Explanation Given information: The diameter of the jet of water is 3 cm . The jet strikes normal to the plate and the force required to hold the plate is 23 N . The Figure-(1) shows the jet striking the plate. Figure-(1) Write the expression for the force balance with rate of change of the linear momentum on the plate. − F = m ˙ ( − V + V x ) F = m ˙ ( V − V x ) ..... (I) Here, the force applied on the plate is F , the jet velocity is V , the mass flow rate is m ˙ and the final velocity of the jet in the x direction is V x . Write the expression for the mass flow rate. m ˙ = ρ A V ..... (II) Here, the density of the water is ρ and the area of the jet is A . Write the expression for the area of the jet. A = π 4 d 2 Here, the diameter of the jet is d . Substitute π 4 d 2 for A in Equation (II). m ˙ = ρ ( π 4 d 2 ) V = π 4 d 2 ρ V Substitute π 4 d 2 ρ V for m ˙ in Equation (I). F = ( π 4 d 2 ρ V ) ( V − V x ) = π 4 ρ d 2 V ( V − V x ) ..... (III) Since the direction of the velocity is perpendicular to the plate after striking, so the final velocity of the jet in the x direction is zero. V x = 0 Substitute 0 for V x in Equation (III) and solve for the V

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ISBN: 9789385965494

Author: Frank White

Publisher: MCGRAW-HILL HIGHER EDUCATION

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Chapter 3, Problem 3.5FEEP

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The jet velocity.

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Fluid Mechanics, 8 Ed

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