the problem). This might help: Suppose that the box travels a distance d before it
reaches speed v, how far does the conveyor belt move over the same period of time? No net work is
done on the belt (it maintains the same constant speed v) so the work done on the conveyor belt
by its motor must have the same magnitude but opposite sign as the work done on the belt by the
box. The difference between the work done by the motor and the change in the box’s kinetic energy
must be lost to thermal energy. [5 points]
Question 2: A mountain climber of mass m is at the top of a large hemisphere of frictionless ice.
Assume that the radius of this ice block is R. Starting from rest at the top, the climber slides down
the ice. At what angle θ does she lose contact with the ice? (Hints: Determine her speed as a
function of θ. Use this to determine the normal force acting her as a function of θ.) [10 points]
θ
Question 3: (Tipler &amp; Mosca Problem 7-70) A block of mass m rests on a plane inclined at an angle
θ with the horizontal (Figure 7-51). A spring with force constant k is attached to the block. The
coefficient of static friction between the block and plane is &micro;s . The spring is pulled upward along the
plane very slowly. (a) What is the extension of the spring the moment the block begins to move?
(b) The block stops moving just as the extension of the contracting spring reaches zero. Express &micro;k
(the coefficient of kinetic friction) in terms of &micro;s and θ. [15 points]
SP221/2141&amp;4341
Chapter 7 Homework
Due Monday October 24, 2016
Question 4: Two blocks, of masses m1 =2.50 kg and m2 =5.00 kg are connected to a spring with spring
constant k=1250 N/m that has one end fixed to the wall as shown in the figure. The horizontal
surface is frictionless and the pulley is ideal. The blocks are released from rest with the spring
relaxed (at its equilibrium position). [10 points]
2.5 kg
5.0 kg
(a) What maximum distance does the hanging block fall before momentarily stopping? (b) What
is the maximum speed that the block will have while falling? (Hint: when the blocks are at their
maximum speed, the net force on either block is F~net = ~0.)
x
Question 5: A conservative force acts only in the x-direction. This force is given by Fx (x) = (x2 +4)
2,
where Fx has units of newtons when x has units of meters. Suppose that the potential energy
associated with this conservative force is defined to be U0 = 0 at x = 0. What is the potential
energy function, U (x)? [10 points]
PROGRAMMING PROBLEM
Question 6: A crane motor does work at a constant power of 100 kW. The crane is used to lift a
box of mass 300 kg. The box is initially at rest and on the ground at time t=0. The motor is then
turned on, and the crane lifts the box upwards. Graph both the speed and height of the box as a
function of time, between 0 s and 2.5 s. Also plot the box’s kinetic energy, the potential energy of
the box-earth system, and the total mechanical energy of the box-earth system over the same time
frame. [20 points]
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