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Physics / An Introduction to Thermal Physics 1 / Chapter 3 / Problem 20P

An Introduction to Thermal Physics | 1st Edition | ISBN: 9780201380279 | Authors: Daniel V. Schroeder

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Consider an ideal two-state electronic paramagnet such as

Chapter 3, Problem 20P

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QUESTION:

Problem 20P

Consider an ideal two-state electronic paramagnet such as DPPH, with μ = μB. In the experiment described above, the magnetic field strength was 2.06 T and the minimum temperature was 2.2 K. Calculate the energy, magnetization, and entropy of this system, expressing each quantity as a fraction of its maximum possible value. What would the experimenters have had to do to attain 99% of the maximum possible magnetization?

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QUESTION:

Problem 20P

Consider an ideal two-state electronic paramagnet such as DPPH, with μ = μB. In the experiment described above, the magnetic field strength was 2.06 T and the minimum temperature was 2.2 K. Calculate the energy, magnetization, and entropy of this system, expressing each quantity as a fraction of its maximum possible value. What would the experimenters have had to do to attain 99% of the maximum possible magnetization?

ANSWER:

Step 1 of 6

The following are given by the question:

The magnetic field strength,

The minimum temperature,

Magnetic moment,

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