A fixed amount of monotonic ideal gas starts at 2.0 m3 and 6.0 × 105 Pa and exactly 0 °C when it is warmed at constant pressure to 4.0 m3. i)What was the temperature after this expansion? (Answer in Kelvin) ii) What was the change in internal energy of the gas for this expansion? (In +/- Joules) iii) How much thermal energy was transferred into the gas (so, heat in) during this expansion? (In +/- Joules)

A fixed amount of monotonic ideal gas starts at 2.0 m3 and 6.0 × 105 Pa and exactly 0 °C when it is warmed at constant pressure to 4.0 m3. i)What was the temperature after this expansion? (Answer in Kelvin) ii) What was the change in internal energy of the gas for this expansion? (In +/- Joules) iii) How much thermal energy was transferred into the gas (so, heat in) during this expansion? (In +/- Joules)

Related questions

Q: How much work is done on the gas in the process as shown, in Joules? Vf = 85 cm3. (1.00 cm3 =…

A: For an isobaric process work done is define asWhereP is the constant pressureAnd dV is change in…

Q: 67) 2 cubic meter containing 100 mol of a diatomic gas and at a pressure of 6 ATM is allowed to…

Q: i) A mole of an ideal gas of vibrating diatomic molecules at pressure P is compressed from an…

Q: 6) A sample of gas is compressed to one-third of its initial volume at a constant pressure of 1.25 ×…

A: Write the given values with the suitable variables. Vf=13ViVi=3VfP=1.25×105 PaW=100 J Here, Vf, Vi,…

Q: A car tire contains 0.0360 m3 of air at a pressure of 2.70 ✕ 105 N/m2 (about 39 psi). How much more…

A: The ideal gas equation can be written as PV=nkT 1 The…

Q: A gas expands from 1.00 m3 to 4.00 m3. If the expansion is isobaric at a pressure of 2.00 x 105 Pa,…

Q: the graph below, each unit on the horizontal axis is 2.20 x 103 m³ and each unit on the vertical…

Q: If you have 4 moles of a monoatomic ideal gas, how much heat is required to raise the temperature of…

Q: A fixed amount of monotonic ideal gas starts at 6.0 m3 and 6.0 × 105 Pa and exactly 0 °C when it is…

A: Given: Monoatomic ideal gas Initial volume V1=6 m3 Final volume V2=8 m3 Pressure P=6×105 Pa…

Q: 3.20 moles of an ideal gas is contained in a piston with at a volume of 275 cm³ and temperature of…

A: Given: In this question, the given values are, The given value of n is 3.20 and the given volume…

Q: 4. For an ideal gas starting at point O, during which of the thermo-dynamic processes shown does the…

A: Given:

Q: In the graph below, each unit on the horizontal axis is 1.60 10-3 m3 and each unit on the vertical…

A: Page 1

Q: 1. During the isobaric expansion from A to B represented below, -150 J of heat is removed from the…

Q: During the isobaric expansion from A to B represented below, -80 J of heat is removed from the gas.…

A: Heat removed = -110 J

Q: Two moles (2.0 mol) of ideal gas at 8.0 × 105 Pa are contained in an cylinder with a movable piston.…

Q: 13. How much work is necessary to compress an ideal diatomic gas adiabatically from a pressure of 1…

A: The objective of this question is to calculate the work done in compressing an ideal diatomic gas…

Q: Consider a balloon of volume 2.0 m3 that contains 3.5 moles of helium gas at a temperature of 300 K.…

Q: A cylinder contains a gas; in its upper part it has a plunger (whose mass is negligible) which…

A: According to 1st law of thermodynamics, heat input to a thermodynamic system is used in change in…

Q: Compute the change in internal energy of a 1-kmol sample of dry air if its tempera- re is raised by…

A: Given: The moles of gas in the sample of dry air are 1 kmol. The temperature of dry air is raised by…

Q: A fixed amount of monotonic ideal gas starts at 6.0 m3 and 6.0 × 105 Pa and exactly 0 °C when it is…

A: Initial Volume,v1= 6.0 m3 Final Volume,v2= 8.0m3 Given Pressure= 6.0 × 105 Pa Initial Temp, T1=…

Q: 31) In a given reversible process, the temperature of an ideal gas is kept constant as the gas is…

Q: In a quasi-static isobaric expansion, 475 J of work are done by the gas. If the gas pressure is 0.9…

A: Given:Work = 475 Jgas pressure = 0.9 atminitial volume = 18L Solution:- Convert first the pressure…

Question

A fixed amount of monotonic ideal gas starts at 2.0 m³ and 6.0 × 10⁵ Pa and exactly 0 °C when it is warmed at constant pressure to 4.0 m³.

i)What was the temperature after this expansion? (Answer in Kelvin)

ii) What was the change in internal energy of the gas for this expansion? (In +/- Joules)

iii) How much thermal energy was transferred into the gas (so, heat in) during this expansion? (In +/- Joules)

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Step 5

Step 6

Trending now

This is a popular solution!

Step by step

Solved in 6 steps

SEE SOLUTION Check out a sample Q&A here

Similar questions

4) A ground source heat pump heats a building by extracting heat from the ground and pumping it into the building. Define: Qc = heat extracted from the ground, Qn= heat pumped into the building, W = electric energy used by the heat pump, Tc= temperature of the ground, T = temperature of building (Qc, Qn, and W are positive by definition). Assume Tr > Tc. a) Draw a diagram showing energy flow in and out of the heat pump. b) Write a general expression for the change AS in the entropy of the "universe", that is the heat pump plus the cold and hot reservoirs, in terms of the quantities defined above. Now assume ideal (reversible) operation, and take Te= 10 °C and Tp= 20 °C. What is the coefficient of performance (ČOP) of the heat pump? By what factor would this change if we had Tc = 0 °C instead?
6
A fixed amount of monotonic ideal gas starts at 6.0 m3 and 6.0 × 105 Pa and exactly 0 °C when it is expanded at constant pressure to 8.0 m3. ii) What was the change in internal energy of the gas for this expansion? a) – 4.0 MJ b) – 2.0 MJ c) 0.0 MJ d) + 2.0 MJ e) + 4.0 MJ
3.33 moles of an ideal gas at 20◦C undergoes an isobaric expansion from 2.33 m3to 4.40 m3.How much heat is transferred to the gas during this process?
question in photo please
10-