the mass of block A is 80 kg, the mass of block b is 20 kg, and A is connected t
ID: 1313764 • Letter: T
Question
the mass of block A is 80 kg, the mass of block b is 20 kg, and A is connected to B with the cable and pulley system shown. the pulleys rotate freely, and the cable and pulleys have negligible mass. the coefficient of static fricion between A and the horizontal surface is Ms=0.4, and the coefficient of kinetic friction is Mk=0.3.
a) initially, block A is being held stationary and the system is at rest in static equilibrium . Find tension in the cable(answer: 196.2 N)
b) the system is released from rest. show the colfficient of static friection is not large enough to keep block A from sliding.
c) Find the acceleration of block A and the tension in the cable when block A starts sliding ( answers: aA=0.981 m/s^2 and 156.96 N)
Explanation / Answer
tension in the cable must support block b from falling
T = mg = 20*9.81 = 196.2 N
can you provide the figure please?
am giving you the procedure for now
static friciton = .4 * Normal reaction(N)
Force on 80 kg is 2T = 2*196.2 = 392.4 N
static friction = .4*80*9.81 =313.92
static friction is less than the force
so not large enough
c)
when it starts sliding
friction = .3*Normal reaction
for 80 kg mass , let acceleration be a
2T- .3*80*9.81 = 80*a
for 20 kg mass, acceleration is 2a (for 1 unit movement of 80 kg 2 units of 20 kg will move down)
20*9.81 - T = 20*(2a)
solving we get
a = .981 m/s^2
T = 156.96 N
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