Your question is absolutely rubbish .. Seriously .. Check it out and edit soon ..
However 116.6 degrees fahrenheit is the equivalent for 47 degree Celsius ....
Hydrogen probably cannot exist for a long time on Mars. As you suggest this is because of the planet's fairly low gravity and escape velocity. It's easier for a very light atom or molecule, such as hydrogen, to reach the planet's escape velocity, caused by collisions in the atmosphere.
Hydrogen gas has the lowest mass out of ammonia, bromine, hydrogen and chlorine, so it would have the highest velocity for a given kinetic energy.
Because the temperature is high enough that the thermal energy of a molecule or atom means that its velocity is higher than the escape velocity (about 7 miles/sec for the Earth). For a given energy, velocity2 is proportional to energy/mass.
Velocity.
Velocity of molecular movement is lower in larger molecules because it takes more energy to get the larger molecule moving. On the other hand, smaller molecules move more rapidly causing its velocity to be higher.
well it is because the hydrogen molecule = the velocity of molecules in hydrogen which gives you the answer to your question.
Hydrogen probably cannot exist for a long time on Mars. As you suggest this is because of the planet's fairly low gravity and escape velocity. It's easier for a very light atom or molecule, such as hydrogen, to reach the planet's escape velocity, caused by collisions in the atmosphere.
rms speed of certain gas molecule at 27C is found to be 1930m/s.Estimate the gas?
hydrogen
Molecular velocity is defined as the velocity of a each molecule in a certain sample of gas. It can be expressed by means of root-mean-square velocity, average velocity and most probable velocity.
Hydrogen gas has the lowest mass out of ammonia, bromine, hydrogen and chlorine, so it would have the highest velocity for a given kinetic energy.
1930 m/sec
Not as water. But water is made of hydrogen and oxygen, so... The mass of hydrogen gas is low enough that the kinetic theory of gases describes an average velocity close to the escape velocity from Earth. At upper atmosphere temperatures, there is insufficient thermal energy to boost significant amounts of anything except hydrogen to escape velocity. Losing hydrogen will decrease the amount of water, so this would be a down side of making lots of hydrogen for powering cars (and such). "Spills" would / could reduce the amount of hydrogen on Earth.
3.16:1
given the same amount of kinetic energy a smaller molecule would have a high velocity according to k=mv^2
You give velocity to a satellite through rockets. The rockets use some powerful fuel - for example, a mix of hydrogen and oxygen - to push them into orbit.
Jacque C. Morrell has written: 'The velocity of inversion of sucrose as a function of the thermodynamic concentration of hydrogen ion ..' -- subject(s): Accessible book, Hydrogen, Ions, Sugar