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If the pressure and temperature of a gas are held constant and some gas is added to the container or some is allowed to escape a change is can be observed?
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Explain why increasing the temperature of a gas in closed rigid container causes the pressure in the container to increase?
Because the pressure increases The real answer is: Charles's Law. He found that if you increase the temperature of a constant pressure the volume increases also.
What happens to the pressure of a container at a constant pressure and temperature when gas particles are added?
The pressure will increase. The reason is that the more air particles relative the volume the more of a pressure you are going to have, the same thing is true of temperature changes.
What would the effect on temperature and volume be if you changed the number of moles of gas in a container?
In a container the volume remain constant but the pressure increase.
When a container decreases in size what will happen to an amount of gas in the container?
Assuming the temperature stays constant and there is no leakage of gas, then if the container decreases in size then the pressure will increase.
What happens when pressure falls and temperature rises?
Temperature is really just the amount of kinetic energy in the molecules of a substance. If you add more energy by heating the substance then the molecules dash about faster and faster. This increases the pressure if the substance is constrained, like gas in a jar or in a bomb.
If the volume of a container of air is reduced?
If the volume of a container of air is reduced by one half the partial pressure of the oxygen with in the container will be doubled. If the volume of a container of gas is reduced, the pressure inside the container will increase.
When does raising the temperature of gas increase its pressure?
Increasing the temperature of a gas will increase it's pressure ONLY if the volume is held constant.
What is the temperature if the gas pressure is constant?
At isobaric (pressure) expansion (volume increase) the temperature will increase because V is proportional to T for the same amount of gas (closed container) at constant pressure.
When gas in a container expand to twice its volume at constant temperature the gas pressure does what?
The pressure increases. Hopefully, the container is strong enough to withstand the increased pressure. If there is a weakness in the container, gas will escape as a leak.
Explain why increasing the temperature of a gas in closed rigid container causes the pressure in the container to increase?
Because the pressure increases The real answer is: Charles's Law. He found that if you increase the temperature of a constant pressure the volume increases also.
What happens to the pressure of a container at a constant pressure and temperature when gas particles are added?
The pressure will increase. The reason is that the more air particles relative the volume the more of a pressure you are going to have, the same thing is true of temperature changes.
If the temperature of gas in the container decreases what happens to its pressure?
Assuming the volume is kept constant, the pressure will also decrease in this case.
What would the effect on temperature and volume be if you changed the number of moles of gas in a container?
In a container the volume remain constant but the pressure increase.
When a container decreases in size what will happen to an amount of gas in the container?
Assuming the temperature stays constant and there is no leakage of gas, then if the container decreases in size then the pressure will increase.
What happens when solute particles are added to a pure solvent in a closed container at a constant temperature and pressure?
it decreases.
What will cause a decrease in a gas pressure in a closed container?
A loss of gas, or a decrease in temperature.
What does the constant collision of gas molecules against the inside walls of a container produce A Temperature Bdensity C Pressure Ddiffusion?
The constant collision of gas molecules against the inside walls of a container produces pressure which is directly proportional to the number of collisions.
