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Chapter 34, Problem 74PQ
To determine

The three type of forces acting on the sail.

Expert Solution & Answer
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Answer to Problem 74PQ

The gravitational force acting on the sail is 30N. The drag force acting on the sail is 1.4×105N. The force exerted by solar radiations on the sail is 9×105N.

Explanation of Solution

Write the expression for the force of gravitation acting on the sail.

    Fgravity=GMmr2                                                    (I)

Here, Fgravity is the force of gravitation, G is the universal gravitational constant, M is the mass of Earth, m is the mass of sail and r is the distance between Earth and sail.

Write the expression for the drag force on the sail.

    Fdrag=12Cρv2A                                                 (II)

Here, Fdrag is the drag force, C is the drag coefficient, ρ is the density of Earth’s atmosphere, v is the orbital velocity of sail and A is the area of sail.

Write the expression for the orbital velocity of the sail.

    v=GMR+r                                                       (III)

Here, G is the universal gravitational constant, M is the mass of Earth, R is the radius of Earth and r is the altitude.

Write the value for distance between Earth and sail.

    r=(6400km+6.5×105m)

Write the expression for the force exerted by the solar radiations on the sail.

    Fradiation=2IAc                                                   (IV)

Here, Fradiation is the force exerted by the radiations on the sail, I is the intensity of the radiations, A is the area of the sail and c is the speed of light.

Conclusion:

Substitute 6.67×1011Nm2/kg2 for G, 6×1024kg for M, 4kg for m and (6400km+6.5×105m) for r in equation (I) to find Fgravity.

    Fgravity=(6.67×1011Nm2/kg2)(6×1024kg)(4kg)(6400km×(103m1km)+6.5×105m)=32.21N30N

Substitute 6.67×1011N.m2/kg2 for G, 6×1024kg for M, 6400km for R and 6.5×105m for r. in equation (III) to find v.

    v=(6.67×1011Nm2/kg2)(6×1024kg)((6400km)(103m1km)+6.5×105m)=7534.32m/s

Substitute 1 for C, 5×1014kg/m3 for ρ, 10m2 for A and 7534.32m/s for v in equation (II) to find Fdrag.

    Fdrag=12×1×(5×1014kg/m3)(7534.32m/s2)2(10m2)=1.42×105N1.4×105N

Substitute 1.4kW/m2 for I, 10m2 for A and 3×108m/s for c in equation (IV) to find Fradiation.

    Fradiation=(2)(1.4kW×103W1kW)(10m2)3.0×108m/s=9.33×105N9×105N

Therefore, the gravitational force acting on the sail is 30N. The drag force acting on the sail is 1.4×105N. The force exerted by solar radiations on the sail is 9×105N.

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Chapter 34 Solutions

Webassign Printed Access Card For Katz's Physics For Scientists And Engineers: Foundations And Connections, 1st Edition, Single-term

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