Here\'s the beginning information, if needed: Use the worked example above to he
ID: 1373664 • Letter: H
Question
Here's the beginning information, if needed:
Use the worked example above to help you solve this problem. A balloon contains 4.00 moles of a monatomic ideal gas. As energy is added to the system by heat (say, by absorption from the Sun), the volume increases by 25% at a constant temperature of 33.0
Suppose that subsequent to this heating, 1.80 X 10^4 J of thermal energy is removed from the gas isothermally. Find the final volume in terms of the initial volume of the example, V0. (Hint: Follow the same steps as in the example, but in reverse. Use the values in the Practice It section. Also note that the initial volume in this exercise is 1.25 V0.) Here's the beginning information, if needed: Use the worked example above to help you solve this problem. A balloon contains 4.00 moles of a monatomic ideal gas. As energy is added to the system by heat (say, by absorption from the Sun), the volume increases by 25% at a constant temperature of 33.0°C. Find the work Wenv done by the gas in expanding the balloon, the thermal energy Q transferred to the gas, and the work W done on the gas. Wenv = 2.27e3 J Q = 2.27e3 J W = -2.27e3 JExplanation / Answer
Hi there!
If this is an isothermal process, there won