2. (a) State the general formula for the 1st Law of Thermodynamics for any open system. For an open system with two inlets, A and B, and one outlet, C, derive a simplified expression for the rate of heat transfer for the system, in terms of the temperatures of the inlets and outlet, assuming that: (i) all inlets and outlets are at the same elevation, (ii) fluid velocities are negligible, (iii) the system is at constant pressure, (iv) the system is in steady state and is operating under stea flow conditions, and (v) the fluid in the system is an ideal gas. Show clearly in derivation which terms in the 1st Law are affected by each of the assumptions

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Question 2
2. (a)
State the general formula for the 1st Law of Thermodynamics for any open
system. For an open system with two inlets, A and B, and one outlet, C, derive a
simplified expression for the rate of heat transfer for the system, in terms of the
temperatures of the inlets and outlet, assuming that: (i) all inlets and outlets are
at the same elevation, (ii) fluid velocities are negligible, (iii) the system is at
constant pressure, (iv) the system is in steady state and is operating under steady
flow conditions, and (v) the fluid in the system is an ideal gas. Show clearly in the
derivation which terms in the 1st Law are affected by each of the assumptions.
Transcribed Image Text:Question 2 2. (a) State the general formula for the 1st Law of Thermodynamics for any open system. For an open system with two inlets, A and B, and one outlet, C, derive a simplified expression for the rate of heat transfer for the system, in terms of the temperatures of the inlets and outlet, assuming that: (i) all inlets and outlets are at the same elevation, (ii) fluid velocities are negligible, (iii) the system is at constant pressure, (iv) the system is in steady state and is operating under steady flow conditions, and (v) the fluid in the system is an ideal gas. Show clearly in the derivation which terms in the 1st Law are affected by each of the assumptions.
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