Estimate the average thermal energy of a helium atom at (i) room temperature `(27^(@)C)` (ii) the temperature on the surface of the sun (6000K), (iii) the temperature of 10 million kelvin (the typical core temperature in the case of a car)

Estimate the average thermal energy of a helium atom at (i) room temperature (27^(@)C) (ii) the temperature on the surface of the sun (6000K), (iii) the temperature of 10 million kelvin (the typical core temperature in the case of a star)

Estimate the average thermal energy of a helium atom at (i) room temperature ( 27 ^(@)C ). (ii) the temperature on the surface of the Sun (6000 K), (iii) the temperature of 10 million kelvin (the typical core temperature in the case of a star).

Estimate the average thermal energy of a helium atom at (i) room temperature ( 27 ^(@)C ). (ii) the temperature on the surface of the Sun (6000 K), (iii) the temperature of 10 million kelvin (the typical core temperature in the case of a star).

Estimate the average thermal energy of a helium atom at (i) room temperature 27^(@)C and (ii) the temperature of the surface of the sun ( 6000K)

Estimate the average thermal energy of a helium atom at room temperature (27 ^@C)

Estimate the average thernal energy of a helium atom at (i) room temperature 27^(@)C (ii) the temperature on the surface of the sun (6000k) and (iii) the typical core temperature of the star (10 million kelvin).

The average thermal energy of a oxygen atom at room temperature ( 27^(@)C )

Estimate the average energy of a helium atom at (i) room temperature (27^(@)C) (ii) the temperature on the surface of the sun (6000K) and (iii) the temperature of 10^(7) K. (k_(B)1.38xx10^(-23)JK^(-1))