A submarine is at a depth of 54 m under the ocean surface. The Inside of...
1. A submarine dives from the surface of the ocean to a depth of 3500 feet ( 1foot= 0.305 meters) . a) what pressure increase does the submarine experience? b) at this depth of 3500 feet, what is the force (in units of N) on the hatch which has an area of 0.6 m2 ? Take the density of sea water to be 1030 kg/m3 ( It is a good assumption to presume that sea water has essentially constant density,...
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QUESTION5 A submarine dives to a depth of S0.0 m under water. Given a density of sea water of 1,020 kg/m3, what is the gauge pressure (in Pa) at this depth? QUESTION 6 if a hatch on the submarine in the previous problem has an area of 2.6 m2, what is the net force (in N) on the door, assuming the air inside the submarine is at atmospheric pressure?
A submarine dives down to a depth 12.8 metres beneath the surface of the ocean. calculate the pressure in atmospheres at that depth, assuming the density of water is 1029 kg/m and the air pressure at the surface is 102.2 kPa Answer:
A submarine dives to a depth of 50 meters in the ocean. (a) What is the gauge pressure at this depth? Assume mass density of sea water to be 1030 kg/m3. b) What is the force acting on a hatch that has an area of 2.5 square meters?
3. (Points-8) A submarine is 30.5 m below the water surface as shown in the figure below. Find the minimum force (F) required to open the circular hatch (door) when applied as shown. The tore applied perpendicular to the hatch as shown in the figure. The pressure inside the submarine is eq atmospheric pressure. Take density of water to be 1000 kg/m,-9.8 m/s and Pam - 100 kPa Water Surface atm 30.5 m circle of radius R with centroid at...
Please Help me with number 6. 5 is correct!!!!
QUESTIONS A submarine dives to a depth of S0.0 m under water. Given a density of sea water of 1,020 kg/m3, what is the gauge pressure (in Pa) at this depth? 499800.00 QUESTION6 if a hatch on the submarine in the previous problem has an area of 22 m2, what is the net force (in N) on the door, assuming the air inside the submarine is at atmospheric pressure?
The Seawolf class nuclear submarines have a crush depth of approximately d = 705 m. The density of seawater is ρ = 1.03×103 kg/m3. Atmospheric pressure is P0 = 1.01×105 Pa. Part (a) Find the inward force of the water, in newtons, at crush depth on a circular porthole with a radius of r = 0.39 m. Part (b) If the interior of the submarine is kept at atmospheric pressure, what will be the magnitude of the net force on the porthole, in newtons?
A submarine is at a depth of 1000 m in sea water (density = 1.025 g/cm3). For the comfort of the crew, the interior is kept at a pressure of 1.0 atm. What is the TOTAL force on a circular window with a diameter of 0.50 m?
A submarine is stranded on the bottom of the ocean with its hatch 35m below the surface. Calculate the minimum force (in newtons) needed to open the hatch from the inside, given it is circular and 0.450 m in diameter. Air pressure inside the submarine is 1 atm and the pressure on the ocean’s surface is also 1 atm. Take the density of seawater as 1025 kg/m3 and g=9.8 m/s2.
A submarine with a total outer area of 2,100 m2 is at a depth of 64.0 m below ocean surface. The weight density of ocean water is 10,100 N/m3. The pressure due to water at that depth is a. 610 kPa b. 566 kPa c. 10,100 Pa d. 646 kPa e. 86.0 kPa A submarine with a total outer area of 2,100 m2 is at a depth of 64.0 m below ocean surface. The weight density of ocean water is...