Think of it this way, if you had a plastic bottle filled with water and you poked a hole in the side, would water squirt out or would air squirt in? If air squirted in, then the air pressure would have to be higher. But since we know that the water would squirt out, we know that the water's pressure must be stronger. Of course, this is under normal conditions. If you pumped the air pressure up enough, then the air pressure may become stronger than standard water pressure. So actually, water pressure is generally stronger than air pressure.
If a hydrate's vapor pressure is higher than the water vapor in the air, water molecules will evaporate from the hydrate into the air until equilibrium is reached. This process will continue until the vapor pressures are equalized.
The air pressure in a tornado is lower than that of its surrounding but the pressure difference varies with the strength of the tornado. The greater the pressure difference, the stronger the tornado. The greatest pressure drop recorded from a tornado was 100 millibars or about 10%.
Warmer air has higher saturation mixing ratios then cold air does. So therefore because of this 100% humidity in cold air is not 100% humidity in warmer air. The warmer the temperature, the more water vapor in the air. The colder the temperature, the less water vapor in the air.
It depends on the amount of water vapor entering the air (evaporation) and leaving the air (condensation and precipitation). The maximum depends mainly on the temperature of the air. Pressure, which changes with temperature and altitude, is also a factor.
The two characteristics of the atmosphere that allow it to retain water vapor on Earth are temperature and pressure. Warmer air can hold more water vapor than cooler air, and higher pressure air can hold more water vapor than lower-pressure air. This combination allows for the retention of significant amounts of water vapor in the Earth's atmosphere.
The pressure under water is stronger than the pressure in air so the paumotan diver's lungs contract when they dive.
the pressure difference, depends upon the can, and what it contains, in food cans, the pressure is equil, however in soda pop cans the pressure is higher on the inside
Water is more dense than air is.
water is more dense than air and it has at
No, 200 psi of air is not the same as 200 psi of water. This is because water is denser than air, so the pressure exerted by water at 200 psi would be greater than that of air at the same pressure.
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.
Winds can be stronger due to factors like differences in temperature, pressure gradients, and proximity to large bodies of water or mountainous terrain. Wind speed is influenced by these factors, which can create faster or slower-moving air masses.
Type your answer here... because water is stronger than air thanks for reading haley
Water Pressure is higher because of it's molecular weight as compared to air.
It is the effect of air pressure. The air pressure at the top of a mountain is less than the air pressure at sea level. The effect of air pressure on a water surface is to prevent or oppose water molecules escaping from the surface. The greater the air pressure, the more heat energy is needed to allow the water molecules to escape and so at sea level the water will boil at a higher temperature than if it were on top of a mountain.
The air pressure in a tornado is lower than that of its surrounding but the pressure difference varies with the strength of the tornado. The greater the pressure difference, the stronger the tornado. The greatest pressure drop recorded from a tornado was 100 millibars or about 10%.
Water is denser than air, so objects moving through water experience more resistance due to the higher density of the medium. Additionally, water has a higher viscosity compared to air, which further increases the resistance experienced by objects moving through it. These factors combined make water resistance stronger than air resistance.