(1 point) On August 12, 2000, the Russian submarine Kursk sank to the bottom of the...
(1 point) On August 12, 2000, the Russian submarine Kursk sank to the bottom of the sea, approximately 90 meters below the surface. Find the following at the depth of the Kursk. (Use g=9.8 m/s2g=9.8 m/s2.)
The water pressure: pressure =
(include units)
The force on a 4 meter square metal sheet held
Horizontally 90 meters below the surface:
force =
Vertically with its bottom 90 meters below the surface:
force =
(include units for each)
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(1 point) On August 12, 2000, the Russian submarine Kursk sank
to the bottom of the...
A submarine is stranded on the bottom of the ocean with its hatch 35m below the...
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.
During a test dive in 1939, prior to being accepted by the U.S. Navy, the submarine...
During a test dive in 1939, prior to being accepted by the U.S.
Navy, the submarine Squalus sank at a point where the
depth of water was 73.0 mm. The temperature at the surface was 27.0
∘C∘C and at the bottom it was 7.0 ∘C∘C. The density of seawater is
1030 kg/m3kg/m3.
Constants During a test dive in 1939, prior to being accepted by the U.S. Navy, the submarine Squalus sank at a point where the depth of water was...
When the U.S. submarine Squalus became disabled at a depth of 66.3 m, a cylindrical chamber...
When the U.S. submarine Squalus became disabled at a depth of 66.3 m, a cylindrical chamber was lowered from a ship to rescue the crew. The chamber had a radius of 1.43 m and a height of 2.05 m, was open at the bottom, and held two rescuers. It slid along a guide cable that a diver had attached to a hatch on the submarine. Once it reached the hatch and clamped to the hull, the crew could escape into...
1. A submarine dives from the surface of the ocean to a depth of 3500 feet...
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,...
When the U.S. submarine Squalus became disabled at a depth of 56.5 m, a cylindrical chamber...
When the U.S. submarine Squalus became disabled at a depth of 56.5 m, a cylindrical chamber was lowered from a ship to rescue the crew. The chamber had a radius of 2.18 m and a height of 3.88 m, was open at the bottom, and held two rescuers. It slid along a guide cable that a diver had attached to a hatch on the submarine. Once it reached the hatch and clamped to the hull, the crew could escape into...
(1 point) A gas station stores its gasoline in a tank under the ground. The tank...
(1 point) A gas station stores its gasoline in a tank under the ground. The tank is a cylinder lying horizontally on its side. (In other words, the tank is not standing vertically on one of its flat ends.) If the radius of the cylinder is 1 meter, its length is 5 meters, and its top is 3 meters under the ground, find the total amount of work needed to pump the gasoline out of the tank. (The density of...
The answer above is NOT correct. (1 point) A gas station stores its gasoline in a...
The answer above is NOT correct. (1 point) A gas station stores its gasoline in a tank under the ground. The tank is a cylinder lying horizontally on its side. (In other words, the tank is not standing vertically on one of its flat ends.) If the radius of the cylinder is 0.5 meters, its length is 8 meters, and its top is 2 meters under the ground, find the total amount of work needed to pump the gasoline out...
HW7: Problem 14 Previous Problem Problem List Next Problem (1 point) A gas station stores its...
HW7: Problem 14 Previous Problem Problem List Next Problem (1 point) A gas station stores its gasoline in a tank under the ground. The tank is a cylinderlying horizontally on its side. (In other words, the tank is not standing vertically on one of its flat ends.) If the radius of the cyinder is 0.5 meters, its length is 8 meters, and its top is 1 meter under the ground, find the total amount of work needed to pump the...
All these answers are wrong (1 point) A gas station stores its gasoline in a tank...
All
these answers are wrong
(1 point) A gas station stores its gasoline in a tank under the ground. The tank is a cylinder lying horizontally on its side. (In other words, the tank is not standing vertically on one of its flat ends.) If the radius of the cylinder is 1 meter, its length is 8 meters, and its top is 5 meters under the ground, find the total amount of work needed to pump the gasoline out of...
PLEASE ANSWER 1-4 Date Turned In Name Day 12 Assignment-Fluid Mechanics 1. The deepest point in...
PLEASE ANSWER 1-4
Date Turned In Name Day 12 Assignment-Fluid Mechanics 1. The deepest point in the ocean is 11 km below sea level, deeper than Mt. Everest is tall, What is the pressure at this depth? The density of seawater is 1030 kg/m. 2, A 35-em-tall, 5.0-cm-diameter cylindrical beaker is filled to its brim with water, What is the downward force of the water on the bottom of the beaker? The density of water is 1000 kg/m. The container...
During a test dive in 1939, prior to being accepted by the U.S.
Navy, the submarine Squalus sank at a point where the
depth of water was 73.0 mm. The temperature at the surface was 27.0
∘C∘C and at the bottom it was 7.0 ∘C∘C. The density of seawater is
1030 kg/m3kg/m3.
Constants During a test dive in 1939, prior to being accepted by the U.S. Navy, the submarine Squalus sank at a point where the depth of water was...
When the U.S. submarine Squalus became disabled at a depth of 66.3 m, a cylindrical chamber was lowered from a ship to rescue the crew. The chamber had a radius of 1.43 m and a height of 2.05 m, was open at the bottom, and held two rescuers. It slid along a guide cable that a diver had attached to a hatch on the submarine. Once it reached the hatch and clamped to the hull, the crew could escape into...
(1 point) A gas station stores its gasoline in a tank under the ground. The tank is a cylinder lying horizontally on its side. (In other words, the tank is not standing vertically on one of its flat ends.) If the radius of the cylinder is 1 meter, its length is 5 meters, and its top is 3 meters under the ground, find the total amount of work needed to pump the gasoline out of the tank. (The density of...
The answer above is NOT correct. (1 point) A gas station stores its gasoline in a tank under the ground. The tank is a cylinder lying horizontally on its side. (In other words, the tank is not standing vertically on one of its flat ends.) If the radius of the cylinder is 0.5 meters, its length is 8 meters, and its top is 2 meters under the ground, find the total amount of work needed to pump the gasoline out...
HW7: Problem 14 Previous Problem Problem List Next Problem (1 point) A gas station stores its gasoline in a tank under the ground. The tank is a cylinderlying horizontally on its side. (In other words, the tank is not standing vertically on one of its flat ends.) If the radius of the cyinder is 0.5 meters, its length is 8 meters, and its top is 1 meter under the ground, find the total amount of work needed to pump the...
All
these answers are wrong
(1 point) A gas station stores its gasoline in a tank under the ground. The tank is a cylinder lying horizontally on its side. (In other words, the tank is not standing vertically on one of its flat ends.) If the radius of the cylinder is 1 meter, its length is 8 meters, and its top is 5 meters under the ground, find the total amount of work needed to pump the gasoline out of...
PLEASE ANSWER 1-4
Date Turned In Name Day 12 Assignment-Fluid Mechanics 1. The deepest point in the ocean is 11 km below sea level, deeper than Mt. Everest is tall, What is the pressure at this depth? The density of seawater is 1030 kg/m. 2, A 35-em-tall, 5.0-cm-diameter cylindrical beaker is filled to its brim with water, What is the downward force of the water on the bottom of the beaker? The density of water is 1000 kg/m. The container...
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