Homework Answers
a)
acceleration of the system is given as
a = F/(m1 + m2 + m3)
a = 36/(1 + 2 + 4)
a = 5.14 m/s2
b)
T = Tension force in the connecting cord
F = Applied force = 36 N
Consider the forces acting on m3
Force equation for the motion of "m3 is given as
F - T = m3 a
36 - T = 4 (5.14)
T = 15.44 N
c)
F12 = Force by 1 kg block on 2 kg block
Consider the forces on 2 kg block,
Force equation for the motion of 2 kg block is given as
F12 = m2 a
F12 = 2 (5.14)
F12 = 10.3 N
d)
Since the three blocks move together
acceleration of the system still remains the same and is given as
a = F/(m1 + m2 + m3)
a = 36/(1 + 2 + 4)
a = 5.14 m/s2
T = Tension force in the connecting cord
F = Applied force = 36 N
Consider the forces acting on m3
Force equation for the motion of "m3 is given as
F - T = m3 a
36 - T = 4 (5.14)
T = 15.44 N
Assume that the three blocks in the figure move on a frictionless surface. In the figure,...
Assume that the three blocks in the figure move on a
frictionless surface. In the figure, m 1 = 1.10 kg, m 2 = 2.04 kg,
and m 3 = 3.20 kg. The 42.1-N force acts as shown on the right
block. Determine (a) the acceleration (m/s 2 ) of the blocks, (b)
the tension (N) in the cord connecting the left and right blocks,
and (c) the force (N) exerted on the center block by the left
block. Hint:...
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frictionless surface. In the figure, m 1 = 1.10 kg, m 2 = 2.04 kg,
and m 3 = 3.20 kg. The 42.1-N force acts as shown on the right
block. Determine (a) the acceleration (m/s 2 ) of the blocks, (b)
the tension (N) in the cord connecting the left and right blocks,
and (c) the force (N) exerted on the center block by the left
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