Water is more dense than air is.
Yes, mercury exerts more pressure than water due to its higher density and heavier weight. This is why a barometer, which uses mercury, is able to measure atmospheric pressure accurately.
Fluids have a higher density than air and therefore exert more pressure than air.
I wonder who said it did. Did he realise that some gases might weigh more than the water which is contained in moist gases?
Sorry - it exerts more pressure than a flt heel.
Atmospheric pressure exerts more force on you if you are deeper than 10 meters. At 10m below sea level the atmospheric pressure is double that of on land and it increase with every 10 metres that you descend
A sharp point concentrates the force over a smaller area compared to a blunt end, resulting in higher pressure. This is because pressure is calculated as force divided by area, so when force is constant, decreasing the area increases the pressure.
The larger pointed exert larger pressure than ablunt end because the sharp end takes small than the blunt end.
Water is denser than air, so it has more mass per unit volume. This greater mass in water results in a higher pressure exerted on an object compared to the same volume of air. Additionally, water is relatively incompressible compared to air, leading to a more significant force being exerted on objects submerged in water.
No, it would be less due to compression by weight of the surface area water. Every so many feet (meters) down, another "atmosphere" of pressure is exerted. Ergo, water at the seabed would exert more pressure on the pier than the water at the surface.
air molecules in cold air exert more pressure because they are closer together and collide more often
Due to the that the pressure exerted by a liquid increase with its depth. Thus as depth increase, more and more pressure is exert by water on the wall of dam. A thick wall is required to withstand a great pressure, therefore, the wall of the dam is made with thickness increasing towards the base
Water is denser than air, meaning there are more water molecules in a given volume than air molecules. This greater density of water results in more molecules colliding with the surface, creating higher pressure. Additionally, water is less compressible than air, so changes in volume have a more pronounced impact on pressure.