A 97-ft3/s water jet is moving in the positive x-direction at 18 ft/s. The stream hits a stationary splitter, such that half of the flow isdiverted upward at 45° and the other half is directed downward, and both streams have a final average speed of 18 ft/s. Disregardinggravitational effects, determine the x- and z-components of the force required to hold the splitter in place against the water force. Takethe density of water as 62.4 Ibm/ft3.18 f/s45°V fi/s45°- SplitterThe x-component of the force isIbf.The z-component of the force is:Tilbf.

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Answered: A 97-ft3/s water jet is moving in the…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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6 Consider a fully developed laminar flow of a fluid through 8027 m long and 4 cm diameter horizontal and circular pipe. The dynamic density and the viscosity of the fluid are 1252 kg/m³ and 0.3073 kg/(m.s). The velocity profile at a cross-section is given by: u(r)= 6[1 − ( 7 )²] - m/s Where r is the axial distance from the centre and R is the radius of the pipe. Determine the following: (i) (ii) the maximum velocity at a cross-section of the pipe, Umax the average velocity at a cross-section of the pipe, Vave the volume flow rate, Q (iv) Reynolds number, Re (v) friction factor, f (vi) head loss, hi (vii) pressure loss, AP (viii) pumping power required, (ix) for the same pumping power, the percentage decrease of the flow rate if the pipe is inclined 10° upward (assume the head loss, hò, calculated in part (vi) does not change) Useful formulae: 64 f Re h₂ = f ( =) ( 2² ) 2g =
6/97 The 1.2-kg uniform slender bar rotates freely about a horizontal axis through O. The system is released from rest when it is in the horizontal position 0-0, where the spring is unstretched. If the bar is observed to momentarily stop in the position 0-50°, determine the spring constant k. For your computed value of k, what is the angular velocity of the bar when 0 -25°? B 0.6 m 0.6 m A 0.2 m 1.2 kg
The tank shown has one curved surface restraining a body of static fluid with 3.55 kPa air pressure above the fluid and sg = 0.88, with the following dimensions: w = 5.50 m h1 = 2.1 m D1 = 0.85 m Required Compute the magnitude of the resultant force, in kN, to the nearest 100th. Fluid sg = given hl D1

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