Answer:
(a). The change in the average kinetic energy per atom is [tex]1.57\times10^{-21}\ eV[/tex].
(b). The change in vertical position is 2413 m.
Explanation:
Given that,
Mass = 40.0 u
The increased temperature from 286 K to 362 K.
(a). We need to calculate the change in the average kinetic energy per atom
Using formula of kinetic energy
[tex]\Delta K.E=\dfrac{3}{2}k\Delta t[/tex]
Put the value into the formula
[tex]\Delta K.E=\dfrac{3}{2}\times1.38\times10^{-23}\times(362-286)[/tex]
[tex]\Delta K.E=1.57\times10^{-21}\ eV[/tex]
(b). The change in potential energy of the container due to change in the vertical position
We need to calculate the change in vertical position
Using formula of potential energy
[tex]\Delta U=mg\Delta h[/tex]
[tex]\Delta h =\dfrac{\Delta U}{mg}[/tex]
[tex]\Delta h=\dfrac{1.57\times10^{-21}}{40.0\times1.66\times10^{-27}\times9.8}[/tex]
[tex]\Delta h=2412.7=2413\ m[/tex]
Hence, (a). The change in the average kinetic energy per atom is [tex]1.57\times10^{-21}\ eV[/tex].
(b). The change in vertical position is 2413 m.
