Isobaric Process, finding Change in Internal Energy

yaylee · Dec 16, 2012

Homework Statement

Assume nitrogen gas (N2) is an ideal gas. n = 7.57 moles of N2 gas are heated isobarically (at constant pressure) from temperature To = 18.6 oC to temperature Tf = 50.9 oC. Find:

c) ΔIE, the change in internal energy of the N2 gas

Homework Equations

Change in IE = Change in KE = (3/2)nRΔT

The Attempt at a Solution

Since this is an ideal gas, only Kinetic Energy considerations need to be accounted for, or,
Change in KE = Change in IE = (3/2)(7.57)(8.314)(50.9-18.6) = 3,049.29 Joules

Once again, thanks for the help! I think I am doing the correct thing, or am I going crazy? =)

ehild · Dec 16, 2012

The internal energy of the two-atomic ideal gas contains not only the translational KE, but also the energy connected to rotation. Generally, the internal energy of ideal gases is f/2 nRT where f is the degrees of freedom, 5 for a two-atomic molecule.

ehild

TSny · Dec 16, 2012

(3/2)nRΔT accounts for only the change in translational KE of the molecules. N₂ is not a monatomic gas, so the molecules can have additional motion besides translational motion.

Isobaric Process, finding Change in Internal Energy

Homework Statement

Homework Equations

The Attempt at a Solution

1. What is an isobaric process?

2. How is the change in internal energy calculated in an isobaric process?

3. Why is the change in internal energy different in an isobaric process compared to an isothermal process?

4. Can the change in internal energy be negative in an isobaric process?

5. How does an isobaric process relate to real-life situations?

Similar threads

Hot Threads

Recent Insights