Explanation The following figure represents the free body diagram of a soldier jumps from the plane. Figure-(1) Write the expression for the air resistance force. F A R = k V F 2 ...... (I) Here, the air resistance force is F A R , the constant is k , and the landing velocity is V F . The landing velocity of the soldier occurs when the air resistance is equal to the weight of the object. Write the expression for the air resistance force. F A R = W ...... (II) Here, the weight of the object is W . Write the expression for weight. W = m g ...... (III) Here, the mass of the object is m and the acceleration due to gravity is g . Substitute m g for W in Equation (II). F A R = m g ...... (IV) Substitute m g for F A R in Equation (I). m g = k V F 2 m g V F 2 = k k = m g V F 2 ...... (V) Write the expression for the air resistance force. F A R = k V 2 ...... (VI) Here, the velocity of the solder is V . Write the expression for the net force developed by parachute. F n e t = W − F A R ...... (VII) Here, the net force developed by parachute is F n e t . Substitute m g for W and k V 2 for F A R in Equation (VII). F n e t = m g − k V 2 (VIII) Substitute m g V F 2 for k in Equation (VIII). F n e t = m g − m g V F 2 × V 2 F n e t = m g ( 1 − V 2 V F 2 ) ......(IX) Write the expression for Newtons second law. F n e t = m d V d t ...... (X) Substitute m g ( 1 − V 2 V F 2 ) for F n e t in Equation (X). m g ( 1 − V 2 V F 2 ) = m d V d t g ( 1 − V 2 V F 2 ) = d V d t g d t = d V ( 1 − V 2 V F 2 )

Fluid Mechanics Fundamentals And Applications

3rd Edition

ISBN: 9780073380322

Author: Yunus Cengel, John Cimbala

Publisher: MCGRAW-HILL HIGHER EDUCATION

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Chapter 6, Problem 89P

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The relation for the constant k.

The relation for the velocity of the soldier.

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Chapter 6, Problem 88P

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Fluid Mechanics Fundamentals And Applications

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