PHYSICS
PHYSICS
5th Edition
ISBN: 2818440038631
Author: GIAMBATTISTA
Publisher: MCG
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Chapter 6, Problem 118P

(a)

To determine

The maximum compression of the spring.

(a)

Expert Solution
Check Mark

Answer to Problem 118P

The maximum compression distance of the spring is 26cm.

Explanation of Solution

The figure 1 shows the forces acting on the block.

PHYSICS, Chapter 6, Problem 118P

Write the equation for mechanical energy of the system

Ki+Ui,g+Ui,e+W=Kf+Uf,g+Uf,e (I)

Here, Ki is the initial kinetic energy of the block, Kf is the final kinetic energy of the block, Ui,g is the initial potential energy due to gravity, Uf,g is the final potential energy due to gravity, Ui,e is the initial elastic potential energy of the spring, Uf,e is the final elastic potential energy of the spring, and W is the work done due to frictional force.

Write the equation for Newton’s second law of motion of the block with perpendicular to the plane in y direction.

Fy=0Nmgcosθ=0 (II)

Here, N is the normal force acting on the block, m is the mass of the block, g is the gravitational acceleration, and θ is the angle between the weight and the normal to the incline.

Rewrite the equation (II) for normal force.

N=mgcosθ (III)

Write the equation for the frictional force.

f=μN (IV)

Here, f is the frictional force and μ is the coefficient of friction.

Substitute equation (III) in equation (IV).

f=μmgcosθ (V)

Replace 1/2kxf2 for Uf,e, mgyi for Ui,g, and fkdcos180° for W in equation (I).

0+mgyi+0+fkdcos180°=0+0+12kxf2mgyifkd=12kxf2 (VI)

Here, yi is the initial sliding distance of the block along the horizontal line, fk is the kinetic friction, d is the sliding distance of the block, k is the spring constant, and xf is the compression distance of the spring.

Substitute equation (V) in equation (VI).

mgdsinθμmgdcosθ=12kxf2 (VII)

Conclusion:

Solve the equation (VII) for xf.

mgd(sinθμcosθ)=12kxf2xf2=2mgdk(sinθμcosθ)xf=2mgdk(sinθμcosθ)

Substitute 0.50kg for m, 9.80m/s2 for g, 85cm for d, 35N/m for k, 0.25 for μ, and 30.0° for θ in above equation.

xf=2(0.50kg)(9.80m/s2)(85cm)(0.01m1cm)(35N/m)(sin30.0°(0.25)cos30.0°)=0.2595m(100cm1m)=25.95cm=26cm

Therefore, the maximum compression distance of the spring is 26cm.

(b)

To determine

The distance of the block inclined before coming to rest.

(b)

Expert Solution
Check Mark

Answer to Problem 118P

The distance of the block inclined before coming to rest is 34cm.

Explanation of Solution

Write the equation (VII) from part (a) for the conservation of  work –energy theorem.

mgdsinθμmgdcosθ=mgdsinθ+μmgdcosθmgd(sinθμcosθ)=mgd(sinθ+μcosθ)d(sinθμcosθ)=d(sinθ+μcosθ)d=d(sinθμcosθ)(sinθ+μcosθ) (VIII)

Conclusion:

Substitute 85cm for d, 0.25 for μ, and 30.0° for θ in equation (VIII).

d=(85cm)(sin30.0°(0.25)cos30.0°)(sin30.0°+(0.25)cos30.0°)=(85cm)0.50.2170.5+0.217=(85cm)0.2830.717=34cm

Therefore, the distance of the block inclined before coming to rest is 34cm.

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