1. The deformation of the fluid will continue as long as the 2. When designing gates, vessels, dams or other bodies that are submerged in a liquid, it is important not only to estimate the 3. The surface tension is the tensile force per - is applied. -but also to specify its location on the body. in any direction along the surface the surface tension.
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- Here are these questions if I could get help with themIf a spherical storage tank holds 40,000 gallons (120,000 liters) of water,what diameter must it have?If a cylindrical storage tank has a 40-foot (12 m) diameter circular 05::=how high must it be to hold 1 million gallons (3 million liters)?If water is moving at a rate of 3.2 ft3/sec (90,000 cc/sec), how manygallons (liters) per minute is this?If the specific gravity of gold is 19.0. what is the weight of a cubic inch(cubic centimeter) of gold? A cubic foot (cubic meter)?1. The deformation of the fluid will continue as long as the 2. When designing gates, vessels, dams or other bodies that are submerged in a liquid, it is important not only to estimate the - 3. The surface tension is the tensile force per --- in any direction along the surface the surface tension. 4. The value of --- specifies whether the fluid can be assumed compressible or incompressible. 5. Archimedes' principle indicates --- 6. A truck is filled with gasoline. Ifr the container (tank) on the truck undergoes a - , then the liquid is applied. --- but also to specify its location on the body. surface will begin to rotate clockwise about the center of the container and will eventually maintain a fixed tilted position.Q1: Apply appropriate solution method using math principles to prove that "the pressure at a point in a fluid has the same magnitude in all directions". Support your answer with sketch. Answer: Px Pz = Pn P are the mean pressures at the three surfaces in the x- and z-directions. Q2: Formulate the issue and identify key variables to prove that [AP = P2 - P, = pg Az = y, Az], where y, and p are the specific weight and density of the fluid, respectively. Az is the vertical distance. Support your answer with sketch. Q3: From fluid mechanics science perspective, define the center of gravity and the center of pressure. Q4: Identify the hydrostatic force acting on the top surface of a submerged rectangular plate by applying principles of engineering for the following cases: 1 tilted plate, (2 vertical plate, and 3 horizontal plate. Support your answer with sketch. Q5: By applying principles of fluid mechanics science, define the "rigid-body" and identify its features. Q6: Formulate the issue…
- Using Laplace equation figure out how higher than atmospheric pressure is the inner pressure in a drop of water of radius 3 mm interfacing air at atmospheric pressure. Water surface tension 0.072 N/m. Atmospheric pressure 1.01x105 Pa.The laminar flow of a fluid with a constant viscosity, 4, inside a channel is governed by the following boundary value problem (strong form): d'u dp for y E (0, h) "dy dr u = 0 at y = 0 and y = h vhere u is the fluid velocity and is the pressure drop in the direction of the flow. a) Derive the weak form of the boundary value problem described above.I need help calculating these values using the defined quantites: Fin using the given values (remember its units are m3/hour) the mass flux of water of the inlet stream E from the given values (make sure that it is in the correct units!) Vp= Volume of pond ** For this question, assume that Fin, Fout, and E do not change over time, and that Vp is at steady state Quantities: Pond geometry: r = 100 m; h = 8 m. cin = 0.5 g/m3 (constant over time); ci = 0.01 g/m3 Fin: The inlet stream can be approximated as rectangular in cross-section, with width w = 3 m and depth d = 1 m, and an average velocity uin = 0.5 m/s. E: The evaporation rate can be determined from the evaporative volume flux of 0.1 mm/hour.
- The figure belows shows a closed tank holding air and oil to which is connected a U-tube mercury manometer and a pressure gage, with L1 = 3 ft, L2 = 0.5 ft, and L3 = 1.75 ft. The densities of the oil and mercury are 55 and 845, respectively, each in Ib/ft?. Let g = 32.2 ft/s?. Pressure gage Air Oil (p = 55 Ivit) Pam Mercury (p= 845 Ih/n') g= 322 fus? Determine the reading of the pressure gage, in Ibf/in.? (gage). Pgage = i Ibf/in.21- Find using Buckingham Theorem the relationship of the effect on pressure drop (AP) (M L-¹T2), of the variables d- pipe diameter (L), 1- pipe length (L), p-fluid density (ML-³) μ- Fluid viscosity (ML-¹T-¹) and V- Fluid velocity (L T-¹). - Assume the input power to a pump P (ML T-¹) is depend on Q- Flowrate (L3 T-¹), H-pump head (L), p-fluid density (ML-³) Create a relation by dimensional analysis between the power and other variables by Buckingham Theorem. Assume the input power to a pump P (ML T-¹) is depend on Q- Flowrate (L³ T-¹), H-pump head (L), p- fluid density (M L-³) Create a relation by dimensional analysis between the power and other variables by Rayleigh Method.There is oil (dynamic viscosity = 1.6 Pa.s), oil film thickness (h = 0.7 mm) between a block with mass M (5 kg) and the bottom surface. Block base surface Its area is given as A = 28 cm2. Block m (1kg weight) with a wire rope It depends on the mass. At time t = 0, mass m is released. According to these data; a)Find the viscous forces when the block moves with V = 1 m / s velocity. b)Derive an equation for the block velocity as a function of time (t). c)Plot the velocity-time variation for t = 0 and t = t.
- In Figure below all fluids are at 20 deg.C. Determine pressure at point B, if pressure at point A is 150 kPa and weight of air is neglected. Use the table below for the densities at 20 deg.C. Liquid p. kg/m Kerosene - Ammonia 608 Benzene 881 Air Carbon tetrachloride 1590 Benzene Ethanol 789 Ethylene glycol Freon 12 B 1117 40 cm 9 cm 1327 20 cm Gasoline 680 14 cm Glycerin Kerosene 1260 t8 cm 804 Mercury- Water Mercury Methanol 13,550 791 SAE 10W oil 870 SAE 10W30 oil 876 SAE 30W oil 891 SAE 50W oil 902 Water 998 Seawater (30%e) 1025Solve the Given Problem: If the specific gravity of the unknown fluid is 13.37 what us its specific weight in lbf/ft^33In the figure given, fluid 2 is carbon tetrachloride and fluid 1 is benzene. If patm = 101.5 kPa, determine the absolute pressure at point A. fluid 1 A T 12 cm Patm fluid 2 35 cm ] LIVE 10 nexxt Reimagine Education. www.dlsl.edu.ph