

InterviewSolution
Saved Bookmarks
1. |
Internal energy of `n_(1)` mol of hydrogen of temperature `T` is equal to the internal energy of `n_(2)` mol of helium at temperature `2T`. The ratio `n_(1) // n_(2)` isA. `(3)/(5)`B. `(2)/(3)`C. `(6)/(5)`D. `(3)/(7)` |
Answer» Correct Answer - C c. Internal energy of `n` moles of an ideal gas at temperature ture `T`is given by `U = (f)/(2) mRT` (f = degrees of freedom) `U_(1) = U_(2)` `f_(1) n_(1) T_(1) = f_(2) n_(2) T_(2)` `:. (n_(1))/(n_(2)) = (f_(2) T_(2))/(f_(1) T_(1)) = (3 xx 2)/(5 xx 1) = (6)/(5)` Here, `f_(2) = ` degrees of freedom of `He = 3` and `f_(1) = ` degrees of freedom of `H_(2) = 5` |
|