ans: PA = 33.0 ft of water Fig. 2-22 9. In Fig. 2-22, the liquid is...
ܛܠܠܠܠܠܝ Min. L- Fig. 9-28 Fig. 9-29 9.33. Determine the equation of the deflection curve for the cantilever beam loaded by the concentrated force P as shown in Fig. 9-28. Ans. 'Ely = -xa – x)3 – Pa? - + Pas for 0 <zza; ely = - Pa? x + Pas för a < x <L 9.34. For the cantilever beam of Fig. 9-28, take P = 1000 lb, a = 6 ft, and b = 4 ft. The beam...
Please answer question 9.35.
Mis L- Fig. 9-28 Fig. 9-29 9.33. Determine the equation of the deflection curve for the cantilever beam loaded by the concentrated force P as shown in Fig. 9-28. Ans. Ely = -(a – )3 – Pa< x + Pas for 0 << <a; Ely = - Pą2 x + Pap for a < < <L 9.34. For the cantilever beam of Fig. 9-28, take P = 1000 lb, a = 6 ft, and b =...
2. 120 ft Pump Fig.2 Water at 20 °C is to be pumped through 2000 ft of pipe from reservoir 1 to 2 at a rate of 3 ft'/sec as shown in Fig.2. If the pipe is cast iron of diameter 6 in and the pump is 75 % Efficient, what horsepow pump is needed?
2-in.-diameter hose 2 ft (3) FIG. P3 Water is siphoned from the tank shown in Fig. P3. Determine (a) the flowrate from the tank, and (b) the pressure at point (1), (2) and (3). (c) The current maximum height of the hose is 2 ft above the water surface. What can the maximum height be without having any cavitation. Take the water temperature to be 60°F.
The absolute pressure at the bottom of a liquid store tank that is vented to the atmosphere is given by: Pabs,bottom = ρgh + Poutside Where: Pabs,bottom = the absolute pressure at the bottom of the storage tank (Pa)ρ = liquid density (kg/m3)g = acceleration due to gravity (m/s2)h = height of the liquid (m)Poutside = outside atmospheric pressure (Pa) Find Pabs,bottom in SI units if ρ = 1000 kg/m3, g = 32.2 ft/s2, h = 7 yd, and Poutside = 1 atm• Here are some tips to help you get started:o Remember your comment section and variable definitions o Use...
Dam Wall (7 marks) Fig 6 6. A circular gate AB of diameter 4 m is designed to close the water flowing out from the sloping wall of a dam structure. The gate is hinged at A as in Fig 6. Calculate (a) the magnitude of hydrostatic force acting on the circular gate and (b) the position of hydrostatic force from the water surface. (6 marks) 7. Using the data in Fig 7, (a) find va if vb is 3...
A closed tank is filled with water and has a 4-ft-diameter
hemispherical dome as shown in the figure below. A U-tube manometer
is connected to the tank. Determine the vertical force of the water
on the dome if the differential manometer reading is 7 ft and the
air pressure at the upper end of the manometer is 13.6 psi.
Setting up the manometer equation, I found the pressure in the
closed tank to be 2894.4 lb/ft^2, but when doing the...
(3.14) An organic liquid at 185 F is to be cooled with water that is available at 80°E. A double-pipe beat exchanger consisting of six hairpins connected in series will be used. The heat exchanger pipes are schedule 40. Bach hairpin is 20 ft long and is made with 2- and 1-in. stainless steel (k 9.4 Btu/h ft F) pipes. Flow rates and fuid properties, which may be assumed constant, are given below. The organic liquid will flow through the...
9) A rectangular channel 8 feet wide carries 2.5 ft/s of water at a depth of 3.2 feet. a) What are the most efficient attributes (d, A, P, and R) of the channel? b) If a 1-foot wide pier is placed in the middle of the channel, find the elevation of the water surface at the pier. What is the minimum width of the constriction that will not cause a rise in the upstream water surface?
Measurement of Pressure. An open U-tube manometer similar to Fig. 2.2-4a is being used to measure the absolute pressure p, in a vessel containing air The pressure pb is atmospheric pressure, which is 754 mm Hg. The liquid in the manometer is water having a density of 1000 kg/m. Assume that the densityp is 1.30 kg/m and that the distance Z is very small. The reading R is 0.415 m. Calculate p, in psia and kPa. pb fluid B PB...