Structural Analysis
6th Edition
ISBN: 9781337630931
Author: KASSIMALI, Aslam.
Publisher: Cengage,
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- A U-tube manometer is arranged, as shown in Fig. 2.15, to measure the pressure difference between two points A and B in a pipeline conveying water of density 1000 kg/m³. The density of the manometric liquid Q is 13600 kg/m³ and point B is 0.3 m higher than point A. Calculate the pressure difference when h = 0.7 m. T Manometric liquid Q of density Pman Figure 2.15 Measurement of pressure difference Fluid P, of density blup all to 20 lensarrow_forward... EX, 7 The device shown in the figure is known as a venturi. In this specific venturi, the differential pressure between locations 1 and 2 is 30 kpa and the diameter ratio is D2/D1 = 0.35. If D2 = 16 cm, find the air flow rate through the frictionless venturi. 12 THR (2) (1)arrow_forward4- Consider the system shown in the figure. If a change of P kPa in the pressure of air causes the brine- mercury interface in the right column to drop by d mm in the brine level in the right column while the pressure in the brine pipe remains constant, determine the ratio of A₂/A₁. P (kPa) d (mm) 6 Sum of last 2 digits of 35 YorkU ID# ending with 0, 2, 4, 6, 8 Sum of last 2 digits of 45 YorkU ID# ending with 1, 3,5,7,9 7 Area, A₁. Air Water Mercury SG = 13.56 Brine pipe SG = 1.1 Area, A₂arrow_forward
- In fig. if H= 88 inches, the difference in pressure =---?(the fluid is water) Piezometer (static) tube- -Pitot tube 2 BAR CO -Fluid stagnates at point 2 (v₂ = 0) 357.6. lb/ft2 O 243 lb/ft2 O 457.6 lb/ft2. Oarrow_forwardQ2) Figure Q2 shows a 30-kg block is connected to block B through a frictionless pulley. The coefficient of static friction for the contact surfaces is 0.35. (i) (ii) Determine the mass value of block B when the impending motion of block A is down the plane. Determine the mass value of block B when the impending motion of block A is up the plane. 20⁰ А μs=0.35 Figure Q2 Barrow_forwardI need the answer as soon as possiblearrow_forward
- Fluid Mechanics. Reg.no : 5393 Pb # 3: Refer to Figure 2. Assume that friction is negligible, that θ = 115o, and that the water jet has a velocity of (Reg.No/100) m/s and a diameter of 60 mm. Find (a) the component of the force acting on the blade in the direction of the jet; (b) the force component normal to the jet; and (c) the magnitude and direction of the resultant force exerted on the blade. Note: Assume reasonable values for any missing data. Symbols have usual meaning unless otherwise stated.arrow_forwardConsider the system in (Figure 1). Figure k = 5 lb/in. 1 ft = 1/2x² 1 of 1 Part A Determine the smallest amount the spring at B must be compressed against the 0.3-1b block so that when the block is released from B it slides along the smooth surface and reaches point A. Express your answer in inches to three significant figures. x = Submit Provide Feedback - ΑΣΦ Request Answer vec ? in. Next >arrow_forwardThe gage pressure of the air in the tank shown in figure is measured to be 65 kPa. Determine the differential heighth of the mercury column. 65KPA Oil ŚG = 0.72 75cm Air Water Mercury SG - 13.6 30cmarrow_forward
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