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Chapter 5: Q56P (page 120)

In Figure 5-51a, a constant horizontal force F→ais applied to block A, which pushes against block Bwith aforce directed horizontally to the right. In Figure 5-51b, the same forceF→Bis applied to block B; now block Apushes on block Bwith a 10.0Nforce directed horizontally to the left. The blocks have a combined mass of 1,2 kg. (a) What is the magnitude of their acceleration in Figure 5-52 (a)and (b) What is the magnitude of forceF?

Short Answer

Expert verified

a) Acceleration of the two-block system is, a=2.5m/s2

b) The magnitude of the force is30.0N

Step by step solution

01

Given information

  1. Combined mass12.0kg
  2. Block A pushes against block B with force 20.0N
  3. Block B pushes against block A with force 10.0N
02

Understanding the concept of Newton’s law

Newton’s second law states that the net force on the object is equal to the product of mass and acceleration. Apply Newton’s second law to the system of two blocks and the individual block.

03

(a) Calculate the magnitude of their acceleration in Figure-a

As the applied force isthesame and the mass of both blocks is the same in both diagrams, the acceleration will also be the same.

As block A applies force the force 20.0N is applied to A and when it applies 10.0N force, the force is applied to blockB. Therefore, mass of blockB,

MB=2×MA

Now, we have

MB+MA=12.0kg2MA+MA=12.0kgMA=4.0kgMB=8.0kg

Now, according to fig, 5.51a in the above problem

Acceleration is,

a=20.0N8.0kg=2.5m/s2

The acceleration of the object is2.5m/s2 .

04

(b) Calculate the magnitude of force F

Applying Newton’s second law,

Fa=12.0kg×2.5m/s2=30.0N

Therefore, the total force is 30.0N .

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