Question

calculate the total KE (KINETIC ENERGY) of 0.5 mole of ideal gas at zero degree celsius

Answer 1

Molecules have very little mass, but gases contain many, many molecules, and because they all have kinetic energy, the total kinetic energy can pile up pretty fast. Using physics, can you find how much total kinetic energy there is in a certain amount of gas? Yes! Each molecule has this average kinetic energy:

To figure the total kinetic energy, you multiply the average kinetic energy by the number of molecules you have, which is nNA, where n is the number of moles:

NAk equals R, the universal gas constant, so this equation becomes the following:

If you have 6.0 moles of ideal gas at 27 degrees Celsius, here’s how much internal energy is wrapped up in thermal movement (make sure you convert the temperature to kelvin)

This converts to about 5 kilocalories, orCalories (the kind of energy unit you find on food wrappers).

Suppose you’re testing out your new helium blimp. As it soars into the sky, you stop to wonder, as any physicist might, just how much internal energy there is in the helium gas that the blimp holds. The blimp holds 5,400 cubic meters of helium at a temperature of 283 kelvin. The pressure of the helium is slightly greater than atmospheric pressure