Aim:
To find the downward force, along an
inclined plane, acting on a roller
due to gravity and study its
relationship with the angle of inclination
by plotting graph between force and sin q.
APPARATUS AND MATERIAL REQUIRED:
Inclined plane with protractor and
pulley, roller, weight box, spring
balance, spirit level, pan and thread.
PRINCIPLE:
Consider the set up shown in Fig. E
8.1. Here a roller of mass M1 has been placed on an inclined plane
making an angle q with the horizontal. An upward force, along the inclined
plane, could be applied on the mass M1 by adjusting the weights on the
pan suspended with a string while its other end is attached to the mass through
a pulley fixed at the top of the inclined plane. The force on the the mass M1
when it is moving with a constant velocity
v will be W =
M1g sin q – fr where fr is the force of friction due to
rolling, M1 is
mass of roller and W is the total tension in the string (W
= weight suspended). Assuming there is no friction between the pulley and
the string.
PROCEDURE:
1. Arrange the inclined plane,
roller and the masses in the pan as shown in Fig. E. 8.1. Ensure that the
pulley is frictionless. Lubricate it using machine oil, if necessary.
2. To start with, let the value of W
be adjusted so as to permit the roller to stay at the top of the inclined
plane at rest.
3. Start decreasing the masses in
small steps in the pan until the roller just starts moving down the plane with
a constant velocity. Note W and also the angle q. Fig. E 8.2 shows the
free body diagram for the situation when the roller just begins to move
downwards.
4. Repeat steps 2 and 3 for different values of q. Tabulate your
observations.
OBSERVATIONS:
Acceleration due to gravity, g = ……..… ms–2
Mass of roller, m M1 =
……….. g
Mass of the pan M2 = ……….. g
PLOTTING GRAPH:
تعليقات
إرسال تعليق