546 K
The math
PV = nRT
where P is pressure, V is volume, n is number of moles of molecule, R is the universal gas constant, and T is absolute temperature.
Solving for R on each side:
P1*V1/T1 = P2*V2/T2
Then solving for T2:
T2 = P2*V2*T1/(P1*V1)
Variables:
P1 = P2
V2 = 2*V1
therefore
T2 = 2*V1*T1/V1
T2 = 2*T1
STP is 273 K so 2*(273 K) = 546 K
Charles's Law states that if temperature increases so does volume.
Mathematically:
V1 / T1 = V2 / T2 if P is kept constant
2.0/300 = 1.0/ T2
With rearranging it can be seen that T2 = 150 K
Look up Boyle's Law, and then apply the equation.
B
^wack
Here's the answer
pv/t=c
Therefore
v/t=c
2/300=1/t2
t2=150K
pv/t=c
Therefore
v/t=c
2/300=1/t2
t2=150K
This question cannot be answered without additional information such as the initial temperature and volume or some indication of the number of moles of gas involved.
The volume would be 150.0 mL.
decrease volume by a factor of three
The temperature is 4 K.
600 K
as the pressure decreases the volume of gas increases at constant temperature
Pressure x Volume = Constant (at a constant temperature).
I'd use a graph showing an exponential decrease: as pressure increases, volume decreases.
As the pressure increases, the volume wil decrease.
decrease
As pressure increases, if temperature is constant, the gas will decrease in volume.
As pressure increases, if temperature is constant, the gas will decrease in volume.
At constant temperature p.V=constant, so pressure INcreases when decreasing the volume.
A loss of gas, or a decrease in temperature.
Temperature increases as pressure increases.
as the pressure decreases the volume of gas increases at constant temperature
Pressure x Volume = Constant (at a constant temperature).
I'd use a graph showing an exponential decrease: as pressure increases, volume decreases.
Pressure will decrease with (because it is inversely proportianal to) volume, if (and only if!) temperature is held constant.
Volume & pressure are inversely proportionate, if temperature stays constant volume would decrease at a factor proporionate to the increase in pressure.
As the pressure increases, the volume wil decrease.
This is a consequence of Boyle-Mariotte law: pV=k. at constant temperature.