Mechanical Engineering - Thermodynamics - Discussion
Discussion Forum : Thermodynamics - Section 1 (Q.No. 6)
6.
An adiabatic process is one in which
Discussion:
49 comments Page 4 of 5.
Amit said:
1 decade ago
Due to change in internal energy, the temperature may change.
U = (KE + PE + IE).
KE is the kinetic energy of molecules = 3/2 kT (k = Boltzmann's const. & T = temperature).
PE is the potential energy.
IE is the intramolecular energy which may also lead to a change in temperature due to molecular re orientations.
U = (KE + PE + IE).
KE is the kinetic energy of molecules = 3/2 kT (k = Boltzmann's const. & T = temperature).
PE is the potential energy.
IE is the intramolecular energy which may also lead to a change in temperature due to molecular re orientations.
Babagana jidda shettima said:
10 years ago
Adiabatic process neither heat enters nor leaves. Remember that of throttling process which is also adiabatic.
Sainath said:
10 years ago
Hai, I am sairam.
Temperature is a degree of measure of hotness or coldness of a body. Then how can temperature changes in constant heat (adiabatic) process?
Temperature is a degree of measure of hotness or coldness of a body. Then how can temperature changes in constant heat (adiabatic) process?
A.Bhargav said:
10 years ago
dQ = du+dw.
0 = du+dw;
du = -dw.
0 = du+dw;
du = -dw.
Tomichan said:
10 years ago
An adiabatic process (by definition) is one in which there is no heat exchange into or out of the system. When heat is added to a system its temperature may or may not change.
Ananth said:
10 years ago
The given answer is wrong. Since, it is a adiabatic process there will not be any exchange of heat between system and surroundings. Then how come the temperature changes? Only the internal energy of the system changes.
Javed said:
10 years ago
An adiabatic process is one that occurs without transfer of heat or matter between a thermodynamic system and its surroundings; energy is transferred only as work. The adiabatic process provides a rigorous conceptual basis for the theory used to expound the first law of thermodynamics, and as such it is a key concept in thermodynamics.
Some chemical and physical processes occur so rapidly that they may be conveniently described by the "adiabatic approximation", meaning that there is not enough time for the transfer of energy as heat to take place to or from the system.
In way of example, the adiabatic flame temperature is an idealization that uses the "adiabatic approximation" so as to provide an upper limit calculation of temperatures produced by combustion of a fuel. The adiabatic flame temperature is the temperature that would be achieved by a flame if the process of combustion took place in the absence of heat loss to the surroundings.
Some chemical and physical processes occur so rapidly that they may be conveniently described by the "adiabatic approximation", meaning that there is not enough time for the transfer of energy as heat to take place to or from the system.
In way of example, the adiabatic flame temperature is an idealization that uses the "adiabatic approximation" so as to provide an upper limit calculation of temperatures produced by combustion of a fuel. The adiabatic flame temperature is the temperature that would be achieved by a flame if the process of combustion took place in the absence of heat loss to the surroundings.
Deadool said:
9 years ago
There is a change in internal energy, which is a function of temperature. Hence temperature changes.
AJAY GUPTA said:
9 years ago
Thanks to all for giving information about it.
Kuna Karteek said:
9 years ago
Internal energy is a function of temperature so temperature must be change. For more information refer adiabatic free expansion process.
Post your comments here:
Quick links
Quantitative Aptitude
Verbal (English)
Reasoning
Programming
Interview
Placement Papers