You would think that the balloon at the lowest temperature would shrink the fastest due to the simple ideal gas law equation.
PV=nRT
HOWEVER the temperature is not the determining factor in this case. Hydrogen leaks through rubber and the greater the temperature the faster the leakage. So it will be the balloon at the HIGHEST temperature that will leak the fastest. This is also true for Helium. Other gases obey the Ideal Gas Law.
3.5 litre if pressure is kept constant.
0.105 m3
The temperature at which hydrogen fuses is 10,000,000 degrees Kelvin. This is the minimum temperature the core of a proto star has to have to become a true star.
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.
Every gas has a different liquidation temperature based on what element it is. Hydrogen has a liquidation point of 423.17 degrees below zero F. Or 20.28 degrees K. That is 20 degrees above absolute zero.
If I have 45 liters of helium in a balloon at 250 C and increase the temperature of the balloon to 550 C, what will the new volume of the balloon be?
3.5 litre if pressure is kept constant.
A balloon filled with -2 degrees Celsius air will move to a room to a temperature of 8 degrees Celsius because of the collision of the air particles.
the balloons will pop.
You cool the hydrogen below the temperature of -259.34 degrees Celsius.
Through the course of the night, some of the air (or helium or other gas) inside the balloon slowly leaked out. Also, it is very likely that the temperature of the balloon dropped by at least a few degrees. The combination of those two factors reduced the pressure inside the balloon, allowing the rubber or plastic or other material of the balloon to contract, making it shrivel up.
carbon dioxide, nitrogen, helium, hydrogen- these are just a few.
10s of millions of degrees.
The freezing point of H2O2 is -0,43 degrees C or 31 degrees F.
all compound have many different atoms that vibrate. as u increase the temperature of the compound the atoms get more and more excited and therefore vibrate and move more vigerously. this allows them to move further apart and therefore fill a larger area. on the other hand if u cool a compound down the particles becomr less excited and take up a smaller area. the cold balloon is a perfect example of this.
0.105 m3
The freezing point of H2O2 is -0,43 degrees C or 31 degrees F.