When temperature increases, pressure also increases.
A decrease in temperature will cause the gas molecules to lose kinetic energy and slow down, resulting in a decrease in pressure. Conversely, an increase in temperature will cause the gas molecules to gain kinetic energy and move faster, leading to an increase in pressure. This relationship is described by the ideal gas law.
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The Joule-Thomson effect is temperature dependent. It describes the change in temperature of a gas as it expands or is compressed without doing external work. If the gas undergoes adiabatic expansion (no heat exchange with surroundings), its temperature will change depending on its initial temperature, pressure, and the nature of the gas.
Density of a liquid is indirectly proportional to the temperature. When the temperature raises, the density of the liquid decreases. Therefor the temperature has an effect on water density.
A large temperature change can affect a barometer's accuracy by expanding or contracting the air trapped in the barometer, which can in turn change the pressure readings. It's important to place the barometer in a stable temperature environment to maintain its accuracy.
A stress could be adding/taking away reactant/product. Or a change in temp and pressure (for gases). It depends on the system. Some of them get ulcers, but others just start drinking heavily. A system at equilbrium responds to a stress by shifting left or right (toward the reactants or toward the products) so as to minimize the effect of the disturbance. This is called LeChatelier's Principle. Some stresses can be a temperature change, a change in the concentration of one of the reactants or products, and a pressure change (if the reaction involves any reactants or products in the gaseous phase).
No.
Temperature is not directly tied to volume, its related to pressure. Increasing the temperature will increase the pressure--only if volume is held constant. That is were volume and temperature are related, through pressure. However, if you increase the volume it does not change the temperature.
Latent heat of water is the heat required to change its state at a particular temperature BECAUSE of the pressure at which the water is at at the point of fusion or evaporation.The latent heat is not affected by temperature (in fact there is no temperature change during absorption of latent heat) it is affected by the pressure acting on a substance. As the pressure increases, the latent heat (of evaporation) decreases, consequently with the change in pressure there is also a different temperature at which the evaporation takes effect, higher pressure, higher temperature at the evaporation point.
The Joule-Thomson effect is temperature dependent. It describes the change in temperature of a gas as it expands or is compressed without doing external work. If the gas undergoes adiabatic expansion (no heat exchange with surroundings), its temperature will change depending on its initial temperature, pressure, and the nature of the gas.
Temperature, pressure, and common ion effect
temperature and pressure
temperature humidity and elevation
The atmospheric pressure has no effect on the speed of sound when the temperature is constant. The air pressure has no influence on the sound.
Yes, temperature have generally an important effect.
temperature, pressure. flow
As temperature increases, the volume of air also increases because the molecules in the air gain kinetic energy and move further apart. This relationship is described by the ideal gas law, which states that pressure and volume are directly proportional to temperature when the amount of gas and pressure are constant.
When temperature is increased the amount of molecules evaporated is increasef and as a consequence condensation is also increased so vapour pressure increases.
it has an effect on waters matter making the temperture of the water to be contained