It means that if the gas is allowed to expand into a larger volume, the pressure - inside the container that contains the gas - will be less.
1) Increase in heat 2)Decrease in volume
The temp of the gas would first rise, then drop. If the final volume of the gas is lower than the volume at the start, the temp will be higher than at the start. If the final volume is greater than at the start, then the temp of the gas will be lower than at the start.
Yes, since when you open the bottle/can, the pressure decreases leading to a decrease in temperaure (albeit very slight). pV=nRT V,n and R remain constant so if the pressure is decreased, the temperature must also decrease.
As elevation increases, atmospheric pressure decreases. This leads to a decrease in the boiling point of a compound because lower pressure means molecules can escape more easily. However, elevation generally has a minimal effect on the melting point of a compound.
Depends on the other conditions. If the volume remains constant, the density will remain the same (but the pressure will increase). If the pressure remains constant, the volume will increase - and therefore the density (mass / volume) will decrease.
The pressure on the low pressure side of a system is determined by factors such as the volume of the system, the amount of gas present, and the temperature. A decrease in volume or an increase in temperature can lead to an increase in pressure. Conversely, an increase in volume or a decrease in temperature can lead to a decrease in pressure on the low pressure side.
1) Increase in heat 2)Decrease in volume
A large DECREASE in the surface pressure will result in water turning to water vapor at room temperature.
from the gas laws and Charles 2nd law, it can be concluded that pressure is directly proportional to temperature..hence if the temp decreases; pressure also decreases as the kinetic energy of the molecules decreases; the collisions decrease hence pressure of the molecules inside the container decrease.
Temperature, pressure, and common ion effect
actually it does. The lower the temp. the lower the air pressure so high temp cause high pressure.
The temp of the gas would first rise, then drop. If the final volume of the gas is lower than the volume at the start, the temp will be higher than at the start. If the final volume is greater than at the start, then the temp of the gas will be lower than at the start.
Warm temp create area of low atmospheric pressure on the Earth's surface while area of high pressure r generated when temp r relatively cold. Once established, the thermal gradient then develops a flow of air that goes from high 2 low pressure
The five factors that affect wind are pressure gradient force, Coriolis force, friction, temperature gradients, and topographic features. These factors contribute to the direction, speed, and variability of wind patterns.
yes temp does affect the strength of magnets. The cooler the magnet the stronger it gets.
It changes based on vehicle, outside temp, and desired inside temp. Pressuse depends on ambient temperature, the higher the temp, the greater the pressure
Air doesn't effect the bounce of the ball much higher air pressure the harder the ball lower pressure softer the ball temp effects it too colder soft warmer harder