A viewing window 30 cm in diameter is installed with its center 3.0 m below the surface of an aquarium tank at the Seaquarium. Determine the force that the window must withstand.
Physics 1 College level. Please show all work and formula used. Thanks!
A viewing window 30 cm in diameter is installed with its center 3.0 m below the...
As shown, a round viewing window of diameter D = 0.8 m is situated in a large tank of seawater (specific gravity S = 1.03). The top of the window is 1.2 m below the water surface, and the window is angled at 60° with respect to the horizontal. Find the hydrostatic force acting on the window and locate the corresponding center of pressure (CP).
Q3. A round viewing window of diameter D-0.8 m is situated in_ a large tank of seawater (S-1.03). The top of the window is 1.5 m below the water surface, and the window is angled at 60° with respect to the horizontal. Find the hydrostatic force acting on the window and locate the corresponding CP Window Sea water 60
Hydrostatic Force- Inclined Surface 3. The round viewing window shown (D=0.8 m) is situated in a large tank of seawater (SG 1.03). If h= 2m, and the window is angled at 60° from the horizontal, find the hydrostatic force acting on the window, and locate the corresponding center of pressure (CP) Window Sea water 60
A 3-m-diameter tank is initially filled with water 2 m above the center of a sharp-edged 10-cm-diameter orifice. The tank water surface is open to the atmosphere, and the orifice drains to the atmosphere through a 100-m-long pipe. The friction coefficient of the pipe is taken to be 0.015 and the effect of the kinetic energy correction factor can be neglected. In order to drain the tank faster, a pump is installed near the tank exit. Water tank Pump 6...
A 3-m-diameter tank is initially filled with water 2 m above the center of a sharp-edged 10-cm-diameter orifice. The tank water surface is open to the atmosphere, and the orifice drains to the atmosphere through a 100-m-long pipe. The friction coefficient of the pipe is taken to be 0.015 and the effect of the kinetic energy correction factor can be neglected. In order to drain the tank faster, a pump is installed near the tank exit. Water tank Pump Required...
) A 3-mm-thick glass window transmits 83 percent of the radiation betweenA -0.3 and 3.0 μm and is essentially opaque for radiation at other wavelengths. Determine the rate of radiation transmitted through a 3-m X 3-m glass window from blackbody sources at (a) 5800 K and (b) 1000 K ) A small circular surface of area A-2cm2 located at the center of a 2-m-diameter sphere emits radiation as a blackbody at T-1000 K. Determine the rate at which radiation energy...
(35 %) 2. A salt-water aquarium has 0.70-m diameter windows in its sides which slant as shown. The centers of the windows are located 2.5 m below the surface. S. 115 a) What is the force exerted by the water on a window? b) What is the depth of the center of pressure for a window? The geometric properties table at the end of the text may be helpful. of as 0.7m 2.5ml .D window windo 525 Proh, a
A 3-m-diameter tank is initially filled with water 2 m above the center of a sharp-edg 10-cm-diameter orifice. The tank water surface is open to the atmosphere, and the orifice drains to the atmosphere through a 100-m-long pipe. The friction coefficient the pipe is taken to be 0.015 and the effect of the kinetic energy correction factor ca be neglected. In order to drain the tank faster, a pump is installed near the tank exit Water tank Pamp Required infor...
10 peles A 3-m-diameter tank is initially filled with water 2 m above the center of a sharp-edged 10 cm diameter orifice. The tank water surface is open to the other, and the orice drains to the atmosphere through a 100-m-long pipe. The initial discharge velocity is 4 m/s. The friction coefficient of the can be when to be 0.015 and the effect of the energy correction the factor can be neglected. Determine (a) the initial velocity from the tank...
5.0 4 A 5.0-cm x 10.0-cm rectangular loop made of 3.0-mm-diameter copper wire (resisitivity 1.7*10-822*m) is placed next to a long, straight wire that carries a 5.0-A current (see figure). The distance initially separating the loop and the straight wire is 30 cm. 30 cm The loop then begins to move away from the straight wire, at a constant speed of 7.5 cm/s. 5.0 cm Determine the average magnitude and direction of the current induced inside the loop during the...