8 is the new volume of the gas.
V1/T1 = V2/T2 (Charles' Law)
T is in Kelvin. Celsius temp plus 273.15 = K
T1 = 14 +273
= 287 K
T2 = 29 + 273
= 303 K
4.5 / 287 = V2 / 303
V2 = 4.75 L
= 4.8 L
pV = nRT
p = pressure
V = volume
n = number of moles
R = gas constant
T = temperature (in Kelvin)
In this case, the number of moles remains the same, as does the gas constant (it IS a constant, after all) and pressure. The only things changing are the volume and temperature. This simplifies the equation to:
4 cubic meters gas = 200 K (-73 degrees celsius)
Therfore:
200K/4 = 400K/x
x = 8 cubic meters
A sample of argon gas at a pressure of 715 mmHg and a temperature of 26 degrees Celsius occupies a volume of 8.97 L. If the gas is heated at a constant pressure of 71 degrees Celsius, what will be the volume of the gas sample (in liters)
The gas law states that P1V1/T1 = P2V2/T2 where T is Kelvins, that is C + 273
In your example we have
745(5.3)/299 = P2(5.3)/363
P2 = 904.5 mm Hg
I am trying to figure this out too
60 cubic meters.
8 is the new volume of the gas.
a+
PAr=.826atm
The Celsius scale is in fact based on water, it freezes at 0 degrees and boils at 100 degrees Celsius at 760 mm Hg pressure.
sfaas
Five degrees Celsius is colder.
426 degrees Celsius = 798.8 degrees Fahrenheit
360 degrees Fahrenheit = 182.2 degrees Celsius
468ml
By decreasing the pressure with the volume kept constant.
By decreasing the pressure with the volume kept constant.
The amount of any given gas that will dissolve in a liquid at a given temperature is directly proportional to the partial pressure of that gas.
100 degrees Celsius or 212 degrees Fahrenheit
Assuming constant pressure, the answer is:density = 0.789 x 20/15 = 1.052 kg/litre
Henry's law constant for Carbon Dioxide at 20 degrees Celsius is: 1,6*10^3 ATM
A fixed quantity of gas at a constant pressure exhibits a temperature of 27 degrees Celsius and occupies a volume of 10.0 L. Use Charles's law to calculate: the temperature of the gas in degrees Celsius in atmospheres if the volume is increased to 16.0 L
Rigid container holds hydrogen gas at a pressure of 3.0 atmospheres and a temperature of 2 degrees Celsius. The pressure if the temperature is raised to 10 degrees Celsius will be 15 atmospheres based on the law of pressure for gas.
The freezing point of water is zero degrees Celsius at standard pressure.
100 degrees Celsius is the boiling point of water, which happens to be 212 degrees Fahrenheit at standard pressure
The Celsius scale is in fact based on water, it freezes at 0 degrees and boils at 100 degrees Celsius at 760 mm Hg pressure.