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can you help me with this plesae?
O 3.5/7 points Previous Answers Tipler6 19 PO34 My...
0r4 points| Previaus Answers Tipleri 19 P035 Mty Notes Ask Your An ideal diatomic gas follows...
0r4 points| Previaus Answers Tipleri 19 P035 Mty Notes Ask Your An ideal diatomic gas follows the cycle shown in the figure. The temperature of state 1 is 340 K. Let P1 -3.0 atm and P2 3.5 atm. 100 200 300 (a) Determine the temperatures of the other three states of the cycle. T2- 268.3 Ta= 689.9 (b) Determine the efficiency of the cycle. Use the ideal-gas law to find the temperatures of each state of the gas. You can...
16. 1.56/6.25 points | Previous Answers KatzPSE1 21 P080 My Notes Ask Your Teacher The PV...
16. 1.56/6.25 points | Previous Answers KatzPSE1 21 P080 My Notes Ask Your Teacher The PV diagram in the figure below shows a set of thermodynamic processes that make up a cycle ABCDA for a monatomic gas, where AB is an isothermal expansion occurring at a temperature of 390 K. There are 1.95 mol of gas undergoing the cycle with PA 1.01 x 106 Pa, PB 5.40x 105 Pa, and Pc 2.02 x 105 Pa. Ps (a) Find the volumes...
One mole of an ideal mono-atomic gas is in a state A characterized by a temperature...
One mole of an ideal mono-atomic gas is in a state A characterized by a temperature TA. The gas is then subjected to a succession of three quasi-static reversible processes: An isothermal expansion A → B, which increases the volume by a factor y. The expansion factor is therefore y = VB / VA> 1. An adiabatic compression B → C which increases the pressure by a factor w. The compression factor is w = pC / pB> 1. A...
Can you please help me with a detailed solution to this problem? An ideal air-standard Brayton...
Can you please help me with a detailed solution to this
problem?
An ideal air-standard Brayton cycle operates at steady state with compressor inlet conditions of 250 K and 25 kPa. The compressor pressure ratio is 10. The turbine inlet temperature is 1800 K. For the cycle: (a) the heat addition and work done in each process, in kJ/kg, (b) the thermal efficiency (c) the back work ratio
The working substance in an engine is 3.0 x 1023 He atoms. Initially in state 1,...
The working substance in an engine is 3.0 x 1023 He atoms. Initially in state 1, the gas volume is V1=1.5 x 10-3 m3 and the pressure is P1=1.00 x 106 N/m2 . The gas undergoes a cycle that consists of four processes: (1→2) an isothermal expansion, (2→3) an isobaric compression until the volume is V3=2.00 x 10-3 m3 and the pressure is 2.00 x105 N/m2 , (3→4) an isothermal compression until the volume is V4=V1, and (4→1) an isochoric...
CAN YALL PLEASE HELP ME I HAVE 4 HOURS TO DO THESE!! THANK YOU!! Question 1...
CAN YALL PLEASE HELP ME I HAVE 4 HOURS TO DO THESE!! THANK YOU!! Question 1 A mass of 4 kilograms of air in a piston-cylinder assembly undergoes two processes in series from an initial state where p1 = 0.3 MPa, T1 = 211°C: Process 1–2: Constant-temperature expansion until the volume is twice the initial volume. Process 2–3: Constant-volume heating until the pressure is again 0.3 MPa. Assuming ideal gas behavior, determine the temperature at state 3, in kelvin. _________________________________________________...
Can you please help me with a detailed solution to this problem? The principal states in...
Can you please help me with a detailed solution to this
problem?
The principal states in a cold air-standard Diesel cycle are given below. The mass of air is 1 kg. The Cv of air is 0.7 kJ/kg.K and k=1.4. Determine: (a) the heat addition and work done in each process, in kJ. (b) the net work output, in kJ. (c) the thermal efficiency. State 1: p = 100 kPa; T = 300 K State 2: p= 2000 kPa State...
can someone help me with number 17.35 and 17.49? thank you Toe Boyle's law to determine...
can someone help me with number 17.35 and 17.49? thank
you
Toe Boyle's law to determine the final - 33 A 220-L cylinder contains 150 atm. If the gas is allowed to opposing pressure of 1.0 atm, how The expansion will stop when the in palision will stop Il equals the external pressure. determine the final volume. nder contains an ideal gas at a pressure of 1f the gas is allowed to expand against a constant pressure of 1.0 atm,...
Need help with 2.3, my lecturers answers say that the efficiency is 55.9% and the T2s...
Need help with 2.3, my lecturers answers say that the efficiency
is 55.9% and the T2s is 439.3K. If this is incorrect
please elaborate on why, if it is correct please show working.
Thank you!
0.01 kg of Air at 300 K and 100 kPa (state 1) is compressed in a piston cylinder (closed system). The compression process is a polytropic process. The pressure and temperature of the air at the end of the compression process are 380 kPa and...
+ -/24 points Complete Analysis of Heat Engine Goal Solve for the efficiency of a heat...
+ -/24 points Complete Analysis of Heat Engine Goal Solve for the efficiency of a heat engine using a five-step process the includes: 1. Making a state table. 2. Making a process table. 3. Calculating the totals for Work, Heat, and Internal-Energy-Change. 4. Identifying the heat input (hot reservoir) and output (cold reservoir). 5. Calculating the efficiency of the engine. isothermal Problem Shown in the figure to the right is a cyclic process undergone by a heat engine. Your heat...
0r4 points| Previaus Answers Tipleri 19 P035 Mty Notes Ask Your An ideal diatomic gas follows the cycle shown in the figure. The temperature of state 1 is 340 K. Let P1 -3.0 atm and P2 3.5 atm. 100 200 300 (a) Determine the temperatures of the other three states of the cycle. T2- 268.3 Ta= 689.9 (b) Determine the efficiency of the cycle. Use the ideal-gas law to find the temperatures of each state of the gas. You can...
16. 1.56/6.25 points | Previous Answers KatzPSE1 21 P080 My Notes Ask Your Teacher The PV diagram in the figure below shows a set of thermodynamic processes that make up a cycle ABCDA for a monatomic gas, where AB is an isothermal expansion occurring at a temperature of 390 K. There are 1.95 mol of gas undergoing the cycle with PA 1.01 x 106 Pa, PB 5.40x 105 Pa, and Pc 2.02 x 105 Pa. Ps (a) Find the volumes...
Can you please help me with a detailed solution to this
problem?
An ideal air-standard Brayton cycle operates at steady state with compressor inlet conditions of 250 K and 25 kPa. The compressor pressure ratio is 10. The turbine inlet temperature is 1800 K. For the cycle: (a) the heat addition and work done in each process, in kJ/kg, (b) the thermal efficiency (c) the back work ratio
Can you please help me with a detailed solution to this
problem?
The principal states in a cold air-standard Diesel cycle are given below. The mass of air is 1 kg. The Cv of air is 0.7 kJ/kg.K and k=1.4. Determine: (a) the heat addition and work done in each process, in kJ. (b) the net work output, in kJ. (c) the thermal efficiency. State 1: p = 100 kPa; T = 300 K State 2: p= 2000 kPa State...
can someone help me with number 17.35 and 17.49? thank
you
Toe Boyle's law to determine the final - 33 A 220-L cylinder contains 150 atm. If the gas is allowed to opposing pressure of 1.0 atm, how The expansion will stop when the in palision will stop Il equals the external pressure. determine the final volume. nder contains an ideal gas at a pressure of 1f the gas is allowed to expand against a constant pressure of 1.0 atm,...
Need help with 2.3, my lecturers answers say that the efficiency
is 55.9% and the T2s is 439.3K. If this is incorrect
please elaborate on why, if it is correct please show working.
Thank you!
0.01 kg of Air at 300 K and 100 kPa (state 1) is compressed in a piston cylinder (closed system). The compression process is a polytropic process. The pressure and temperature of the air at the end of the compression process are 380 kPa and...
+ -/24 points Complete Analysis of Heat Engine Goal Solve for the efficiency of a heat engine using a five-step process the includes: 1. Making a state table. 2. Making a process table. 3. Calculating the totals for Work, Heat, and Internal-Energy-Change. 4. Identifying the heat input (hot reservoir) and output (cold reservoir). 5. Calculating the efficiency of the engine. isothermal Problem Shown in the figure to the right is a cyclic process undergone by a heat engine. Your heat...
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