THERMODYNAMICS PRINCIPLES AND APPLICATIONS

Assignment Question 

ME3306                THERMODYNAMICS PRINCIPLES AND APPLICATIONS


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THERMODYNAMICS PRINCIPLES AND APPLICATIONS -Assignment -I

Assignment Question 

ME3306                THERMODYNAMICS PRINCIPLES AND APPLICATIONS

UNIT I                   FIRST LAW OF THERMODYNAMICS

2 marks

1.       What is thermodynamics

2.       Shortly explain microscopic and macroscopic Thermodynamics

3.       What are the thermodynamic systems , list with examples

4.       List and explain at least two properties of the systems

5.       Define process,path,cycles

6.       State Zeroth law of thermodynamics

7.       State First law of thermodynamics

8.       Explain C_p , C_v and write one relation of it

9.       Write the Steady flow energy equation for unit mass

10.    Write the adiabatic work done and Isothermal Heat transfer equation for non flow system of first law of thermodynamics

16 marks

1.       Derive the First law of thermodynamics equation from the law of conservation of energy with joules experiment, state Perpetual Motion Machine Kind I(PMM-I)

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THERMODYNAMICS PRINCIPLES AND APPLICATIONS - 2 Marks Question & Answers

UNIT I FIRST LAW OF THERMODYNAMICS

1. What do you understand by pure substance?

A pure substance is defined as one that is homogeneous and invariable in chemical composition throughout its mass.

2. Define thermodynamic system.

A thermodynamic system is defined as a quantity of matter or a region in space, on which the analysis of the problem is concentrated.

3. Name the different types of system.

1. Closed system (only energy transfer and no mass transfer) 2. Open system (Both energy and mass transfer) 3. Isolated system (No mass and energy transfer)

4. Define thermodynamic equilibrium.

If a system is in Mechanical, Thermal and Chemical Equilibrium then the system

is in thermodynamically equilibrium. (or) If the system is isolated from its surrounding there will be no change in the macroscopic property, then the system is said to exist in a state of thermodynamic equilibrium.

5. What do you mean by quasi-static process? Infinite slowness is the characteristic feature of a quasi-static

Process. A quasis-static process is that a succession of equilibrium states. A quasi-static process is also called as reversible process.

6. Define Path function.

The work done by a process does not depend upon the end of the process. It depends on the path of the system follows from state 1 to state 2. Hence work is called a path function.

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Unit 1 & 2

Unit 3

Unit 4 

Unit 5