3. One mole of gas has a temperature of 270C which expands adiabatically so that its volume is two times the original volume. Determine the work done by the system if y (gamma) = 1.4 and R = 8.3 J mol-'K-1. %3D

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Help me number 3 please do it step by step.and make sure that I can understand the words and symbols do you use

09:15 a De
7.00 :4G
KB/S
u 79
Title
1. Show that in the isobaric process the ideal gas
satisfies (Cp - Cv) = R
%3D
2. An ideal gas is three moles and a temperature
of 373 K.
a. If the gas expands isothermally, how much
effort does the gas do to reach four times its
initial volume?
b. How much effort should be put on the gas? If
the gas undergoes an adiabatic compression
process so that its absolute temperature
increases to three times the original (R = 8.3 J
mol-'K-1).
c. How much work is done if the gas undergoes
an isovolum process
%3D
3. One mole of gas has a temperature of 270C
which expands adiabatically so that its volume is
two times the original volume. Determine the
work done by the system if y (gamma) = 1.4 and R
= 8.3 J mol-1K-1.
4. A gas having an initial volume of 10 m³ is
heated under isobic conditions until its final
volume becomes 25 m3. If the gas pressure is 2
atm, determine the outer work of the gas! (1 atm
= 1.01 x 10^5 Pa).
+
Edited 09:12
Transcribed Image Text:09:15 a De 7.00 :4G KB/S u 79 Title 1. Show that in the isobaric process the ideal gas satisfies (Cp - Cv) = R %3D 2. An ideal gas is three moles and a temperature of 373 K. a. If the gas expands isothermally, how much effort does the gas do to reach four times its initial volume? b. How much effort should be put on the gas? If the gas undergoes an adiabatic compression process so that its absolute temperature increases to three times the original (R = 8.3 J mol-'K-1). c. How much work is done if the gas undergoes an isovolum process %3D 3. One mole of gas has a temperature of 270C which expands adiabatically so that its volume is two times the original volume. Determine the work done by the system if y (gamma) = 1.4 and R = 8.3 J mol-1K-1. 4. A gas having an initial volume of 10 m³ is heated under isobic conditions until its final volume becomes 25 m3. If the gas pressure is 2 atm, determine the outer work of the gas! (1 atm = 1.01 x 10^5 Pa). + Edited 09:12
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