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Zhigang Suo Profile picture
@zhigangsuo
Jun 9, 2022 11 tweets 5 min read Read on X
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#thermofact
Thermodynamics of phase transition

1/10 This thread focuses on a simple case, which illustrates the thermodynamic method.

Make a system of one species of molecules.
Neglect change in volume.

Thus, the system has a single independent variable: energy.
2/10 Consider a system of H2O molecules and two phases, ice and water. Change in volume is small, and is neglected in this model.

Water is a phase, which can be in many states. The same is true for ice.

Water and ice can equilibrate in mixtures.
3/10 Let u be the average energy per molecule, and s be the average entropy per molecule.

Draw a u-s plane.

On the u-s plane, each pure state corresponds to a point, and all pure states correspond to a set of points.
4/10 Two pure states, (uA, sA) and (uB, sB), form a mixture. The average energy and entropy (u,s) is a linear combination:

(u,s) = yA (uA, sA) + yB (uB, sB)

yA = fraction of molecules state A
yB = fraction of molecules state B

The mixture is a point on the segment.
5/10 Similarly, a mixture of three pure states is a point in the triangle connecting the three pure states.
6/10 One can similarly locate a mixture of any number of pure states.

Each mixture corresponds to a point on the u-s plane. Points of all mixtures are in a polygon, called the convex hull.en.wikipedia.org/wiki/Convex_hu…
7/10 The system is an isolated system if energy u is fixed, corresponding to a vertical line on the (u,s) plane.

The isolated system equilibrates by maximizes entropy s, corresponding to the interaction between the vertical line and the upper boundary of the convex hull.
8/10 As u changes, the system equilibrates in states corresponding to the upper boundary of the convex hull.

The system can equilibrium as either a pure state, or a mixture of two pure states.

The system cannot equilibrate as a mixture of three or more pure states.
9/10 All pure states of a phase form a smooth curve.

On the u-s plane are a curve for ice (A), and a curve for water (B).

For the two curves of pure states, the convex hull consists of three pieces: part of curve A, part of curve B, and a tangent common to both curves.
10/10 Define temperature T by 1/T = ds(u)/du.

In a mixture of two pure states, the temperature of the two states are equal.

Approximate experimental data for ice and water are given in the T-s and T-u planes.
Writing this thread focussed me on essentials. I have updated my class notes under the heading "Thermodynamics of phase transition".

Rule of mixture implies convex hull.

An isolated system conserves energy and maximizes entropy.
docs.google.com/document/d/12j…

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More from @zhigangsuo

Zhigang Suo Profile picture
Aug 1, 2023
My wife, Denian, died at home, on Sunday, 30 July 2023.

She was diagnosed with glioblastoma in March 2018.

The last five years have been fulfilling. She saw births of two more grandchildren. She attended wedding of our second son. She pointed to me pretty spots on our walks. Image
Denian (庄得年) was born in Lanzhou, on 8 March 1962. Both of her parents graduated from college. She had two younger brothers.

This photo was taken in 1976, when the family lived in Jiayuguan. Image
1976! Mao died. The Cultural Revolution ended.

When the College Entrance Exam resumed, in 1977, she entered Lanzhou University at the age of 15, majored in English Literature. Image
Read 35 tweets
Zhigang Suo Profile picture
Jan 8, 2023
#thermofact
What does the Boltzmann constant mean?

1/ Temperature has many units, among which are Kelvin and Joule. The two units covert as

1 Kelvin = 1.380649 × 10^−23 Joule

This conversion factor is called the Boltzmann constant, k.

It is analogous to

1 inch = 2.54 cm
2/ It looks silly to name an unsightly conversion factor after three great names: Joule, Kelvin, and Boltzmann.

All units are silly, but they are necessary evils.

Let's learn about the two units of temperature, Kelvin and Joule.
3/ Entropy of an isolated system is defined as the logarithm of the number of quantum states of the isolated system:

S = log Ω

For a thermal system, which transfers energy with surroundings, entropy is a function of energy, S(U).

Temperature T is defined by

1/T = dS(U)/dU
Read 8 tweets
Zhigang Suo Profile picture
Dec 29, 2022
Kittel and Kroemer began with a 3.5 page Introduction.

“Our approach to thermal physics differs from the tradition followed in beginning physics courses. Therefore we provide this introduction to set out what we are going to do on the chapters that follow.” Image
From Preface: “We develop methods (not original, but not easily accessible elsewhere)… We wrote the book in the first place because we were delighted by the clarity of the ‘new’ methods as compared to those we were taught when we were students ourselves.”
What are these “new methods”?

The word “entropy” was coined by Clausius, in 1865, using an equation dS = (1/T)dU and a lot of words.

This definition subordinates entropy to energy and temperature.

Students to this day are told that entropy characterizes energy.

Misleading!
Read 59 tweets
Zhigang Suo Profile picture
Dec 4, 2022
Lately we have heard numerous incidents that travelers are harassed by federal agents for hours at the U.S. border.

The horror stories make many of us feel so uncomfortable that we stop ALL international travels.

Stop border harassments!

The practice is too rampant.

UNCIVIL!
My last international travel was in January 2020, just before pandemic. I have not been subject to border harassment.

But a student in my group was interrogated about my research.

My group works on the mechanical behavior of polymers. Our work is remote from national security.
A colleague at Harvard, an exceptionally distinguished scientist, is not of Chinese descent.

He loves to work with people. He has many international collaborators, including Chinese collaborators.

He was interrogated at the border for hours.
Read 9 tweets
Zhigang Suo Profile picture
Jun 14, 2022
I have spent countless hours with this little book. It contains three pioneering papers in discovering thermodynamics:

Carnot (1824)
Clapeyron (1835)
Clausius (1850)

Seek enlightenment when i was young.
Relive in darkness as I get old. Image
Carnot (1824) marks the beginning of the discovery of entropy.

Two hundred years of entropy will soon upon us.

When Carnot wrote his pamphlet, Europe was at the mighty height of the Industrial Revolution, powered by engine, steel, and coal.

He was 28.
en.wikipedia.org/wiki/Nicolas_L…
Steam engines transformed the world in the Industrial Revolution, just as the Internet does today.

In the initial paragraphs of the pamphlet, Carnot conveyed the craze for steam engines. Image
Read 21 tweets
Zhigang Suo Profile picture
Jun 8, 2022
“Gelfand visited today,” Denian said, “and big professors all acted like students in front of him.”

It was in the late 1980s, when Denian worked as a secretary at Harvard Mathematics Department.

Much I know about linear algebra comes from this 185-page book.

A brilliant book. Image
"Does the name Gelfand mean anything to you," I asked Denian today.

"He was a Russian Mathematician," she said.

"How do you know?"

"He visited Harvard Math Department."

"Do you remember anything about the visit?"

"No."

I read my tweet to her.

"That's accurate!" she said.
"I was good at math when I was a child," Denian says.

Her parents went colleges. Her father taught math at college, and her mother taught physics at high school. Her two bothers went to college for math and engineering. Her father suggested that she major in English. So she did.
Read 4 tweets

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