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The psychology of Archie comics and Riverdale; then, now, and in the socialist future

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I learned a lot about social interactions from a comic of my youth called “Archie“. A very popular comic for 65 years, from 1941 through the 2010s, the social structure of Archie remained remarkably constant from when I first read it, in the early 60’s to when I read it to my children in the late 90’s. The comic mostly follows the title character, a love struck teenager with two (or more) gorgeous girlfriends, shown below, and his various relationships. I find the original stories to have been hyper-true, that is more true than truth. There are also several spin-offs, including a TV series, “Riverdale“, and an underground comic “Anarchie“. Both have a degree of charm, but the original stands out for it’s wide readership and long run; clearly, it resonated. Riverdale is a far grittier take, further from hyper-reality. 

Archie enjoys a malt with Veronica left and Betty right. Archie prefers Veronica. Betty is a doormat. Though Veronica is rich, she never pays.

In Archie comics, the poorer folks worked, as in real life, at relatively dull jobs. Their parents do too, and the poorer kids are visible poorer. Archie always wore the same clothes and drives (or drove) a junker car. The few rich folks do not work in the same way, as one might expect. In the TV series, and in most TV series’s, everyone has food, friends and a car, without any serious jobs, and little social hierarchy. It’s an ideal world of sorts, but somehow everyone’s messed up.

In the old time comic, one rich character in particular, Reggie Mantle, like to flaunt his wealth and make fun of Archie and his proletarian friend, Jughead. The comic book Veronica was also something of a bitch. Her dad, while occasionally charming, could be a bully as well. He certainly displayed, and benefitted from his exceptional wealth. Meanwhile, in the comic at least, while all the poorer folks worked (except Jughead), not all of them did a good job, most of those who worked did not enjoy it. There was humor in this engaging, realistic take on life.

The school lunch lady, Miss Beasley, was relatable in her extreme dislike for her job. What pleasure she gets, seems to come from making and serving bad food. Though the details of her employment are scarce, my guess was that she was unionized. Otherwise, she would have been fired years ago. There is no similar character in TV’s Riverdale.

Weatherbee and Flootsnoot

The principal, Mr. Weatherbee, also seemed to have trouble with his job, though his relationships were more nuanced. He takes his job seriously and runs an effective school, but he’s overweight, and over-stressed — a walking heart attack. Unlike most of the people at the school, “the bee” does not take out his anger on the kids, or on his fellow faculty. He keeps it in, while tormented by the students, by the parents, by the janitor, Svenson, and in particular by Mr. Flootsnoot, the science teacher. Flootsnoot seems to delight in causing trouble, giving Archie explosives, acid, and animals. My guess is that Flootsnoot is angling for Weatherby’s job, and is not patient enough to wait for Weatherbee’s heart to give out on its own. He’s a character right out of Hitchcock, IMHO.

Ms Grundy, Archie’s teacher was also drawn a victim of playing by the rules in a crooked game. In the original comic, as i read it in the mid 60s, she’s a puritan spinster in a black dress with a tall, laced collar. She seems to dislike Archie and Jughead, but not the other kids, nor her job as such. It makes sense that she’d dislike Archie and Jughead, since Jughead is lazy, and Archie is a skirt chasing cad. By the 90’s when I read Archie with my daughters, Miss Grundy had become a Ms, and was more at peace with her position, and a lot of the humor is gone. In the TV version, Riverdale, Ms Grundy, is in a sexual relationship with Archie. It’s a lot less healthy, and not very humorous.

The main focus, of course is Archie, a workin-class teen, and straight D student. How does he have two (or more) gorgeous girlfriends? After a few years of reading, the explanation becomes obvious, and fairly depressing. Each of his many girlfriends are motivated by jealousy for the others. His first girl is Betty. She’s pretty, poor, hard-working, and a doormat. She’s always there to help out. She is treated like dirt by her richer, “best friend,” Veronica. As best I can tell, Veronica and the others mostly like Archie because Betty does. To some extent Veronica also likes to annoy her rich dad, who is portrayed as confident and proud, except when dealing with his spoiled daughter. This is old-time humor that you’ll also see in Spongebob, or (going further back) Balzac’s “Pere Goriot“.

Veronica bosses her dad around but also makes his life worthwhile, it seems. I assume he once had a wife that he loved. Now he’s got a white-haired companion, a butler, and some rich friends. The love-of-his-life is his daughter, it seems, and she is dating a free-loading cad. Veronica’s rival Betty comes from the same stable, modest backroad as Archie, but. Archie prefers life at Veronica’s house. The food is better, and there is a pool. Mr Lodge barely tolerates Archie and friends. The butler, Smithers, is less excitable, but not as tolerant.

The school also has two psychopaths, Midge and Moose, a dangerous pair. Moose Mason is a football player, dumb or brain damaged, and violently jealous of Midge. Midge, of course, flirts with everyone, and does it in front of Moose. The result is that Moose beats up any boys who respond, much to Midge’s delight. They are a sick and dangerous pair, but very realistic. Jughead, the only normal person in the comic, dislikes the pair, and dislikes both Veronica and Reggie. Jughead has a dog, and a little sister “Jellybean,” who he adores. he also has, to his chagrin, a female stalker, “Big” Ethel. She’s ugly and chases Jughead; Jughead avoids her. Jughead seems to like Archie, though, and is always loyal to him; it’s another of Jughead’s good traits. He’s always pointing Archie to Betty, as a good friend would. Meanwhile, Moose-the-homicidal is protected by “Coach Kleats,” a highly flawed character who’s obsessed with winning, and seems to have been hit in the head one time too many.

A bit more about Jughead (he got his own spinoff comic for a while). Jughead is a classic humor character from antiquity. He’s the Harlequin, the semi-loyal servant: poor, clever, resourceful, and always hungry. He’s the bird man of The Magic Flute. He’s Figaro, and the servant in Don Giovani. He’s Harlie Quinn in Batman. A harlequin makes his own clothes from patchwork, and true to type, Jughead is seen, virtually always wearing a sort-of crown, a “whoopee cap” of his own construction. Because Jughead is poor and lazy, everyone thinks him stupid, but he’s the only one clever enough to size up Midge and Veronica. Jughead’s crown is appropriate since he’s his own master. Archie comics were banned in Saudi Arabia because the Saudis took offense at the concept of a self-crowned king. It’s an unusual concept. In Riverdale, Jughead is a tortured poet who still wears a handmade crown for no obvious reason.

All these relationships had a surreal character. The relationships are funny because they are more real than reality. They also presented a simpler form of humor in that the lowly usually win, while the high and talented usually lose. Reggie commonly loses, as does Weatherbee. Then things began to change in the 2000’s when two token black characters were added: a top scholar/athlete, Chuck Clayton, and his dad, Floyd (or Harry) a wise, athletic, co-coach. These are characters without major flaws, and as such they are not funny. If a writer feels he must include a character like this, a writer should use him as a straight-man, Zeppo Marx for example. And even Zeppo Marx is presented as having a horrible flaw. In Marx Bros. movies, Zeppo is presented as being Groucho’s son. Comedy is built on flawed characters like this, who succeed, and on arrogant ones who fail. With the Claytons, you’re left wondering what comedy do they bring to the situation. Also, why do these individuals tolerate crazy Moose on the team?

In 2010, the writers added an openly gay character, Kevin Keller. A nice fellow, with no flaws who everyone likes. Really? Is there a teenager so comfortable with himself? Are there no homophobes anywhere in this school? By 2012, Kevin has grown up and is an anti-gun senator. Archie dies taking an assassin’s bullet for him. That’s heroic, and it solves some other ugly problems, but it killed the series. You don’t want an unhappy ending for a comedy. For a hint of what to do, consult Shakespeare.

Anarchy Andrews deals with his cool, pot-smoking father, Fred.

Turning now to my favorite spin-off, the underground comic, Anarchie. It’s the same batch of teenagers, more or less, navigating the same issues, but theirs is an ideal, socialist world where the revolution has won. In this world, everyone has plenty, drugs are legal, and there is no sexism, agism, racism, or shape-ism. This is a color-blind world where black and white live together, and where the gay fellow would fit right in, if anyone thought to draw them in. There is no work, but even without that pressure, and the old problems, everything isn’t great for the kids. There is still school, and Weatherby still hates Archie. The kids still have to deal with parents, even when the parents have turned-on to drugs and act cool. It’s good comedy, an up-ending of the social expectations. Most teens of my day seemed to think that socialism would solve all their problems.

noexit2
Jughead in the socialist future is a broken druggie, but still something of his own man.

For those who have not seen it, how would you expect the Archie to relate to a perfect socialist world. The answer is not well. His father smokes dope, but that doesn’t help. He’s also into recycling and yoga (yuck). Archie remains the same love stuck, philanderer disinterested in most everything else but girls. His friend, Jughead fares far worse, he’s a pock-marked, druggie, a far more likely outcome than Riverdale’s where Jughead is a tortured poet. Without societal pressures and a normal family, Jughead becomes an anarchis’s anarchist. A ruined misfit surrounded in the workers’ paradise. Jughead (now called “Ludehead” still has his crown, and is still his own person, after a fashion, but there is little room for that in a socialist utopia where all are equal.

Robert Buxbaum, August 6, 2019. In previous essays I talked about the humor of superman, and about the practical wisdom of Gomez Adams.

On being a 16 year old girl

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I’m not a teenage girl, in case you thought otherwise. I’m the father of a girl who just turned 16 though, and she asked me to write on the subject of what to expect from the next year or so. Here’s my sense of expectations.

You'll find yourself creeping up on adulthood, as a partner, not a kid; it's a scary and wonderful transition.

You’ll find yourself creeping up on adulthood, as a partner, not a kid; it’s a scary and wonderful transition.

In retrospect, you’re likely to say that 16 was among the best years of your life. These are the last glorious, innocent days with friends: days before competition means anything, before you really have to think of the world beyond your high school community. You are still hanging out, working together, and trying to feel your way towards a dim future as adults. Sorry to say, that’s in retrospect. While living through it, you’ll find this year fairly boring, and somewhat nerve-wracking. You’ll find your time filled with activities: school, home, hobbies. You’re likely to find these activities somewhat less stressful than before, because you’re more used to them and higher-up in the pecking order. Still, there are a lot of activities, and you’ll notice your day is pretty full. My advice: take time to enjoy your friends. Take pictures; they’ll be priceless.

At sixteen hobbies begin to be taken more seriously.

At sixteen, hobbies begin to be taken more seriously.

For both boys and girls, you are beginning the single most difficult, painful, and important transition of your life: the transition to adulthood. It’s not painful yet, but it will get worse in the next year or two. If all goes well, by age 22 or 23, you will be through it. Once through it, you will think of yourself as an independent moiety: someone who’s formed by us (your parents, family, and friends) but not defined by us. Once through it, if all goes well, you will be able to support yourself financially, and you will be able to live on your own. You are likely to want to live on your own too (teary smile) at least for a good portion of the year. At 16, this is a dimly seen, scary future, far off in the fog.

At this  point, you’re still tied to us, and I’m glad you don’t resent it. You’re happy to be a daughter, a sister to your siblings, a peer to your friends, and a student in your high school. Some teachers and classes you like, others less so. Your grades and hobbies are important to you, but your friends are more important. It’s nice to have high grades, but not so important as to disturb a friendship. You think of your hobbies as fun sidelights, and home as a place to relax with them. At home you write, read, draw, or cook for the fun of it. As the next few years wear on, this will change. You’ll think of yourself more as a writer, an artist, or plumber; as a private first class, or whatever. You’ll be good at something, not just generally bright. Some friends will fit better into this self-view; the friends who don’t fit will slowly drift away.

Sexuality rears its head in new ways at 16.

Sex rears its head unexpectedly.

At 16, I started thinking of myself as ‘an engineer’ or perhaps as a scientist or mathematician based on my hobbies and what I was good at in school. It became clear that I was not going to be an athlete, a historian, or a musician (though I retained an interest). Dropping options is a big, painful part of the transition. I recall almost hearing the doors closing behind me. You want to turn back, to catch the options. Know that, to not choose is to choose. As those doors close (and they should) new, better ones open that you didn’t realize existed. Losing friends and hobbies that are too high maintenance is good for you, and for them at this stage. Sex will rear its head, unexpectedly, and in new ways. Sexuality and homosexuality were words; for some they are becoming the dominant reality. For better or worse, you’ll be drawn in.

As the year draws to a close, you’re likely to find our parental presence more and more annoying. This is a good thing; it’s what will get you out the door, and launch you as a person. We’re on your side here, but won’t be able to help as your old you will begin to fight the new one. You plan to go to college, perhaps away from home (both options are good), but some of your friends will want to stay at home and do on-line vocational courses, or get married as soon as possible. You’ll likely drift away from those friends. Some college-bound friends will pick schools far from yours, or will pick majors or activities that you’re not interested in. You’re likely to find yourself gravitating to those friends who’re going to your college or for majors that match yours. There is pain in realizing that you won’t be as close with the remaining friends. Know that doors are opening here in two ways. First, just as high school provided your current friends, college and pre-college will provide you a new group — ones you may keep longer since the relationship based on shared direction, not just shared experiences. Also, know that some of the friends who drift away now will come back later — perhaps when you and they are married.

You may come to realize that some of your closest friends are your competitors for college places, scholarships. This may seem bad (or disloyal) but it’s good. Competition will help you improve, and will increase your drive, and that’s what you need this year. Think of the relationship in “A separate peace.” Think of how the relationship between the young Harper Lee and Truman Capote likely shaped “to kill a mockingbird” and furthered both of their careers. Competition with your cousins is good too. Watch how they deal with competition and life choices. Are there family members that could be life models or coaches? A big reason we have the family reunions is so that you can have a choice of life models and coaches.

Teen jobs are rarely all that exciting, but are an important part of personal development.

Teen jobs are rarely all that exciting, but are an important part of personal development.

Money will become a lot more important in the next few years — for things, travel, school applications, and clothes. You’re likely to find it’s annoying to get your money from us, and you’re likely to start working more for money. This is the beginning of financial independence. As you do, you’ll find yourself becoming defined by the job you do, how much you make, and what you spend your money on. This is good, but includes a loss of Idyl. Your first jobs will not be great, and you may find leaches hanging on: financial and emotional. As annoying as it is to have a leech, it’s worse to be the leach. Try to avoid it; be a good friend or neighbor. You may want to buy stock, or start a company, or produce a product for sale: a book, album, or whatever. If it’s something you’re interested in and you try to make money at it, the experience will be worth the effort. Even if it turns out a financial failure, it will be an important part of the emotional and financial person you make of yourself. If you don’t go into business, you may get involved in politics or religion, moving right or left. That’s OK, and very normal — another part of self-development.

You may find yourself re-evaluating your thoughts on religion and government.

You’re already beginning to develop wonderful life-skills. We don’t compliment you enough on this. You’ve learned to cook eggs and noodles, and find you like the independence it gives. That’s the ticket to adulthood. You’ll need more life skills to give you real independence, but you’re on the right track. You’ll need to learn to do laundry, shopping, and cleaning. You’re likely to need to be better at driving, writing, and negotiating: all difficult things. You’re likely to go through emotional cycles or depression as you think of the stuff you can’t do, or don’t understand, the friends you’re losing, or the things you’d like to do, but can’t. Don’t stress; you’ve got 5 years, or more. We’re very proud of you, and will try to help by tutoring, hugs, more-freedom, and the assurance that independence is worth the struggle. All beginnings are difficult, and this is a big beginning.

You can define yourself by your hobbies or by your man, but try not to define yourself by your man's hobbies.

You can define yourself by your hobbies or by your man, but try not to define yourself by your man’s hobbies.

Switching schools includes the opportunity to reinvent yourself as something completely new. Most people do this to a greater or lesser extent. Embrace your inner weirdo, but not your inner crook. Try to invent yourself as something fun and active, not sinful or destructive. Try to be the young scholar, mechanic, artist, or athlete, not the young goth, gangster, or drug addict. High schools try to help here by exposing you to books and movies about alienated 16-20 year olds. Popular in my day were Great Expectations, The Outsiders, Catcher in the Rye, The Dead Poets Society, To Kill a Mockingbird, Slaughterhouse 5, and A Separate Peace. Take what comfort you can. School assignments will include essays on law, government, and God. Write honestly, with conviction. These assignments can help develop your life views and personality. We’ll try not to stifle you here, even when your opinions differ significantly from ours. Of course, if you come up with something truly stupid or awesome, we’ll tell you.

Your friends will start dating, or discussing boys, and you are almost certain to start looking at boys differently: first as exciting possibilities, and then as potential mates. Part of the attraction involves the ability to define yourself by the boy you choose. This is a comfort and a curse. The comfort is that it avoids you having to define yourself, or grow up quite. The curse is that the boy doesn’t know who he is either. You’ll find that some boys are nice and some are grounded, others are not. And some are really messed up. With the right kind, you’ll find you can do more as a pair than as a single. Eventually you’re likely to pair off; in our community that happens at about 21-24. When it happens, I hope it’s with a nice, grounded fellow. It works best if you first know who you are, but even otherwise, it can work. Couples sometimes discover who they are together. And, at that point the transition will be over. You’ll be a married adult; you’ll introduce yourself as Mrs Shnicklefritz, or as Dr. and Mr Schniklefritz, or whatever, and we’ll prepare ourselves to spoil our grandkids.

Dr. Robert E. Buxbaum, proud father of you and your two older siblings. October 4, 2014. Though further along in their life paths, I can hope that the older siblings will enjoy these thoughts too. I’ve previously mused about US education, and whether ADHD was a real disease. For my older daughter’s 21st birthday, I invented a new mixed drink.

Entropy, the most important pattern in life

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One evening at the Princeton grad college a younger fellow (an 18-year-old genius) asked the most simple, elegant question I had ever heard, one I’ve borrowed and used ever since: “tell me”, he asked, “something that’s important and true.” My answer that evening was that the entropy of the universe is always increasing. It’s a fundamentally important pattern in life; one I didn’t discover, but discovered to have a lot of applications and meaning. Let me explain why it’s true here, and then why I find it’s meaningful.

Famous entropy cartoon, Harris

Famous entropy cartoon, Harris

The entropy of the universe is not something you can measure directly, but rather indirectly, from the availability of work in any corner of it. It’s related to randomness and the arrow of time. First off, here’s how you can tell if time is moving forward: put an ice-cube into hot water, if the cube dissolves and the water becomes cooler, time is moving forward — or, at least it’s moving in the same direction as you are. If you can reach into a cup of warm water and pull out an ice-cube while making the water hot, time is moving backwards. — or rather, you are living backwards. Within any closed system, one where you don’t add things or energy (sunlight say), you can tell that time is moving forward because the forward progress of time always leads to the lack of availability of work. In the case above, you could have generated some electricity from the ice-cube and the hot water, but not from the glass of warm water.

You can not extract work from a heat source alone; to extract work some heat must be deposited in a cold sink. At best the entropy of the universe remains unchanged. More typically, it increases.

You can not extract work from a heat source alone; to extract work some heat must be deposited in a cold sink. At best the entropy of the universe remains unchanged.

This observation is about as fundamental as any to understanding the world; it is the basis of entropy and the second law of thermodynamics: you can never extract useful work from a uniform temperature body of water, say, just by making that water cooler. To get useful work, you always need something some other transfer into or out of the system; you always need to make something else hotter, colder, or provide some chemical or altitude changes that can not be reversed without adding more energy back. Thus, so long as time moves forward everything runs down in terms of work availability.

There is also a first law; it states that energy is conserved. That is, if you want to heat some substance, that change requires that you put in a set amount of work plus heat. Similarly, if you want to cool something, a set amount of heat + work must be taken out. In equation form, we say that, for any change, q +w is constant, where q is heat, and w is work. It’s the sum that’s constant, not the individual values so long as you count every 4.174 Joules of work as if it were 1 calorie of heat. If you input more heat, you have to add less work, and visa versa, but there is always the same sum. When adding heat or work, we say that q or w is positive; when extracting heat or work, we say that q or w are negative quantities. Still, each 4.174 joules counts as if it were 1 calorie.

Now, since for every path between two states, q +w is the same, we say that q + w represents a path-independent quantity for the system, one we call internal energy, U where ∆U = q + w. This is a mathematical form of the first law of thermodynamics: you can’t take q + w out of nothing, or add it to something without making a change in the properties of the thing. The only way to leave things the same is if q + w = 0. We notice also that for any pure thing or mixture, the sum q +w for the change is proportional to the mass of the stuff; we can thus say that internal energy is an intensive quality. q + w = n ∆u where n is the grams of material, and ∆u is the change in internal energy per gram.

We are now ready to put the first and second laws together. We find we can extract work from a system if we take heat from a hot body of water and deliver some of it to something at a lower temperature (the ice-cube say). This can be done with a thermopile, or with a steam engine (Rankine cycle, above), or a stirling engine. That an engine can only extract work when there is a difference of temperatures is similar to the operation of a water wheel. Sadie Carnot noted that a water wheel is able to extract work only when there is a flow of water from a high level to low; similarly in a heat engine, you only get work by taking in heat energy from a hot heat-source and exhausting some of it to a colder heat-sink. The remainder leaves as work. That is, q1 -q2 = w, and energy is conserved. The second law isn’t violated so long as there is no way you could run the engine without the cold sink. Accepting this as reasonable, we can now derive some very interesting, non-obvious truths.

We begin with the famous Carnot cycle. The Carnot cycle is an idealized heat engine with the interesting feature that it can be made to operate reversibly. That is, you can make it run forwards, taking a certain amount of work from a hot source, producing a certain amount of work and delivering a certain amount of heat to the cold sink; and you can run the same process backwards, as a refrigerator, taking in the same about of work and the same amount of heat from the cold sink and delivering the same amount to the hot source. Carnot showed by the following proof that all other reversible engines would have the same efficiency as his cycle and no engine, reversible or not, could be more efficient. The proof: if an engine could be designed that will extract a greater percentage of the heat as work when operating between a given hot source and cold sink it could be used to drive his Carnot cycle backwards. If the pair of engines were now combined so that the less efficient engine removed exactly as much heat from the sink as the more efficient engine deposited, the excess work produced by the more efficient engine would leave with no effect besides cooling the source. This combination would be in violation of the second law, something that we’d said was impossible.

Now let us try to understand the relationship that drives useful energy production. The ratio of heat in to heat out has got to be a function of the in and out temperatures alone. That is, q1/q2 = f(T1, T2). Similarly, q2/q1 = f(T2,T1) Now lets consider what happens when two Carnot cycles are placed in series between T1 and T2, with the middle temperature at Tm. For the first engine, q1/qm = f(T1, Tm), and similarly for the second engine qm/q2 = f(Tm, T2). Combining these we see that q1/q2 = (q1/qm)x(qm/q2) and therefore f(T1, T2) must always equal f(T1, Tm)x f(Tm/T2) =f(T1,Tm)/f(T2, Tm). In this relationship we see that the second term Tm is irrelevant; it is true for any Tm. We thus say that q1/q2 = T1/T2, and this is the limit of what you get at maximum (reversible) efficiency. You can now rearrange this to read q1/T1 = q2/T2 or to say that work, W = q1 – q2 = q2 (T1 – T2)/T2.

A strange result from this is that, since every process can be modeled as either a sum of Carnot engines, or of engines that are less-efficient, and since the Carnot engine will produce this same amount of reversible work when filled with any substance or combination of substances, we can say that this outcome: q1/T1 = q2/T2 is independent of path, and independent of substance so long as the process is reversible. We can thus say that for all substances there is a property of state, S such that the change in this property is ∆S = ∑q/T for all the heat in or out. In a more general sense, we can say, ∆S = ∫dq/T, where this state property, S is called the entropy. Since as before, the amount of heat needed is proportional to mass, we can say that S is an intensive property; S= n s where n is the mass of stuff, and s is the entropy change per mass. 

Another strange result comes from the efficiency equation. Since, for any engine or process that is less efficient than the reversible one, we get less work out for the same amount of q1, we must have more heat rejected than q2. Thus, for an irreversible engine or process, q1-q2 < q2(T1-T2)/T2, and q2/T2 is greater than -q1/T1. As a result, the total change in entropy, S = q1/T1 + q2/T2 >0: the entropy of the universe always goes up or stays constant. It never goes down. Another final observation is that there must be a zero temperature that nothing can go below or both q1 and q2 could be positive and energy would not be conserved. Our observations of time and energy conservation leaves us to expect to find that there must be a minimum temperature, T = 0 that nothing can be colder than. We find this temperature at -273.15 °C. It is called absolute zero; nothing has ever been cooled to be colder than this, and now we see that, so long as time moves forward and energy is conserved, nothing will ever will be found colder.

Typically we either say that S is zero at absolute zero, or at room temperature.

We’re nearly there. We can define the entropy of the universe as the sum of the entropies of everything in it. From the above treatment of work cycles, we see that this total of entropy always goes up, never down. A fundamental fact of nature, and (in my world view) a fundamental view into how God views us and the universe. First, that the entropy of the universe goes up only, and not down (in our time-forward framework) suggests there is a creator for our universe — a source of negative entropy at the start of all things, or a reverser of time (it’s the same thing in our framework). Another observation, God likes entropy a lot, and that means randomness. It’s his working principle, it seems.

But before you take me now for a total libertine and say that since science shows that everything runs down the only moral take-home is to teach: “Let us eat and drink,”… “for tomorrow we die!” (Isaiah 22:13), I should note that his randomness only applies to the universe as a whole. The individual parts (planets, laboratories, beakers of coffee) does not maximize entropy, but leads to a minimization of available work, and this is different. You can show that the maximization of S, the entropy of the universe, does not lead to the maximization of s, the entropy per gram of your particular closed space but rather to the minimization of a related quantity µ, the free energy, or usable work per gram of your stuff. You can show that, for any closed system at constant temperature, µ = h -Ts where s is entropy per gram as before, and h is called enthalpy. h is basically the potential energy of the molecules; it is lowest at low temperature and high order. For a closed system we find there is a balance between s, something that increases with increased randomness, and h, something that decreases with increased randomness. Put water and air in a bottle, and you find that the water is mostly on the bottom of the bottle, the air is mostly on the top, and the amount of mixing in each phase is not the maximum disorder, but rather the one you’d calculate will minimize µ.

As the protein folds its randomness and entropy decrease, but its enthalpy decreases too; the net effect is one precise fold that minimizes µ.

As a protein folds its randomness and entropy decrease, but its enthalpy decreases too; the net effect is one precise fold that minimizes µ.

This is the principle that God applies to everything, including us, I’d guess: a balance. Take protein folding; some patterns have big disorder, and high h; some have low disorder and very low h. The result is a temperature-dependent  balance. If I were to take a moral imperative from this balance, I’d say it matches better with the sayings of Solomon the wise: “there is nothing better for a person under the sun than to eat, drink and be merry. Then joy will accompany them in their toil all the days of the life God has given them under the sun.” (Ecclesiastes 8:15). There is toil here as well as pleasure; directed activity balanced against personal pleasures. This is the µ = h -Ts minimization where, perhaps, T is economic wealth. Thus, the richer a society, the less toil is ideal and the more freedom. Of necessity, poor societies are repressive. 

Dr. Robert E. Buxbaum, Mar 18, 2014. My previous thermodynamic post concerned the thermodynamics of hydrogen production. It’s not clear that all matter goes forward in time, by the way; antimatter may go backwards, so it’s possible that anti matter apples may fall up. On microscopic scale, time becomes flexible so it seems you can make a time machine. Religious leaders tend to be anti-science, I’ve noticed, perhaps because scientific miracles can be done by anyone, available even those who think “wrong,” or say the wrong words. And that’s that, all being heard, do what’s right and enjoy life too: as important a pattern in life as you’ll find, I think. The relationship between free-energy and societal organization is from my thesis advisor, Dr. Ernest F. Johnson.