fluid mechanics include all equations and steps please A 1-in diameter (I.D.) plastic tube is used...
Fluid mechanics Please show all work. The answer is dp/dx = -2 p0 x y^2 5) An incompressible steady-flow of a Newtonian fluid is given by: Let the density be a constant ρ and neglect gravity. Obtain an expression for the pressure gradient in the x-direction
step by step explanation please 1, A jet of fluid issues from a 50 mm diameter nozzle on the end of a 100 mm diameter horizontal pipe. A pressure gauge attached to the pipe upstream of the nozzle measures a pressure of 150 kPa. Determine the volumetric flow rate discharged through the nozzle assuming an ideal fluid of density 1000 kg/m [35.1 itre/s
CHE 3315 FLUID MECHANICS PROBLEM SHEET 5: MASS CONSERVATION AND FLOW RATE 1. Determine the mass flow rate of air having a temperature of 20C and gauge pressure 80 kPa as it flows through a circular duct 400 mm in diameter with an average velocity of 3 m/s. The gas specific constant R 286.9 JK /kg 2. Determine the average velocity of the steady flow at one outlet of a T- junction if the inlet flow speed is 6 m/s...
In-class Activity #4b Name Fluid Mechanics I (4600:310:301, Summer 2030,6/25, Thursday) Application of the Bernoulli Equation along a Streamline 1. Bernoulli equation along a streamline: Assumptions involved in Bernoulli equation: 1 No viscous effects (no shear) 2. Steady flow 3. Incompressible (density is constant) 4. Along a streamline P+ + Pgz=constant along streamline 2. The Static Pressure (p), Dynamic pressure, Stagnation pressure, and Total Pressure: Dynamic pressure: 1 Pd= 20v? Stagnation pressure: Ps= ptzov? Total pressure: P/ + Example 3.8...
(25pts) The 0.5in.-diameter hose shown in Figure can withstand a maximum pressure of 300 psi without rupturing. Determine the maximum length, 1, allowed if the friction factor is 0.022 and the flowrate is 0.020 f/s. Neglect minor losses Nozzle tip diameter - 0.30 in. y = 62.2 lb/ft3 D-0.50 in. P2 = 0 Water 10 ft 3 ft Pump
please show all steps A nozzle is often added to the end of a garden hose to produce a larger exit velocity for the water. Consider a nozzle attached to the end of a 3/8-in. internal diameter hose flowing 0.2 gallons per minute. The exit of the nozzle has an exit diameter 1/5W of its entrance diameter. 1. Draw a schematic of the problem labeling all pertinent information. 2. Use Bernoulli's equation to predict the pressure difference in units of...
Fluid Mechanics Water at 20°Cis transported for 500 m in a 4-cm-diameter wrought iron horizontal pipe with a flow rate of 0003 mls. Calculate the pressure drop over the 500-m length of pipe. TABLE 10.4 Equivalent Sand-Grain Roughness, (k.), for Various Pipe Materials Boundary Material Glass, plastic Copper or brass tubing Wrought iron, steel Millimeters 0.00 (smooth) 0.0015 0.046 K, Inches 0.00 (smooth) 6 X 103 0.002
Hi, I need help with this Fluid Mechanics question. Please show all the steps. Thank you PROBLEM 1: Consider the steady flow in a water pipe joint shown in the diagram. The areas are: A1 = 0.2m2, A2 = 0.2m2, and A3 = 0.15m². In addition, fluid is lost out of a hole at (4), estimated at a rate of 0.1 m3/s. The average speeds at sections (1) and (3) are V1 = 5 m/s and V2 = 12 m/s...
Fluid Mechanics & Fluid Power Determine the NPSH available. The pressure in the tank is - 20 kPa at 70 °C (atmospheric pressure is 100.5 kPa). The water level in the tank is 2.5 above the pump inlet. The pipe is 1%", schedule 40 with a total length of 12 m. The elbow is standard, and the globe valve is fully open. The flow rate is 95 L/min. FIGURE 13.27 llustration of pump performance for different impeller diameters with net...
Fluid Mechanics Example of HGL and EGL 24 L v2 Ex 7-7) The head loss in the pipe is given by h 0.014 , where L is the length of pipe and D is the pipe diameter. Assume a and y 9810 N/m3 1.0 at all locations 1) Determine the discharge of water through this system. 2) Draw the EGL and HGL for the system. 3) Locate the point of maximum pressure. 4) Locate the point of minimum pressure. 5)...