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at constant temperature in a closedcontainer the increase in temperature increases the volume of a gas but not the mass.
If there is sufficient mass and material it will contract due to gravity it may then become a star. The type of star depends on how much mass was present
When particles are condensing in a substance, they combine into fewer, larger particles. These larger particles become the liquid's mass at its condensation or boiling temperature.
If pressure remains constant, then volume is directly proportional to temperature. Hot air is quite loud.
Mass holds temperature--the more mass, the better it holds temperature...but, conversely, the longer it takes to get it to temperature all the way through.
Generally, the air temperature of a descending air mass will increase. This is due to the incredible mount of pressure placed on it. Generally, the air mass will also experience an increase in humidity.
The Mass of a substance will not change with a reduction of temperature … even to -273C.
at constant temperature in a closedcontainer the increase in temperature increases the volume of a gas but not the mass.
The temperature and pressure rise.
The temperature will increase the higher the mass of magnesium you add. It will increase the rate of the reaction.
Air temperature rises because the air compresses and warms adiabatically (simply because pressure increases). But no moisture is being added or removed from the air, so the dew point and absolute/specific humidity do not change. What changes is relative humidity, which lowers, due to the warmer air being able to hold more moisture.
Air temperature rises because the air compresses and warms adiabatically (simply because pressure increases). But no moisture is being added or removed from the air, so the dew point and absolute/specific humidity do not change. What changes is relative humidity, which lowers, due to the warmer air being able to hold more moisture.
Air temperature rises because the air compresses and warms adiabatically (simply because pressure increases). But no moisture is being added or removed from the air, so the dew point and absolute/specific humidity do not change. What changes is relative humidity, which lowers, due to the warmer air being able to hold more moisture.
Air temperature rises because the air compresses and warms adiabatically (simply because pressure increases). But no moisture is being added or removed from the air, so the dew point and absolute/specific humidity do not change. What changes is relative humidity, which lowers, due to the warmer air being able to hold more moisture.
Some of the factors affecting the mass of the air are:- temperature, altitude (pressure), gaseous composition (including water vapour), and its velocity (the PV=k). The densest air is probably that descending over the South Pole in winter, because of its low temperature, lack of water vapour, and at the surface, the air pressure at that altitude.
Mass does not change with temperature
Depending on the temperature fat will eventually become a mass of carbon and assorted molecules.