The volume is now 1/2 of the initial volume.
the volume doubles (apex)
T will double
If the number of moles doubles, the volume will also double, all things being equal.
The initial pressure is halved. Use Boyle's law that relates pressure & volume at a constant temperature. P1V1 = P2V2 In this case the V1(initial volume) is doubled so V2 = 2V1 P2 = P1V1/V2 = P1V1/2V1 P2 = (1/2)*P1
Gases Boyle's law states that the Volume of a given amount of gas at constant Temperature varies inversely proportional to Pressure. You have a given volume of gas, and you double its pressure keeping Temperature constant, the volume will reduce by half.
The units for the gas constant of 0.0821 are liter-atmospheres/mole-Kelvin
The Universal Gas Constant is 8.314 J/K/Mole
The volumes doubles
If the number of moles doubles, the volume will also double, all things being equal.
The product PV remain constant in a closed system at constant temperature.
The initial pressure is halved. Use Boyle's law that relates pressure & volume at a constant temperature. P1V1 = P2V2 In this case the V1(initial volume) is doubled so V2 = 2V1 P2 = P1V1/V2 = P1V1/2V1 P2 = (1/2)*P1
the ideal gas constant D:
It is a universal constant used for all gases.
An ideal capacitor is characterized by a single constant value for its capacitance.
It is the value of the constant which appears in an equation relating the volume, temperature and pressure of an ideal gas. Its value is 8.314 4621 Joules/(Mol K).
It is a universal constant used for all gases.
The mouth is an ideal habitat for bacteria, as it is moist, has a constant temperature and a constant supply of nutrients.
The Universal Gas Constant is 8.314 J/K/Mole
In a perfectly flexible and expandable container (pressure is constant) the volume of an ideal gas will double as the absolute temperature doubles. For a non-ideal gas and non-perfect container, your results will vary but will always be somewhat less than double.