Explanation Given information: The flow rate of water jet is V ˙ and cross-sectional area is A . The mass of cart is m c , the constant velocity is V J and cart variable velocity V is V J − V . Write the expression of mass flow rate of water. m = ρ A ( V J − V ) ....... (I) Here, the density of water is ρ , the cross-sectional area is A , the constant flow velocity is V J and the cart variable velocity is V . Write the expression of mass of water present in the cart. m w = ∫ 0 t m d t ....... (II) Here, the total mass is m and change in time is d t . Substitute ρ A ( V J − V ) for m in Equation (II). m w = ∫ 0 t ρ A ( V J − V ) d t m w = ∫ 0 t ( ρ A V J d t − ρ A V d t ) m w = ρ A V J [ t ] 0 t − ∫ 0 t ρ A V d t m w = ρ A V J t − ρ A ∫ 0 t V d t ....... (III) Write the expression of total mass flow rate. m total = m c + m w ....... (IV) Here, the mass of cart is m c and the mass of water present in the cart is m w . Write the expression of total force acting on the cart. F = d ( m t o t a l × V ) d t ....... (V) Here, total mass flow rate is m t o t a l , the cart variable velocity is V and change in time is d t . Substitute m c + m w for m total in Equation (V). F = d ( ( m c + m w ) × V ) d t = d d t ( m c × V ) + d d t ( m w × V ) = m c d V d t + m w d V d t + V d m w d t = ( m c + m w ) d V d t + V m ....... (VI) Substitute ρ A ( V J − V ) for m and ρ A ( V J − V ) V J for F in Equation (VI)

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Author: CENGEL

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Applied Fluid Mechanics

A fluid is a substance that is continuously deformed by the application of shear stress. The rate of deformation of a fluid depends on its viscosity. The fluid tries to flow when it interacts with some other system.

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Chapter 6, Problem 93P

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The relation between the cart velocities versus time.

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