- The lowest value of partition function at absolute zero when all
particles occupy the lowest energy state is
(a) zero
(b) 1
(c)-1
(d) 10
Ans. (b)
holim condenses into a normal liquid at
Answers
a) Zero
At absolute zero there would be no stir, kinetic energy or climate. Which means matter itself as well as motes would cease to live.
Absolute Zero is the 0K, this is the temperature at which all patches stop moving.
Absolute zero, temperature at which a thermodynamic system has the smallest energy. It corresponds to −273.15
o
C on the Celsius temperature scale
At this temperature the movement of the patches is considered to be zero.
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Answer:
The answer is option (a) zero
Explanation:
The statistical characteristics of a system at equilibrium state are described by a partition function. [Reference needed] Volume and temperatures are two examples of thermodynamic state variables that have a direct impact on partition functions. The partition function or its derivatives can be used to express the majority of the system's aggregated thermodynamic parameters, including total energy, free energy, temperature, pressures, and entropy. There is no dimension in the division function.
There wouldn't be any motion, kinetic energy, or climate at absolute zero. Which implies that both matter and motes would stop existing. The temperature at which all patch stop moving is absolute zero, or 0K. The displacement of the patches is regarded as zero at this temperature.
One important component in many areas of physics is the partition function. In statistical physics, all fundamental thermodynamic properties of a macroscopic system are determined by the relationship with the free energy F = kBT ln Z.
The lowest energy state for a thermodynamic system is absolute zero. In terms of temperature, it is equivalent to 459.67 °F in Fahrenheit and 273.15 °C in Celsius.
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