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A diatomic gas is initially at 280 K when its volume is equal...
A Carnot cycle is conducted using an ideal diatomic gas. Initially, the gas is at temperature...
A Carnot cycle is conducted using an ideal diatomic gas. Initially, the gas is at temperature 25C., pressure of 100KPa and volume of 0.01m3. The system is then compressed isothermally to a volume 0.002m3. From that point, the gas undergoes an adiabatic compression ( with gamma= 1.4), until the volume further reduces to 0.001m3. After that, the system goes an isothermal expansion process to a point where the pressure of the system is 263.8KPa. Then the system continues the cycle...
Now consider a sample of 1 mole of a diatomic ideal gas that is initially at...
Now consider a sample of 1 mole of a diatomic ideal gas that is initially at a temperature of 265 kelvin and volume of .2 m^3. The gas first undergoes an isobaric expansion, such that its temperature increases by 120 kelvin. It then undergoes an adiabatic expansion so that its final volume is .360 m^3 a) What is the initial pressure of the gas, in kPa? b) What is the total heat transfer, Q, to the gas, in J? c)...
please provide brief explanation of each step 5. (20 points) A 4.00-L sample of a diatomic...
please provide brief explanation of each step
5. (20 points) A 4.00-L sample of a diatomic gas with a specific heat ratio 1.40, confined to a cylinder, is carried through a closed cycle. The gas is initially at 1.00 atm and 300 K. First, its pressure is tripled under constant volume. Then, it expands adiabatically to its original pressure. Finally, the gas is compressed isobarically to its original volume. (a) Draw a PV diagram of this cycle (b) Determine the...
Please help me about Physics, Thanks. A sample of 1.00 mole of a diatomic ideal gas...
Please help me about Physics, Thanks. A sample of 1.00 mole of a
diatomic ideal gas is intially at temperature 265K...........
Thermodynamic Processes involving Ideal Gases-in-class worksheet-(5 points) PHYS 181 Question B (B.) A sample of 1.00 mole of a diatomic ideal gas is initially at temperature 265 K and volume 0.200 m. The gas first undergoes an isobaric expansion, such that its temperature increases by 120.0 K. It then undergoes an adiabatic expansion so that its final volume is...
2 moles of compressed air (diatomic gas) in a cylinder under the initial condition T1=573K p1=500kPa....
2 moles of compressed air (diatomic gas) in a cylinder under the initial condition T1=573K p1=500kPa. Found v1=0.019m^3 but can not remember then how to find V2. I think that it has something to do with T1=T2 condition then P2 can be found.... but stuck on how to proceed so with FULL written explanations with working would be much appreciated! All question info on practice exam below - note ISOTHERMAL EXPANSION. for part ii which after an explanation first. Two...
n = 4.04 mol of Hydrogen gas is initially at T = 370.0 K temperature and...
n = 4.04 mol of Hydrogen gas is initially at T = 370.0 K temperature and pi = 2.65×105 Pa pressure. The gas is then reversibly and isothermally compressed until its pressure reaches pf = 7.11×105 Pa. What is the volume of the gas at the end of the compression process? How much work did the external force perform? How much heat did the gas emit? How much entropy did the gas emit? What would be the temperature of the...
n = 4.41 mol of Hydrogen gas is initially at T = 308 K temperature and...
n = 4.41 mol of Hydrogen gas is initially at T = 308 K temperature and pi = 1.77×105 Pa pressure. The gas is then reversibly and isothermally compressed until its pressure reaches pf = 6.63×105 Pa. A.)What is the volume of the gas at the end of the compression process? B.) How much work did the external force perform? C.)How much heat did the gas emit? D.) How much entropy did the gas emit? E.) What would be the...
n = 3.62 mol of Hydrogen gas is initially at T = 338.0 K temperature and...
n = 3.62 mol of Hydrogen gas is initially at T = 338.0 K temperature and pi = 1.77×105 Pa pressure. The gas is then reversibly and isothermally compressed until its pressure reaches pf = 8.96×105 Pa. a. What is the volume of the gas at the end of the compression process? b. How much work did the external force perform? c. How much heat did the gas emit? d. How much entropy did the gas emit? e. What would...
n = 3.36 mol of Hydrogen gas is initially at T = 348 K temperature and...
n = 3.36 mol of Hydrogen gas is initially at T = 348 K temperature and pi = 2.98×105 Pa pressure. The gas is then reversibly and isothermally compressed until its pressure reaches pf = 8.10×105 Pa. Volume of the gas at the end of the compression process is1.20×10-2 m^3. How much work did the external force perform? How much heat did the gas emit? How much entropy did the gas emit? What would be the temperature of the gas,...
physic 3. 2 moles of an ideal gas at 17°C has a pressure of 760mm mercury,...
physic
3. 2 moles of an ideal gas at 17°C has a pressure of 760mm mercury, and is compressed once isothermally and then adiabatically until its volume is halved in each case reversibly and from identical initial conditions). The gas constant is 8.314J/kg. The density of the mercury is 13.60g/cm? [Express all your answers in MKS units e.g. volume in cubic meter, pressure in Pascal, Temperature in Kelvin, etc.) (a) Express the pressure of the gas in units of Pascal....
please provide brief explanation of each step
5. (20 points) A 4.00-L sample of a diatomic gas with a specific heat ratio 1.40, confined to a cylinder, is carried through a closed cycle. The gas is initially at 1.00 atm and 300 K. First, its pressure is tripled under constant volume. Then, it expands adiabatically to its original pressure. Finally, the gas is compressed isobarically to its original volume. (a) Draw a PV diagram of this cycle (b) Determine the...
Please help me about Physics, Thanks. A sample of 1.00 mole of a
diatomic ideal gas is intially at temperature 265K...........
Thermodynamic Processes involving Ideal Gases-in-class worksheet-(5 points) PHYS 181 Question B (B.) A sample of 1.00 mole of a diatomic ideal gas is initially at temperature 265 K and volume 0.200 m. The gas first undergoes an isobaric expansion, such that its temperature increases by 120.0 K. It then undergoes an adiabatic expansion so that its final volume is...
physic
3. 2 moles of an ideal gas at 17°C has a pressure of 760mm mercury, and is compressed once isothermally and then adiabatically until its volume is halved in each case reversibly and from identical initial conditions). The gas constant is 8.314J/kg. The density of the mercury is 13.60g/cm? [Express all your answers in MKS units e.g. volume in cubic meter, pressure in Pascal, Temperature in Kelvin, etc.) (a) Express the pressure of the gas in units of Pascal....
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