This falls under the use of the combined gas law equation.
You will use V1/T1 = V2/T2 We know the following:
So we now have:
Cross multiply to get:
Then divide both sides by 9.6 to get approximately 127.91 K
And there you are. Very easy. Hope this helps many.
"Under constant-pressure conditions a sample of hydrogen gas initially at 88C and 9.6 L is cooled until it s final volume is 3.4 L What is the final temperature?"
128
the .
Hydrogen is not known to be malleable, largely because it's a gas at any temperature/presure conditions you're ever likely to see.
Hydrogen gas is a gas at room temperature.
Hydrogen's physical state at room temperature is a gas.
The element hydrogen is in the gas phase at standard temperature and pressure.
the .
Hydrogen is not known to be malleable, largely because it's a gas at any temperature/presure conditions you're ever likely to see.
The element hydrogen does have a metallic form, which exists under conditions of both low temperature and high pressure. Under more usual conditions hydrogen is a gas and as such, has no luster. As a metal it has a metallic luster much like other metals.
It is used to raise the temperature of the water.
Hydrogen is not an efficient conductor of electricity under normal conditions, but can be made to conduct well at a low temperature under very high pressure.
They would have the same volume, as long as they are in the same conditions.
Hydrogen's temperature is mainly 13.8033 kelvins.
Hydrogen gas is a gas at room temperature.
Hydrogen is a gas at room temperature and standard pressure.
Hydrogen undergoes nuclear fusion reaction to form helium in the core of the stars. For this generally a very high temperature ~107 K is required.
the temperature needs to be 60c a nickel catalyst should be used to speed up the reaction
Hydrogen is a gas in normal conditions.