The gate shown in fig.1 is in equilbrium.Compute W, negelecting the mass of the gate? 2m Hinge W] 450 Water Gate 1m wide
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Q: Q1:-The gate shown in fig.1 is in cquilbrium.Compute W, negelecting the mass of the gate?
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Q: 26, In fig. below, fluid A is water (p 62.1 lhm/ft³) while fluid B is oil (S.G. 0.80), g= 32.2 fps?…
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Q: FThe gate shown in fig.1 is in equilbrium.Compute W, negelecting the mass of the gate? 2m Hinge 45…
A: Given information: Width of gate = 2m Height of gate = 1m angle of inclination of gate = 45o
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Q: 1. Gate AB in Fig. below is 15 ft long and 8 ft wide into the paper and is hinged at B with a stop…
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Q: Gate AB in Fig. (5) is 15 ft long and 8 ft wide into the paper, hinged at B with a stop at A. The…
A: Given, Length of the gate, L=15 ft Width of the gate, b=8 ft Thickness of the gate, t=1 in=112 ft…
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- One side of the container has a 03-m square door that is hinged at its top edge. If the container is filled with water, determine the smallest force F that must be applied to the bottom edge of the door to keep it closed.Derive a formula for capillary rise (h) between two concentric glass tubes of radiuses RI and R2. determine its value for water if (G. = 0.072 N/m, RI=30mm, & R2=36mm) (Take smooth and very clean glass tubes).To what height will 68˚F ethyl alcohol rise in a 0.005 in internal diameter glass capillary tube? The density of the alcohol is 49 lbm/ft3 note ? = 0.00156 ???/ ?? and ? = 0°.
- Figure AB Cover rests on a flat surface. Cover 180 kg weight and 1.2 m wide. At what height is the water depth the lid won't open? find it. (glycerin density is 1260 kg/m3 , That density 1000 kg/m3 )The cylindrical water tank in Fig. is being fi lled ata volume fl ow Q 1 = 1.0 gal/min, while the water alsodrains from a bottom hole of diameter d = 6 mm. At timet = 0, h = 0. Find and plot the variation h ( t ) and the eventualmaximum water depth h max . Assume that Bernoulli’ssteady-fl ow equation is valid.U - tube is used to pressure the difference in water channel. p1= 1000 kg/m3. The orange fluid in the U - tube has a density: p2= 2000 kg/m3. The height a = 10 cm and h = 15 cm. If the pressure at point ① is 111 kPa, what is the pressure at point ② ?
- Compute the capillary rise of water between two concentric glass tubes of radius r 1 = 2mm, r 2 = 4 mm with a contactangle ϴ = 20ᵒ. Surface tension = 0.07321 N/ m.Panels AB and CD in Fig. are each 120 cm wide intothe paper. ( a ) Can you deduce, by inspection, which panelhas the larger water force? ( b ) Even if your deduction isbrilliant, calculate the panel forces anyway.EMERGENCY!!!! The cover in the figure is hinged at the center O and has a fixed width w = 5 m. The equation of the surface is x = y2 / a (a = 3 m), the depth of the water to the right of the lid (D = 4 m). If the weight of the lid is neglected, it is necessary to keep the lid in balance. Find the size of the force (Fa) required, as shown. Take the density of the water as 999 kg / m3.
- A 4-m-long quarter-circular gate of radius 4 m and of negligible weight is hinged about its upper edge A, as shown in the figure. The gate controls the flow of water over the ledge at B, where the gate is pressed by a spring. Determine the minimum spring force (in N) required to keep the gate closed when the water level rises to A at the upper edge of the gate.Q6: A hydraulic lift is to be used to lift a 2500 kg weight by putting a weight of 25 kg on a piston with a diameter of 10 cm. Determine the diameter of the piston on which the weight is to be placed.A door in the side of a tank is 3.1 m wide and 5.2 m high, the tank is filled to the top of the door with water of density 1000kg/m3. What is the force on the door in N?