Part C) Determine the value of P3.
Part D) Determine the value of P4.
Part E) Determine the value of V3.
Part F) Determine the value of V4.
Please, answer Part C,D,E,F
Thank you!
Homework Answers
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Part C) Determine the value of P3. Part D) Determine the value of P4. Part E) Determine the value of V3. Part F) Determ...
6) In a reversible Carnot heat engine which operates between reservoirs at Thigh 500 K and...
6) In a reversible Carnot heat engine which operates between reservoirs at Thigh 500 K and Tlow = 300 K with a net power output of 600 W, methane gas is used as working fluid. Methane can be considered here as an ideal gas with M 16.043 g mol-, and average heat capacities c 4 R and cp- 5 R. The cycle operates in a steady state with a substance flow rate of 0.375 mol s . Before the isothermal...
My questions: What are the volume of c and d? How do you calculate the delta...
My questions:
What are the volume of c and d?
How do you calculate the delta S and delta S surroundings of
each step?
Consider the reversible Carnot cycle shown below. a PA Isothermal expansion Thoil Adiabatic compression Toold Pressure Thot PE Adiabatic expansion Thot cold Po- Isothermal compression Trot Toold Po Toold va Vc Vd Vo Volume The "working substance" (gas inside the piston, in red above) is 3.10 moles of a monatomic ideal gas, with Cvm = 3R/2....
Part A Constants | Periodic Table The molar heat capacity Cp,m of SO2 (g) is described by the fol...
Please help me solve for delta H, I can't get it.
Thank you!
Part A Constants | Periodic Table The molar heat capacity Cp,m of SO2 (g) is described by the following equation over the range 300 K
part C and E. Please label each part with its answer. 3. A Sterling engine using...
part C and E. Please label each part with its answer.
3. A Sterling engine using 1.00 mol of an ideal gas initially at a volume of 24.6L and a temperature of 400K performs a cycle consisting of four steps: (1) An isothermal expansion at a temperature of 400K to twice its initial volume. (2) Cooling at constant volume to a temperature of 300K (3) An isothermal compression to its original volume (4) Heating at constant volume to its original...
Please need clear and good hand writing p1 Bar : 15 p3 Bar : 0.1 O2’C...
Please need clear and good hand writing
p1 Bar : 15
p3 Bar : 0.1
O2’C : 300
nis : 88
This are the numbers for the Equation please need a clear hand
writing
bled from bêtween the Task 3 - Rankine Cycle A simple steam power plant works as follows. Water is pumped into the boiler at point (1) on the diagram. Superheated steam leaves the boiler and goes to the turbine at point (2) The steam leaving the...
C only please Question 1 (50 points) One kg of air is in a piston-cylinder assembly....
C
only please
Question 1 (50 points) One kg of air is in a piston-cylinder assembly. Air is modeled as an ideal gas with a constant specific heat ratio, k = 1.4. The air undergoes a power cycle consisting of four processes in series: Process 1-2: Constant-temperature expansion at 600 K from P, = 0.5 MPa to P2 = 0.4 MPa Process 2–3: Polytropic expansion with n=k to Pz = 0.3 MPa Process 3-4: Constant-pressure compression to V4 = V....
We have seen that the Carnot cycle can be used to determine the maximum efficiency of...
We have seen that the Carnot cycle can be used to determine the maximum efficiency of a heat engine. The efficiency is defined as the sum of all of the work during the cycle divided by the amount of heat exchanged during the expansion process: efficiency=?1 +?2 +?3 +?3 /?1 Theoretically, the efficiency of the engine can be determined with the hot and cold temperature of the cycle. efficiency = ?h − ?c/ ?h In this problem, we will calculate...
Constants Part A Consider 1 mol an ideal gas at 27 C and 1.08 atm pressure....
Constants Part A Consider 1 mol an ideal gas at 27 C and 1.08 atm pressure. To get some idea how close these molecules are to each other, on the average, imagine them to be uniformly spaced, with each molecule at the center of a small cube. What is the length of an edge of each cube if adjacent cubes touch but do not overlap? Submit ▼ Part B How does this distance compare with the diameter of a typical...
Page < Question #3: (30 points total) At point A in a Carnot cycle, 2.34 mol...
Page < Question #3: (30 points total) At point A in a Carnot cycle, 2.34 mol of a monatomic ideal gas has a pressure of 1400 kPa, a volume of 10.0 L, and a temperature of 720 K. It expands isothermally to point B, and then expands adiabatically to point C where its vohume is 24.0 L. An isothermal compression brings it to point D, where its volume is 15.0 L. Am adiabatic process returns the gas to point A....
Problem 2: In a given lab session a group of students performed a sequence of thermodynamic...
Problem 2: In a given lab session a group of students performed a sequence of thermodynamic processes to a given gas. Before performing the process the studenta recorded the initial pressure of the gas as being 101.5 kPa and its temperature equal to 2000 The sequence can be described as firstly isochoric heating in which the gas temperature is increased by 25% of its initial temperature, followed by an isothermal compression in which the volume of the gas is reduced...
6) In a reversible Carnot heat engine which operates between reservoirs at Thigh 500 K and Tlow = 300 K with a net power output of 600 W, methane gas is used as working fluid. Methane can be considered here as an ideal gas with M 16.043 g mol-, and average heat capacities c 4 R and cp- 5 R. The cycle operates in a steady state with a substance flow rate of 0.375 mol s . Before the isothermal...
My questions:
What are the volume of c and d?
How do you calculate the delta S and delta S surroundings of
each step?
Consider the reversible Carnot cycle shown below. a PA Isothermal expansion Thoil Adiabatic compression Toold Pressure Thot PE Adiabatic expansion Thot cold Po- Isothermal compression Trot Toold Po Toold va Vc Vd Vo Volume The "working substance" (gas inside the piston, in red above) is 3.10 moles of a monatomic ideal gas, with Cvm = 3R/2....
Please help me solve for delta H, I can't get it.
Thank you!
Part A Constants | Periodic Table The molar heat capacity Cp,m of SO2 (g) is described by the following equation over the range 300 K
part C and E. Please label each part with its answer.
3. A Sterling engine using 1.00 mol of an ideal gas initially at a volume of 24.6L and a temperature of 400K performs a cycle consisting of four steps: (1) An isothermal expansion at a temperature of 400K to twice its initial volume. (2) Cooling at constant volume to a temperature of 300K (3) An isothermal compression to its original volume (4) Heating at constant volume to its original...
Please need clear and good hand writing
p1 Bar : 15
p3 Bar : 0.1
O2’C : 300
nis : 88
This are the numbers for the Equation please need a clear hand
writing
bled from bêtween the Task 3 - Rankine Cycle A simple steam power plant works as follows. Water is pumped into the boiler at point (1) on the diagram. Superheated steam leaves the boiler and goes to the turbine at point (2) The steam leaving the...
C
only please
Question 1 (50 points) One kg of air is in a piston-cylinder assembly. Air is modeled as an ideal gas with a constant specific heat ratio, k = 1.4. The air undergoes a power cycle consisting of four processes in series: Process 1-2: Constant-temperature expansion at 600 K from P, = 0.5 MPa to P2 = 0.4 MPa Process 2–3: Polytropic expansion with n=k to Pz = 0.3 MPa Process 3-4: Constant-pressure compression to V4 = V....
Constants Part A Consider 1 mol an ideal gas at 27 C and 1.08 atm pressure. To get some idea how close these molecules are to each other, on the average, imagine them to be uniformly spaced, with each molecule at the center of a small cube. What is the length of an edge of each cube if adjacent cubes touch but do not overlap? Submit ▼ Part B How does this distance compare with the diameter of a typical...
Page < Question #3: (30 points total) At point A in a Carnot cycle, 2.34 mol of a monatomic ideal gas has a pressure of 1400 kPa, a volume of 10.0 L, and a temperature of 720 K. It expands isothermally to point B, and then expands adiabatically to point C where its vohume is 24.0 L. An isothermal compression brings it to point D, where its volume is 15.0 L. Am adiabatic process returns the gas to point A....
Problem 2: In a given lab session a group of students performed a sequence of thermodynamic processes to a given gas. Before performing the process the studenta recorded the initial pressure of the gas as being 101.5 kPa and its temperature equal to 2000 The sequence can be described as firstly isochoric heating in which the gas temperature is increased by 25% of its initial temperature, followed by an isothermal compression in which the volume of the gas is reduced...
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