The pressure exerted on a diver 10 m underwater is approximately 2 atmospheres or 1.8 times the atmospheric pressure at the surface. This means the pressure is effectively doubled at this depth.
The drag force exerted by the water on the diver rapidly decelerates the diver's speed after entering the water. This force opposes the motion of the diver and causes a quick decrease in speed. Additionally, the change in medium from air to water also affects the diver's speed.
To calculate pressure, divide the force applied by the area over which it is exerted. In this case, the pressure would be 500 N/m^2.
At 30 meters depth in salt water, a diver will experience a pressure of approximately 4 atmospheres or 4 times the pressure at the surface. This is because water exerts 1 atmosphere of pressure for every 10 meters of depth.
The pressure exerted by applying 1000 N of force over 2 m² of area can be calculated as Pressure = Force / Area. Plugging in the values, Pressure = 1000 N / 2 m² = 500 Pa. So, the pressure exerted would be 500 pascals.
The pressure exerted is 500 Pa. This is calculated by dividing the force (1000 N) by the area (2 m²) over which the force is applied.
At a depth of 1,000 feet (approximately 305 meters) underwater, the pressure exerted on a diver is about 30 times greater than at sea level. This means the total pressure at that depth is roughly 30 atmospheres or 4,500 psi (pounds per square inch). The increased pressure is due to the weight of the water above the diver, which adds significant stress on the body and equipment. Divers at this depth require specialized training and equipment to safely manage the extreme conditions.
Water is denser than air so the pressure is much greater underwater than it is in the air. Ascending 20 meters (50ish feet)underwater is about the same amount of pressure as like 1000 feet in the air
1013 mb
The drag force exerted by the water on the diver rapidly decelerates the diver's speed after entering the water. This force opposes the motion of the diver and causes a quick decrease in speed. Additionally, the change in medium from air to water also affects the diver's speed.
5 Million Newtons was the pressure exerted by Saturn v rocket
To calculate pressure, divide the force applied by the area over which it is exerted. In this case, the pressure would be 500 N/m^2.
At 30 meters depth in salt water, a diver will experience a pressure of approximately 4 atmospheres or 4 times the pressure at the surface. This is because water exerts 1 atmosphere of pressure for every 10 meters of depth.
The pressure exerted by applying 1000 N of force over 2 m² of area can be calculated as Pressure = Force / Area. Plugging in the values, Pressure = 1000 N / 2 m² = 500 Pa. So, the pressure exerted would be 500 pascals.
14.7lbs/sq. inch
Pressure is the weight of an overlying column of material. The pressure at the core comes from 6400km of overlying rock, which is much denser than air
Pressure is the weight of an overlying column of material. The pressure at the core comes from 6400km of overlying rock, which is much denser than air
The pressure exerted is 500 Pa. This is calculated by dividing the force (1000 N) by the area (2 m²) over which the force is applied.