A gas bottle contains 7.86×10^23 Oxygen molecules at a temperature of 327.0 K.
1. What is the thermal energy of the gas? (You might need to know Boltzmann's constant: kB = 1.38×10^(-23) J/K.)
2. How much energy is stored in ONE degree of freedom for the whole system?
3. What is the average energy of a single molecule?
4. On average how much energy is stored by ONE degree of freedom for ONE single molecule?

Question

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mavila18 mavila18 · Answer 1 · 2020-04-18T05:30:36+02:00

Answer:

1. E=5320.3J

2. E= 1773.45J

3. E=6.76*10^{-21}J

4. E=2.25*10^{-21}J

Explanation:

1. the thermal energy is given by the formula

[tex]E_T=\frac{3}{2}NK_BT=\frac{3}{2}(7.86*10^{23})(1.38*10^{-23}\frac{J}{K})(327.0K)=5320.3J[/tex]

where KB is the Boltzmann's constant, T is the temperature and N is the number of molecules in the system.

2. Each degree of freedom contains one half of the total energy. Hence, the energy for one degree of freedom is

[tex]E_1=\frac{1}{2}NK_BT=1773.45J[/tex]

3.

[tex]E=\frac{3}{2}K_BT=6.76*10^{-21}J[/tex]

4.

[tex]E=\frac{1}{2}K_BT=2.25*10^{-21}J[/tex]

Hope this helps!!