Different gases will expand at the same rate. At twice the absolute temperature, the volume will also double (assuming the pressure stays the same). At very high pressures or very low temperatures there may be some deviations from this rule, which is part of the general gas law; but under most normal circumstances, most gases behave more or less like an "ideal gas".
Different gases will expand at the same rate. At twice the absolute temperature, the volume will also double (assuming the pressure stays the same). At very high pressures or very low temperatures there may be some deviations from this rule, which is part of the general gas law; but under most normal circumstances, most gases behave more or less like an "ideal gas".
Different gases will expand at the same rate. At twice the absolute temperature, the volume will also double (assuming the pressure stays the same). At very high pressures or very low temperatures there may be some deviations from this rule, which is part of the general gas law; but under most normal circumstances, most gases behave more or less like an "ideal gas".
Different gases will expand at the same rate. At twice the absolute temperature, the volume will also double (assuming the pressure stays the same). At very high pressures or very low temperatures there may be some deviations from this rule, which is part of the general gas law; but under most normal circumstances, most gases behave more or less like an "ideal gas".
Being made up of infra red rays which will move in all directions and refract when hitting paticles heat will always expand
When heat is applied to a gas, its particles gain energy and move faster, increasing their kinetic energy. This causes the gas to expand and its pressure to increase. If enough heat is applied, the gas may change phase and become a plasma.
Applying heat to a gas will make it expand. If the volume of the gas is restricted (i.e. it cannot expand) then the pressure will increase.
A gas can either absorb or release heat depending on the situation. When a gas absorbs heat, it can increase in temperature and expand. When a gas releases heat, it can decrease in temperature and contract.
heat causes gases to expand
heat causes gases to expand
Heat causes ojects to expand . The object also will melt if it is a solid , and will turn into gas if heated.
Yes, because the gas molecules in the tennis ball expand. When the molecules expand there energy increases.
Yeast expands because in the heat, it eats and digests sugar, and then it produces carbon dioxide gas.
heat from the sun causes the gas inside the balloon to expand.
All balloons expand in heat.
To expand rubber effectively, you can heat it to a high temperature. This causes the rubber molecules to move more freely and expand. Another method is to mix the rubber with a blowing agent, which releases gas when heated, causing the rubber to expand.