uestions, and the best of the two 6 pt questions.] Consider an ideal gas with radiation. The gas is at T = 3000K and is not ionized. If the H and He abundances are 0.695 and 0.284, respectively, calculate the total pressure of the gas. [10 pts] Proval: Pin + Prad + Pe = P. Prad t L Prod ±aT" -10.02-21317.94
uestions, and the best of the two 6 pt questions.] Consider an ideal gas with radiation. The gas is at T = 3000K and is not ionized. If the H and He abundances are 0.695 and 0.284, respectively, calculate the total pressure of the gas. [10 pts] Proval: Pin + Prad + Pe = P. Prad t L Prod ±aT" -10.02-21317.94
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please complete the problem step by step, showing all formulas used. I am stuck and need help
![uestions, and the best of the two 6 pt questions.]
Consider an ideal gas with radiation. The gas is at T = 3000K and is not ionized. If the H
and He abundances are 0.695 and 0.284, respectively, calculate the total pressure of the
gas. [10 pts]
Proval:
Pin + Prad + Pe = P. Prad
t
L
Prod ±aT" -10.02-21317.94](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F62a79166-ba2c-43d7-9fa1-94c5c5be2063%2F2208acda-131e-45ae-80a3-131b39c1d4f8%2Fmra80g_processed.jpeg&w=3840&q=75)
Transcribed Image Text:uestions, and the best of the two 6 pt questions.]
Consider an ideal gas with radiation. The gas is at T = 3000K and is not ionized. If the H
and He abundances are 0.695 and 0.284, respectively, calculate the total pressure of the
gas. [10 pts]
Proval:
Pin + Prad + Pe = P. Prad
t
L
Prod ±aT" -10.02-21317.94
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