A robotic submarine is used to maintain offshore oil drilling platforms, and can operate in very...

The force exerted by sea water alone, on a submarine window of radius 50.0 cm is...

The force exerted by sea water alone, on a submarine window of radius 50.0 cm is 6.18x10^7 N. Find the depth of the submarine window. The density of sea water is 1025 kg/m^3.

4:​A submarine descends into the sea to a depth of 200 m below the surface of...

4:​A submarine descends into the sea to a depth of 200 m below the surface of water. ​The density of the sea water is 1.03 g/cm3. Atmospheric pressure is 1.0 x105 Pa.​[10 marks] Calculate: (a) The increase in pressure as it descends from the surface to a depth of 70 m.​ (b) On another dive, the submarine experiences a total pressure of 6.5 x105 Pa.​ A hatch cover on the submarine has an area of 3.5 m2. Calculate the force...

Calculate the absolute pressure at an ocean depth of 882 m. Assume the density of seawater...

Calculate the absolute pressure at an ocean depth of 882 m. Assume the density of seawater is 1024 kg/m3. (4b) At this depth, what force must the frame around a circular submarine porthole having a diameter of 59.0 cm exert to counter balance the force exerted by the water ?

A bathysphere used for deep-sea exploration has a radius of 1.50 m and a mass of...

A bathysphere used for deep-sea exploration has a radius of 1.50 m and a mass of 1.23 ✕ 104 kg. In order to dive, this submarine takes on mass in the form of sea water. Determine the amount of mass that the submarine must take on if it is to descend at a constant speed of 1.20 m/s, when the resistive force on it is 1095 N in the upward direction. Take 1.03 ✕ 103 kg/m3 as the density of...

The Mariana trench is located in the Pacific Ocean at a depth of about 11 000...

The Mariana trench is located in the Pacific Ocean at a depth of about 11 000 m below the surface of the water. The density of seawater is 1025 kg/m3. (a) If an underwater vehicle were to explore such a depth, what force would the water exert on the vehicle's observation window (radius = 0.166 m)? (b) For comparison, determine the weight of a jetliner whose mass is 4.94 × 105 kg.

For a submarine to stay submerged, it must be neutrally buoyant, which means it is maintaining...

For a submarine to stay submerged, it must be neutrally buoyant, which means it is maintaining a careful balance between its weight and the buoyant force of water pushing it toward the surface. If a submarine has an enclosed volume of 327.781 m3, how much must it weigh to stay submerged? (Use 1000 kg/m^3 for the density of water.)

Crew members attempt to escape from a damaged submarine 115 m below the surface. What force...

Crew members attempt to escape from a damaged submarine 115 m below the surface. What force must be applied to a pop-out hatch, which is 1.10 m by 0.50 m, to push it out at that depth? Assume that the density of the ocean water is 1024 kg/m3 and the internal air pressure is at 1.00 atm.

(a) A large, open at the top, upright cylindrical tank contains fuel oil with a density...

(a) A large, open at the top, upright cylindrical tank contains fuel oil with a density of 0.890 ✕ 103 kg/m3. If the air pressure is 101.3 kPa, determine the absolute pressure (in Pa) in the fluid at a depth of 22.5 m. ____ pa (b)Determine the force (in N) exerted by only the fluid on the window of an instrument probe at this depth if the window is circular and has a diameter of 3.70 cm. N

A square gate is used to prevent seawater (density = 1027 kg/m^3) intrusion into a sewer...

A square gate is used to prevent seawater (density = 1027 kg/m^3) intrusion into a sewer main. The depth of water(density=1000 kg/m^3) in the sewer is 1.3 m, and the top and bottom of the gate 0.3m and 0.6m below the surface in the sewer . If the tide rises and falls such that the minimum and maximum heights of seawater are 2.6m and 3m . Calculate the force required at the base of gate to ensure there is no...

Problem 18.87 Drops of an oil that has a mass density of 700 kg/m3 are released...

Problem 18.87 Drops of an oil that has a mass density of 700 kg/m3 are released from a broken undersea oil pipe that is 1200 m below the ocean surface. Use 1000 kg/m3 for the mass density of ocean water. Part A If the drops have an average diameter of 100 μm, how long do they take to rise to the surface? Hint: The drops quickly reach terminal speed and experience a viscous drag force of magnitude Fdwo=(0.0200Pa⋅s)Rv, where R...