The Logic of Nuclear Exchange and the Refinement of American Deterrence Strategy

The most spectacular event of the past half century is one that did not occur. We have enjoyed sixty years without nuclear weapons exploded in anger.

What a stunning achievement—or, if not achievement, what stunning good fortune. In 1960 the British novelist C. P. Snow said on the front page of the New York Times that unless the nuclear powers drastically reduced their nuclear armaments thermonuclear warfare within the decade was a “mathematical certainty.” Nobody appeared to think Snow’s statement extravagant.

We now have that mathematical certainty compounded more than four times, and no nuclear war.

– Thomas Schelling, 2005 Nobel Prize in Economics Lecture

When Robert McNamara was named the Secretary of Defense in 1961, he brought to the Pentagon a group of aides who came to be known as the Whiz Kids. They were young, book-smart men eager to apply the latest in systems analysis, game theory, and operations research to military strategy.

It did not take them long to alienate senior officers. Once to settle a particularly heated argument about nuclear plans, a 29-year-old Whiz Kid declared: “General, I have fought just as many nuclear wars as you have.”

The flip remark understates a fact that deserves great wonder: The world has now gone for seven decades while avoiding nuclear destruction. The thermonuclear war that was once regarded with the greatest of fears and as a mathematical certainty has not come to pass.

In addition, it’s also a startling display of the role that a group of civilians played in defining U.S. nuclear strategy. After a first draft by the military, American strategic objectives were subject to continuous refinements. Many of these refinements came from civilian theorists, most of whom came from the RAND Corporation, and few of whom had seen war. One of the earliest nuclear intellectuals from RAND started out as a naval strategist; when he produced his most important work on naval strategy, he had never seen the ocean, let alone set foot on a ship. In seminar rooms, these strategists pondered the novel challenges of the nuclear world and worked out ideas by discussing not the efficient application of force but rather the exploitation of potential force.

This essay is a short introduction to how nuclear weapons are created and deployed, and the ideas that strategists, policymakers, and the military implemented to reduce the risk of nuclear war.

(Published in prettier formatting on Medium.)

What Are Nuclear Weapons?

 

Thirty years after the detonation on Hiroshima, the world had produced enough nuclear weapons to create the equivalent of about 3 tons of TNT for every man, woman, and child on earth. Here’s context to put that figure into some sort of perspective.

Nuclear Explosions

What happens in a nuclear explosion? First, a huge blast drives air away, producing high winds and changes in air pressure that crush objects. Then come radiation: direct radiation will cause fatal illness in a matter of a few weeks, while thermal radiation will cause first-degree burns a few miles away. Fires immediately follow; a strong blast can generate a firestorm, which destroys everything in a concentrated area, or a conflagration, which is not so strong but spreads along a front. Then there’s fallout: particles are scooped up from the ground, get irradiated by the explosion, and spread depending on wind conditions. Finally, at a sufficiently high altitude, a blast might produce electrons that interact with the earth’s magnetic field, setting off an electromagnetic pulse that can destroy electronics and metal objects.

The world has set off over 2400 nuclear explosions, nearly all of them by America or the Soviet Union, most of them underground. Americans have tested most of their weapons in the southwestern states of Nevada or New Mexico, or on islands in the Pacific. The Soviet Union has conducted mostly in Kazakhstan or archipelagos in the Arctic Ocean.

Nuclear detonations have been set off underground, underwater, and in the atmosphere. They’ve had usually minor and sometimes permanent effects on the earth. As a dramatic example, America’s first hydrogen bomb, named “Ivy Mike,” completely obliterated the small Pacific island on which it was tested.

The effects of nuclear explosions have always provoked anxiety. Before the first nuclear test in New Mexico, Enrico Fermi rounded up his fellow scientists to place a grim bet. Some of them speculated that an atomic bomb would ignite the atmosphere, and Fermi offered wagers on whether the Trinity test might destroy the atmosphere of the planet, or merely that of New Mexico state. More recently, Carl Sagan wrote that instead of igniting the atmosphere, nuclear weapons may cool the world enough to produce a nuclear winter.

The effects of nuclear tests have not always been well controlled. Shortly after the Ivy Mike test, America detonated the most powerful thermonuclear bomb it would ever construct. “Castle Bravo” was expected to yield a blast of five or six megatons, but instead produced a blast of 15 megatons. The blast carried fallout to inhabitants on the Marshall Islands, some of whom ate the radioactive powder they believed to be snow. Hundreds were overexposed to radiation, and a nearby Japanese fishing ship crew suffered from radiation poisoning. Fallout from that blast eventually spread 7,000 miles, including to India, the United States, and Europe.

The Mechanics of Atomic and Hydrogen Bombs

There are two types of nuclear bombs. The atomic bomb creates temperatures equal to those on the surface of the sun; and the much more powerful hydrogen bomb bring the equivalent of a small piece of the sun to earth.

The basic nuclear weapon is the atomic bomb, otherwise known as the fission bomb. Atomic bombs typically have yields measured in the thousands of tons of TNT, or kilotons. Their explosive force is generated from a fission process; fission occurs when a neutron enters the nucleus of an atom of a nuclear material, which is either enriched uranium or enriched plutonium. A large amount of energy is released in the process, which causes the nucleus to release a few more neutrons. In the presence of a critical mass, these neutrons go on to create a chain reaction. There are two types of bomb designs for initiating fission. The first is the gun assembly technique, which brings together two subcritical masses to form a critical mass; the second is the implosion technique, which compresses a single subcritical mass into a critical density.

On August 6th, 1945, the U.S. Air Force dropped the atomic bomb known as “Little Boy” on Hiroshima. Little Boy was a gun-type bomb with a core of 60 kilograms of uranium-235. About 700 grams of it fissioned (just over 10%), generating a blast of 12.5 kilotons; about 60,000 to 80,000 people were killed by the blast, while up to twice that number were killed by burns and radiation. Three days later, the U.S. dropped an atomic bomb on Nagasaki. The Nagasaki bomb, known as “Fat Man,” was an implosion-style bomb carrying 8 kilograms of plutonium-239. Once again about 10% of the material fissioned, producing a yield of about 22 kilotons and instantly killing about 40,000 people. The complete detonation of its plutonium would have caused an explosion 10 times its size.

The more sophisticated and far more destructive kind of nuclear weapon is hydrogen bomb, otherwise known as the thermonuclear bomb, the fusion bomb, or the H-bomb. In hydrogen bombs, heavier isotopes of hydrogen are fused together to form helium. That reaction creates a great deal of energy, far more than the chain reaction possible in fission bombs. Hydrogen bombs are far more difficult to construct than the atomic bomb; nine countries possess nuclear weapons, but only five have definitely developed hydrogen bombs. A successful detonation requires the explosion of a fission bomb (the “primary”) to ignite a fusion (the “secondary”). The difficulty presented by the hydrogen bomb is the risk that the atomic bomb might explode prematurely and blow up the whole bomb, an event referred to as a “fizzle.”

Hydrogen bombs are hundreds or thousands of times more powerful than atomic bombs. The first hydrogen device, which couldn’t be used as a weapon, was detonated by the United States in November of 1952. A true hydrogen weapon was not detonated by America until March, 1954. The bomb, Castle Bravo, was the most powerful nuclear explosion America would ever generate; at 15 megatons, it was over 700 times more powerful than the blast at Nagasaki. The Soviet Union would detonate its first hydrogen bomb in November, 1955. In 1961, it would go on to detonate the largest nuclear weapon ever: The Tsar Bomba had a yield of over 50 megatons, or over 2500 Nagasakis.

The value of a weapon of these sizes is not immediately obvious. A 1-megaton bomb would kill most people within hundreds of miles, while the largest of cities would be destroyed by a bomb of 10 megatons.

How Are Nuclear Weapons Delivered?

There are two types of nuclear deployments. Strategic weapons are launched against homelands, while tactical weapons are used on battlefields.

Strategic nuclear weapons are typically delivered in one of three ways. First, they may be launched from bombers; these can either take the form of free-fall gravity bombs or as air-launched cruise missiles (ALCMs). Second, they’re deployed on intercontinental ballistic missiles (ICBMs), which are launched from underground silos and are capable of reaching any target on earth. Finally, submarine-launched ballistic missiles (SLBMs) are deployed by submarines, which can lie at sea for months and surface only to launch. The majority of warheads are deployed on ballistic missiles, while a few hundred are located at bomber bases.

There has been a greater variety of tactical nuclear weapons, though they’re no longer deployed. They were once a regular part of arsenals, including as torpedoes, mines, artillery, and rocket launchers. A young Colin Powell was an officer stationed in West Germany in 1958 when he was tasked with guarding against a Soviet invasion; if the enemy came over, he was to launch 280 mm atomic cannons, which fired artillery shells with yields of 15 kilotons (or about the explosive force of Hiroshima). These tactical weapons have never actually been put to use.

Stockpiles

The global nuclear stockpile peaked at 70,000 weapons in 1986. Most have been owned either by the Americans or the Soviets.

Both countries have vastly reduced their arsenal. In the last 25 years, America has reduced its stockpile from about 23,000 weapons to around approximately 7000 today. Meanwhile, Russia has brought down its stockpile to around 8000 weapons, from a peak of 30,000 inherited from the Soviet Union.

There are seven other countries with confirmed nuclear weapons: France, China, the U.K., Pakistan, India, and North Korea. Israel is rumored but not officially confirmed to have nuclear weapons. Of all nine countries, five are confirmed to have hydrogen bombs: the U.S., Russia, France, China, and the U.K. India has claimed to have detonated a hydrogen bomb, but scientists debate whether it was a true two-stage thermonuclear device.

The vast majority of nuclear weapons are and have been operated by the U.S. and the Soviet Union; the stockpiles of other countries are miniscule in comparison. Currently France has the next largest stockpile, at around 300 weapons, while North Korea has fewer than 10. Motivations for acquiring the bomb have varied for every country. China, for example, sought not to depend too heavily on protection from the Soviet Union, just as Britain decided that it wanted warheads not controlled by America. Meanwhile, though France was motivated by a similar concern not to depend too much on the United States, it has also developed nuclear weapons because it craved status. Charles de Gaulle believed that that the bomb would “place France where she belonged, among the Great Powers.”

American Nuclear Strategy

 

As America demobilized after the Second World War, Eisenhower believed that nuclear weapons were a cheap substitute to maintaining a large army to deter Soviet aggression. With his Secretary of State John Foster Dulles, he defined a policy called “New Look” that relied on nuclear forces, as opposed to conventional forces, to deter aggression. The United States would be “willing and able to respond vigorously at places and with means of its own choosing.”

What did that mean in practice? At the discretion of the president, the entirety of the American nuclear stockpile would be delivered to enemy targets, both military and civilian. It was a first-strike policy: The enemy faced vast destruction if the United States determined that it crossed a line. Eisenhower and his staff considered it the ultimate deterrence.

It also attracted immediate skepticism from strategists. Critics of the policy considered it reckless and crude. First, it seemed practically an invitation for the Soviets to strike America; before a major action, Soviet forces should eliminate the American means to respond. Second, Eisenhower drew no bright line for incurring nuclear attack. Was America ready to initiate nuclear exchange, and guarantee the deaths of millions, in order to prevent a small country from turning Communist? What about Soviet meddling in the internal affairs of an allied country? In other words, this commitment to initiate exchange was insufficiently credible.

Strategists who made it their living to think about nuclear exchange attempted to make improvements. Many of the them were analysts at the RAND Corporation, a research institute set up by the Air Force to improve engineering and ponder novel scenarios for the modern world. These analysts tried to create options between official U.S. displeasure and full-scale thermonuclear exchange.

The rest of this essay is about certain ideas they developed to reduce the likelihood of mutual destruction. It gives a broad overview of the evolution of American strategic thinking, which started from massive deterrence, then moved through to reject elaborate methods of defense, and ended up on relying on once again on a robust system of deterrence.

Counterforce

William Kaufmann was a RAND analyst and political science professor who tried to create opportunities to wage limited war given weapons of unlimited power. He developed and was the proponent of a strategy that came to be known as “counterforce.”

There are two types of targets: military, which includes airbases, command stations, barracks, etc.; and civilian, which means cities and industrial sites. Early nuclear plans made no distinction between them. When authorized by the president, the stockpile would be launched against every target deemed to be valuable.

Kaufmann developed a different strategy: In case of conflict, not every warhead would be launched, and those that were launched would strike only military targets. The goal was to wipe out the enemy’s military capabilities while warheads held in reserve would threaten enemy cities. In the ideal world, after suffering a (reduced) retaliatory strike, the United States would have eliminated Soviet military capabilities and would be able to use Soviet cities as hostages to bargain for surrender.

What were the virtues of counterforce, as opposed to the cities-also countervalue, strategy?

First, civilians would avoid the brunt of the force. Vast numbers of innocents in cities would be largely spared. In a full-scale nuclear exchange, defense scenarios anticipated hundreds of millions of Soviet and American deaths, no matter who launched first. A counterforce strike also gives an incentive to the retaliating side to also target only military sites. A successful counterforce attack was projected to save over 100 million lives. Moreover, from a strategic standpoint, it created a chance for nuclear war to be limited. Counterforce offered the enemy an opportunity to recognize defeat early and so surrender with its civilian force intact.

The Pentagon warmed to counterforce. By 1962, Secretary McNamara publicly declared counterforce to be official U.S. policy, and encouraged the Soviets to adopt it as well.

It also had its skeptics, who argued that there were no guarantees that it might work as planned. When the enemy detected ICBMs, SLBMs, and strategic bombers racing towards its territory, it had no way to determine that it was subject to a “mere” counterforce strike. It was not clear that counterforce might really stave off escalation, and perhaps the simplicity of massive deterrence was still the best strategy after all.

Curtis LeMay, director of the Strategic Air Command (SAC), thought it meant going soft on the enemy; Thomas Schelling, who worked at RAND and consulted for the Pentagon, never fully embraced it; and even McNamara ended up skeptical of its usefulness. As a result, American nuclear strategy see-sawed between counterforce and massive deterrence; it would be integrated into nuclear plans, and then quickly stripped away, only to be re-introduced years later.

Conventional War

In addition to counterforce, Kaufmann also advocated for another way to keep war limited: Building up conventional military forces.

This was precisely the strategy rejected by Eisenhower. The Soviets were far superior in troops and tanks, enough to overrun Europe. Instead of trying to match their forces, Eisenhower wanted to rely on the massively-destructive and easily-deployable nuclear bomb to stave off attack or deter aggression in the first place.

But massive deterrence was risky. The enemy will try out many gray areas to test which actions were permissible; in each instance the American president has to decide whether it permits the action and lose face or launch the warheads, which risks national suicide while guaranteeing the deaths of millions.

Kaufmann thought that it was reckless to use nuclear weapons at all, save only in the gravest of circumstances. He observed that America’s most successful foreign actions were carried out without the use of nuclear weapons (as was the case with the Berlin Airlift and the intervention in Korea), and continued to believe that their use could be spared.

But it would require that the United States invest in different means for response. He suggested building up conventional forces, which meant included significant ground forces to beat back a Soviet invasion of Europe and smaller scale teams that can be rapidly deployed to “hot spots.”

In the logic of deterrence, an investment in conventional warfare is a signal that nuclear arms were too dangerous to be used. Building up conventional forces was advocated not only by Kaufmann but also important figures like Bernard Brodie and Herman Kahn, two of the earliest nuclear strategists. The growth of conventional forces in the Kennedy Administration was an acknowledgment to the Soviets that they could meet conflict without compelling the use of nuclear arms.

Schelling, in his Nobel Prize lecture, considered conventional forces to be a form of arms control, one as if both sides signed a treaty not to engage in nuclear change: “The investment in restraints on the use of nuclear weapons was real as well as symbolic.” With more options available, going nuclear was moved even further back to be the path of last resort.

SIOP: Single Integrated Operational Plan

Until the end of the Eisenhower Administration, nuclear target planning was delegated to senior military commanders. No single group or person oversaw the selection of targets nor organized the deployment of the nuclear force.

Take a second to imagine what that meant. The president had only the binary decision to strike or not strike. If he decided to strike, it’s up to the different services, each with their own stockpile, to deploy the weapons. The Air Force, the Navy, and the Army made their own war plans. Multiple, redundant warheads would be delivered to a target if it was selected by more than one branch. Due to a lack of coordination, an attacking force might be wiped out by the detonation caused by another American strike. Everyone launched at their own pace; the Navy was found to have been planning strikes fifteen days after the start of war.

This was the state of American nuclear plans for over a decade. The Joint Chiefs of Staff were resistant to the idea of a single branch, which would most likely end up being the Air Force, to control all warheads. The Navy was loath to give up its prized nuclear-armed Polaris submarines, and regarded all moves to centralize to be a plot by the Air Force to monopolize nuclear weapons.

It was only towards the end of the Eisenhower Administration that military objections were overruled. In 1960, Eisenhower authorized the creation of the Single Integrated Operational Plan (pronounced SEYE-OP) to coordinate a contingent plan of nuclear strikes. Only then did the United States integrate target selection into a national plan led by a single organization: the SAC.

SIOP went through different iterations. Some of them integrated the doctrine of counterforce, giving the president different options for launching strikes.

But still it didn’t eliminate concerns about overkill. SAC made extremely pessimistic assumptions about the probability of a successful strike. They planned to lay down four thermonuclear warheads with the power of 7.8 megatons for a Russian city the size of Hiroshima; the successful detonation of all of them would generate an explosive force 600 times more powerful than the 12.5 kiloton bomb that wiped out the Japanese city. It also did not consider the impact of fallout damage, because fallout generates little military value. These assumptions gave SAC the chance to constantly demand more bombs and bombers.

Still, most iterations of SIOP still emphasized the launch of nearly the entire stockpile. Plan 1-A would involve launching over 3000 nuclear weapons, projected to kill nearly 300 million people mostly in Russia and China. SIOP also targeted countries like Albania, for which the presence of a single large air-defense radar was enough to justify a strike by a megaton bomb; no consideration was given to the political fact that the country had been drifting away from the Soviet bloc.

SIOP was refined by different administrations and by different secretaries of defense, but it always suffered two flaws: massive overkill and relative inflexibility in the severity of response. Reading SIOP made presidents and generals feel “appalled” and “stunned”; it would be referred to by Henry Kissinger as a “horror strategy.”

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Herman Kahn and the Bomb

Herman Kahn is the kind of eccentric whom you no longer publicly see. In his capacity as an analyst at the RAND Corporation, he made a vast effort to get the public to consider his ideas: What happens next after thermonuclear exchange.

The thought of nuclear war was mostly too grim to behold, and Kahn acknowledged that head on by writing a book called Thinking About the Unthinkable. With morbid humor he challenged people to think about deterrence strategies, mineshaft shelters, and the hydrogen bomb. He loved debate, and he reached out to the public with “twelve-hour lecture, split into three parts over two days, with no text but with plenty of charts and slides.”

Kahn was the main inspiration for Dr. Strangelove. He was supposed to have the highest I.Q. ever recorded, and he made real contributions in shaping U.S. nuclear strategy through his commentary and analysis. He was accused by his colleagues and by the public of treating the annihilation of millions with far too much levity than the subject deserved. Some of the things he said have been really shocking, but it’s a bit of a shame that we don’t really see brilliant oddballs like him much in public, to listen to his ideas and then debate them.

Here are a few interesting facts about him, from two sources. First, Fred Kaplan’s book Wizards of Armageddon, which features him for a chapter:

Brodie and Kauffman approached the business of first-use and counterforce strikes uneasily, as acts of desperation among a terrible set of choices. Kahn, on the other hand, dived in eagerly.

At one point, Kahn had calculations on bomb designs plugged into all twelve high-speed computers then operating in the United States.

Calculations suggested that even with a purely countermilitary attack, two million people would die, a horrifyingly high number… (But) as Kahn phrased it, only two million people would die. Alluding almost casually to “only” two million dead was part of the image that Kahn was fashioning for himself, the living portrait of the ultimate defense intellectual, cool and fearless… Kahn’s specialty was to express the RAND conventional wisdom in the most provocative and outrageous fashion possible.

Along with an engineer at RAND, Kahn figured out on paper that such a Doomsday Machine was technologically feasible.

In the early-to-mid 1960s, Kahn would work out an elaborate theory of “escalation, ” conceiving 44 “rungs of escalation” from “Ostensible Crisis” to “Spasm of Insensate War,” with the rungs in between including “Harassing Acts of Violence,” “Barely Nuclear War,” “Justifiable Counterforce Attacks” and “Slow-Motion Countercity War.”

Kahn felt that having a good civil-defense system made the act of going to the nuclear brink an altogether salutary thing to do on occasion.

More than 5,000 people heard (his lectures) before Kahn finally compiled them into a 652-page tome called On Thermonuclear War. It was a massive, sweeping, disorganized volume, presented as if a giant vacuum cleaner had swept through the corridors of RAND, sucking up every idea, concept, metaphor, and calculation that anyone in the strategic community had conjured up over the previous decade. The book’s title was an allusion to Clausewitz’s On War… Published in 1960 by the Princeton University Press, it sold an astonishing 30,000 copies in hardcover, quickly became known simply as OTW among defense intellectuals, and touched off fierce controversy among nearly everyone who bore through it.

Strangelove, the character and the film, struck insiders as a parody of Herman Kahn, some of the dialogue virtually lifted from the pages of On Thermonuclear War. But the film was also a satire of the whole language and intellectual culture of the strategic intellectual set. Kahn’s main purpose in writing OTW was “to create a vocabulary” so that strategic issues can be “comfortably and easily” discussed, a vocabulary that reduces the emotions surrounding nuclear war to the dispassionate cool of scientific thought. To the extent that many people today talk about nuclear war in such a nonchalant, would-be scientific manner, their language is rooted in the work of Herman Kahn.

And from Louis Menand, writing in the New Yorker:

In his day, Kahn was the subject of many magazine stories, and most of them found it important to mention his girth—he was built, one journalist recorded, “like a prize-winning pear”—and his volubility.

He became involved in the development of the hydrogen bomb, and commuted to the Livermore Laboratory, near Berkeley, where he worked with Edward Teller, John von Neumann, and Hans Bethe. He also entered the circle of Albert Wohlstetter, a mathematician who had produced an influential critique of nuclear preparedness, and who was the most mandarin of the rand intellectuals. And he became obsessed with the riddles of deterrence.

For many readers, this has seemed pathologically insensitive. But these readers are missing Kahn’s point. His point is that unless Americans really do believe that nuclear war is survivable, and survivable under conditions that, although hardly desirable, are acceptable and manageable, then deterrence has no meaning. You can’t advertise your readiness to initiate a nuclear exchange if you are unwilling to accept the consequences. If the enemy believes that you will not tolerate the deaths of, say, twenty million of your own citizens, then he has called your bluff. It’s the difference between saying, “You get one scratch on that car and I’ll kill you,” and saying, “You get one scratch on that car and you’re grounded for a week.”

Kubrick was steeped in “On Thermonuclear War”; he made his producer read it when they were planning the movie. Kubrick and Kahn met several times to discuss nuclear strategy, and it was from “On Thermonuclear War” that Kubrick got the term “Doomsday Machine.”

Kubrick’s plan to make a comedy about nuclear war didn’t bother Kahn. He thought that humor was a good way to get people thinking about a subject too frightening to contemplate otherwise, and although his colleagues rebuked him for it—“Levity is never legitimate,” Brodie told him—he used jokes in his lectures.

Kahn died, of a massive stroke, in 1983. That was the year a group headed by Carl Sagan released a report warning that the dust and smoke generated by a thermonuclear war would create a “nuclear winter,” blocking light from the sun and wiping out most of life on the planet. Kahn’s friends were confident that he would have had a rebuttal.

Why Is Peter Thiel Pessimistic About Technological Innovation?

We’ve all heard this quote from Peter Thiel: “We wanted flying cars, instead we got 140 characters.” It’s the introduction of his VC’s manifesto entitled “What Happened to the Future?”, and it neatly sums up his argument that we’re economically stagnant and no longer living in a technologically-accelerating civilization.

Less well-known is a slightly longer quote from Thiel that also summarizes his views on the technological slowdown. This is from a debate with Marc Andreessen:

“You have as much computing power in your iPhone as was available at the time of the Apollo missions. But what is it being used for? It’s being used to throw angry birds at pigs; it’s being used to send pictures of your cat to people halfway around the world; it’s being used to check in as the virtual mayor of a virtual nowhere while you’re riding a subway from the nineteenth century.”

Why is Thiel pessimistic about the the recent pace of technological innovation and economic growth? Here’s a selection of his evidence that we’re no longer technologically accelerating, collected from his writings and public talks.

(Remarks from talks are lightly edited for clarity. Click here to see this article in slightly prettier formatting.)

Energy

Look at the Forbes list of the 92 people who are worth ten billion dollars or more in 2012. Where do they make money? 11 of them made it in technology, and all 11 were in computers. You’ve heard of all of them: It’s Bill Gates, it’s Larry Ellison, Jeff Bezos, Mark Zuckerberg, on and on. There are 25 people who made it in mining natural resources. You probably haven’t heard their names. And these are basically cases of technological failure, because commodities are inelastic goods, and farmers make a fortune when there’s a famine. People will pay way more for food if there’s not enough. 25 people in the last 40 years made their fortunes because of the lack of innovation; 11 people made them because of innovation. (Source: 39:30)

Real oil prices today exceed those of the Carter catastrophe of 1979–80. Nixon’s 1974 call for full energy independence by 1980 has given way to Obama’s 2011 call for one-third oil independence by 2020. (Source)

“Clean tech” has become a euphemism for “energy too expensive to afford,” and in Silicon Valley it has also become an increasingly toxic term for near-certain ways to lose money. (Source)

One of the smartest investors in the world is considered to be Warren Buffett. His single biggest investment is in the railroad industry, which I think is a bet against technological progress, both in transportation and energy. Most of what gets transported on railroads is coal, and Buffett is essentially betting that after the 21st century, we’ll look more like the 19th rather than the 20th century. We’ll go back to rail, and back to coal; we’re going to run out of oil, and clean-tech is going to fail. (Source: 10:00.)

There was a famous bet in the between Julian Simon, an economist, and Paul Ehrlich in 1980 about whether a basket of commodity prices will go down in price over the next decade. Simon famously won this bet and this was sort of taken as evidence that we have tremendous technological progress and things are steadily getting better. But if you had to re-run the Simon-Ehrlich bet on a rolling decade basis then Paul Ehrlich has been winning the bet every year since 1994 when the price of this basket of goods has been getting more expensive on a decade-by-decade basis. (Source: 8:30)

Transportation

Consider the most literal instance of non-acceleration: We are no longer moving faster. The centuries-long acceleration of travel speeds — from ever-faster sailing ships in the 16th through 18th centuries, to the advent of ever-faster railroads in the 19th century, and ever-faster cars and airplanes in the 20th century — reversed with the decommissioning of the Concorde in 2003, to say nothing of the nightmarish delays caused by strikingly low-tech post-9/11 airport-security systems. (Source)

Biotech

Today’s politicians would find it much harder to persuade a more skeptical public to start a comparably serious war on Alzheimer’s disease — even though nearly a third of America’s 85-year-olds suffer from some form of dementia. (Source)

The cruder measure of U.S. life expectancy continues to rise, but with some deceleration, from 67.1 years for men in 1970 to 71.8 years in 1990 to 75.6 years in 2010. (Source)

We have one-third of the patents approved by the FDA as we have 20 years ago. (Source: 7:35)

Space

The reason that all the rocket scientists went to Wall Street was not only because they got paid more on Wall Street, but also because they were not allowed to build rockets and supersonic planes and so on down the line. (Source: 45:50.)

Space has always been the iconic vision of the future. But a lot has gone wrong over the past couple of decades. Costs escalated rapidly. The Space Shuttle program was oddly Pareto inferior. It cost more, did less, and was more dangerous than a Saturn V rocket. It’s recent decommissioning felt like a close of a frontier. (Source)

Agriculture

The fading of the true Green Revolution — which increased grain yields by 126 percent from 1950 to 1980, but has improved them by only 47 percent in the years since, barely keeping pace with global population growth — has encouraged another, more highly publicized “green revolution” of a more political and less certain character. We may embellish the 2011 Arab Spring as the hopeful by-product of the information age, but we should not downplay the primary role of runaway food prices and of the many desperate people who became more hungry than scared. (Source)

Finance

Think about what happens when someone in Silicon Valley builds a successful company and sells it. What do the founders do with that money? Under indefinite optimism, it unfolds like this:

  • Founder doesn’t know what to do with the money. Gives it to large bank.
  • Bank doesn’t know what to do with the money. Gives it to portfolio of institutional investors in order to diversify.
  • Institutional investors don’t know what to do with money. Give it to portfolio of stocks in order to diversify.
  • Companies are told that they are evaluated on whether they generate money. So they try to generate free cash flows. If and when they do, the money goes back to investor on the top. And so on.

What’s odd about this dynamic is that, at all stages, no one ever knows what to do with the money. (Source)

10-year bonds are yielding about 2%. The expected inflation over the next decade is 2.6%. So if you invest in bonds then in real terms you’re expecting to lose 0.6% a year for a decade. This shouldn’t be surprising, because there’s no one in the system who has any idea what to do with the money. (Source: 27:35)

Science and Engineering

We have 100 times as many scientists as we did in 1920. If there’s less rapid progress now than in 1920 then the productivity per scientist is perhaps less than 1% of what it was in 1920. (Source: 50:20)

The Empire State Building was built in 15 months in 1932. It’s taken 12 years and counting to rebuild the World Trade Center. (Source: 36:00)

The Golden Gate Bridge was built in three-and-a-half years in the 1930s. It’s taken seven years to build an access road that costs more than the original bridge in real dollars. (Source: 36:10)

When people say that we need more engineers in the U.S., you have to start by acknowledging the fact that almost everybody who went into engineering did very badly in the last few decades with the exception of computer engineers. When I went to Stanford in the 1980s, it was a very bad idea for people to enter into mechanical engineering, chemical engineering, bioengineering, to say nothing of nuclear engineering, petroleum engineering, civil engineering, and aero/astro engineering. (Source: 45:20)

Computers

Even if you look at the computer industry, there are some things that aren’t as healthy as you might think. On a number of measurements, you saw a deceleration in the last decade in the industry. If you look at labor employment: It went up 100% in the 1990s, and up 17% in the years since 2000. (If you ignore the recession, it’s gone up about 38% since 2003.) So it’s slower absolute growth, and much lower percentage growth. (Source: 8:40)

If you measured the market capitalizations of companies, Google and Amazon (the two big computer companies created in the late-nineties) are worth perhaps two or three times as all companies combined since the year 2000. If you look at it through labor or capital, there’s been some sort of strange deceleration. (Source: 9:10)

We have a large Computer Rust Belt that nobody likes to talk about. It’s companies like Cisco, Dell, Hewlett Packard, Oracle, and IBM. I think that the pattern will be to become commodities that no longer innovate. There are many companies that are on the cusp. Microsoft is probably close to the Computer Rust Belt. The company that’s shockingly and probably in the Computer Rust Belt is Apple. Is the iPhone 5, where you move the phone jack from the top of the phone to the bottom of the phone really something that should make us scream Hallelujah? (Source: 9:40)

The Technologically-Accelerating Civilization

I sort-of date the end of rapid technological progress to the late-60s or early-70s. At that point something more or less broke in this country and in the western world more generally which has put us into a zone where there’s much slower technological progress. (Source: 39:30)

If you look at 40-year periods: From 1932 to 1972 we saw average incomes in the United States go up by 350% after inflation, so we were making four-and-a-half times as much. And this was comparable to the progress in the forty years before that and so on going back in time. 1972 to 2012: It’s gone up by 22%. (Source: 14:50)

During the last quarter century, the world has seen more asset booms or bubbles than in all previous times put together: Japan; Asia (ex-Japan and ex-China) pre- 1997; the internet; real estate; China since 1997; Web 2.0; emerging markets more generally; private equity; and hedge funds, to name a few. Moreover, the magnitudes of the highs and lows have become greater than ever before: The Asia and Russia crisis, along with the collapse of Long-Term Capital Management, provoked an unprecedented 20-standard-deviation move in financial derivatives in 1998. (Source)

People are starting to expect less progress. Nixon declared the War on Cancer in 1970 and said that we would defeat cancer in 1976 by the bicentennial. Today, 42 years later we are by definition 42 years closer to the goal, but most people think that we’re further than six years away. (Source: 12:10)

How big is the tech industry? Is it enough to save all Western Civilization? Enough to save the United States? Enough to save the State of California? I think that it’s large enough to bail out the government workers’ unions in the city of San Francisco. (Source: 29:00)

The Conclusion

The first step is to understand where we are. We’ve spent 40 years wandering in the desert, and we think that it’s an enchanted forest. If we’re to find a way out of this desert and into the future, the first step is to see that we’ve been in a desert. (Source)

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Liar’s Poker, by Michael Lewis

Michael Lewis said that he wrote Liar’s Poker so that fewer idealistic college kids would dream of working on Wall Street. That is not to be believed. He makes Wall Street seem far too glamourous.

He could have filled the book with the miseries of working at your desk for 16 hours a week. Instead he made it about working in London, about making fun of trainees in hilarious ways, and about making piles and piles of cash. You get amazing stories here. Who can forget the amazing put-down: “Equities in Dallas!”

There are so many vivid characters. You feel that they’re clever, and mean, but not necessarily evil. Most of them seem superbly intelligent.

Lewis is a dazzling writer. Here are my favorite lines.

To succeed on the Salomon Brothers trading floor a person had to wake up each morning “ready to bite the ass off a bear.”

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Books I Like

The books I’ve liked since the time I started college. I try to excerpt the ones I like best.

What should I read next? Email me: danwyd@g

  • Stendhal, The Red and the Black
  • Smith, The Theory of Moral Sentiments
  • Melville, Moby-Dick
  • Cowen, In Praise of Commercial Culture
  • Wharton, The House of Mirth
  • Hayek, The Constitution of Liberty
  • Ross, The Rest is Noise
    • Runs through the personalities of the 20th century. My favorite book on music.
  • Epstein, Simple Rules for a Complex World
  • Proust, Swann’s Way, trans. Lydia Davis
  • Thiel & Masters, CS 183 notes & Zero to One (related essay)
    • If you must pick one, read the lecture notes. The radicalism of the ideas were mainstreamed for the book.
  • Schelling, Micromotives and Macrobehavior, The Strategy of Conflict
  • Friedman, The Machinery of Freedom
  • Laozi, Dao De Jing
  • Mann, 1491
  • Cowen, Discover Your Inner Economist
  • Mallaby, More Money Than God
  • Gertner, The Idea Factory
    • History of the place that labs that developed radar, transistors, satellites, cell phone telephony, and more.
  • Adelman, Worldly Philosopher: The Odyssey of Albert O. Hirschman
  • Stendhal, The Charterhouse of Parma
  • Ridley, The Rational Optimist
    • A wonderful book about the scientific achievements that’s given us better nutrition, longer lifespans, and easier access to energy, etc.
  • Plato, Dialogues
    • In particular Crito and Phaedo.
  • Cowen, The Great Stagnation & Average is Over
  • Wolfe, Bonfire of the Vanities
  • Fontane, Effi Briest (trans. Ritchie Robertson)
    • There’s so much nuance; the most exciting plot detail isn’t even described, only discussed afterwards.
  • Balzac, Cousin Bette
  • Ford, Lights in the Tunnel
  • Zweig, Beware of Pity
  • Doherty, Radicals for Capitalism
    • Details the rise of the American libertarian movement. Serious study, but the personalities are so crazy that it’s fun to read.
  • Capote, Breakfast at Tiffany’s
  • Frank, The Economic Naturalist
    • Short stories about the economic way of thinking.
  • Isaacson, Steve Jobs
  • Shakespeare: Macbeth, Romeo and Juliet, Merchant of Venice, Othello
  • Packer, The Unwinding
  • Dumas, The Count of Monte Cristo
  • Rand, Atlas Shrugged, The Fountainhead
  • Duffy, The World as I Found It
    • A novel about the interactions of Russell, Wittgenstein, and G.E. Moore. Very fun.
  • Kafka, The Castle, The Metamorphosis, assorted short stories
  • Williams, Stoner
  • Harford, The Undercover Economist
    • Best parts were the sections about price discrimination.
  • Nabokov, Lolita
  • Caplan, The Myth of the Rational Voter
  • Zola, Germinal
  • Taleb, The Black Swan
  • Landsburg, The Armchair Economist
  • Dennett, Darwin’s Dangerous Idea
  • Wharton, The Age of Innocence
  • Haidt, The Righteous Mind
    • Kevin Simler put it best: “How humans actually, empirically, think about morality.”
  • Cowen & Grandin, Thinking Differently
  • Baker, Days of Fire
  • Lewis, The Big Short
  • Arrison, 100 Plus
  • Carroll, Alice’s Adventures in Wonderland
  • Monroe: Hateship, Friendship, Courtship, Loveship
  • McCloskey, Bourgeois Virtues & Bourgeois Dignity
    • First 50 pages of the Apology in Virtues is most worth reading.
  • McArdle, The Up Side of Down
  • Heinlein, The Moon is a Harsh Mistress
  • Conrad, Heart of Darkness
  • Knausgaard, Min Kamp Vol. 1
    • Uncomfortable, mesmerizing.
  • Lewis, Liar’s Poker (Excerpts)
  • Wapshott, Keynes Hayek
  • Heilbroner, The Worldly Philosophers
    • The first economics-y book I read; I spent two years of undergrad wondering when we were going to cover Thorstein Veblen.
  • Thaler & Sunstein, Nudge
    • Super well argued, I couldn’t continue to be a knee-jerk skeptic.
  • St. Aubyn, Patrick Melrose series
  • When I was little I read most of the Discworld series by Terry Pratchett. I really liked them, but haven’t picked any of them up again.

(Chronological from here…)

  • Stephenson, Cryptonomicon
    • A lot of science wrapped in a thrilling story.
  • Cumings, The Korean War
  • Glover, Humanity: A Moral History of the Twentieth Century
  • Cowen, An Economist Gets Lunch
  • Cirincione, Bomb Scare
  • Kaplan, Wizards of Armageddon
  • Lewis, Boomerang
    • More fun than The Big Short, not quite as good as Liar’s Poker.
  • Roberts, The Storm of War
  • Flynn, Gone Girl
  • Brecht, The Threepenny Opera
    • Translated by Ralph Manheim, try to go see it in original German.
  • Herman, How the Scots Invented the Modern World
  • Rilke, Duino Elegies, trans. Stephen Mitchell
  • Wolfe, The Right Stuff (related essay)
  • Lovecraft, At the Mountains of Madness
  • Judt, Memory Chalet
    • Excellent essays on growing up in ’50s/’60s Europe.
  • Mann, The Magic Mountain, trans. J.E. Woods
    • First 150 pages or so are boring, but it picks up. The ruminations on death/dying make it worth it.
  • Glass, Music Without Words: A Memoir (related essay)
  • Sebald, Austerlitz
  • Stephenson, The Diamond Age
    • Far better I feel than Snow Crash
  • Palaver, René Girard’s Mimetic Theory (related essay)
  • George, Ninety Percent of Everything: Inside Shipping
    • I love ships and ships love me back. This is pretty much the perfect nonfiction book: many, many interesting facts weaved into a narrative story; and it’s slim, and doesn’t go overboard with too much detail.
  • Benford, The Wonderful Future that Never Was (related essay)
  • Watson, The German Genius (related essay)
  • Wharton, Ethan Frome
  • The Box, Marc Levinson (I now work at a company that arranges for air and ocean freight)
  • PKD, The Man in the High Castle
  • Scurlock, King Larry: The Life and Ruins of a Billionaire Genius
  • Parsons, The British Imperial Century
  • Stargardt, The German War: A Nation Under Arms, 1939–1945
    • The war from the perspective of the German population. One interesting fact: A quarter of Goebbel’s budget was spent on theatre, which was about as much as he spent on propaganda, and more than twice as much on film.
  • Pomeranz and Topik, The World That Trade Created
  • Chang, Factory Girls: From Village to City in a Changing China
  • Koestenbaum, The Queen’s Throat
    • A remarkable book; this is how you write about opera.
  • Yip & McKern, China’s Next Strategic Advantage: From Imitation to Innovation
  • Vance, Elon Musk
  • Tombs, The English And Their History (related essay)
  • DeWitt, Lightning Rods
  • Herman, To Rule the Waves: How the British Navy Shaped the Modern World
  • Liu, The Three Body Problem (related essay)
  • Liu, The Dark Forest
  • Foldenyi, Melancholy (related essay)
  • Liu, Death’s End
  • Kroeber, China’s Economy: What Everyone Needs to Know
  • Shepherd, Hitler’s Soldiers: The German Army in the Third Reich
  • Gewirtz, Unlikely Partners: Chinese Reformers, Western Economists, and the Making of Global China
  • Brown, CEO China: The Rise of Xi Jinping
  • Studwell, How Asia Works: Success and Failure in the World’s Most Dynamic Region
  • McPhee, La Place de la Concorde Suisse
  • Cowen, The Complacent Class (related essay)
  • Harford, Messy: The Power of Disorder to Transform Our Lives
  • Smil, Made in the USA: The Rise and Retreat of American Manufacturing
    • Sometimes polemical, but still a good overview of the dominance and decline of the American industrial base
  • Wawro, The Franco-Prussian War: The German Conquest of France in 1870-1871
  • Avent, The Wealth of Humans: Work, Power, and Status in the Twenty-first Century
  • Miodownik, Stuff Matters: Exploring the Marvelous Materials that Shape our Man-Made World
    • A wonderful, short book on materials: steel, paper, glass, plastics, etc.
  • Stephenson, Seveneves
  • Longerich, Goebbels
  • Stephenson, Snow Crash
  • Arthur, The Nature of Technology: What it is and How it Evolves
  • Ge Fei, The Invisibility Cloak
  • Yuk Hui, The Question Concerning Technology in China
  • Haskel & Westlake, Capitalism without Capital: The Rise of the Intangible Economy
  • Platt, Autumn in the Heavenly Kingdom
    • A history that reads almost like a novel
  • Cartledge, A System Apart: Hong Kong’s Political Economy from 1997 Until Now
  • Mann, Buddenbrooks
    • Much easier to get through than Der Zauberberg
    • A very Chinese novel… shirtsleeves to shirtsleeves in four generations
  • Lewis, The Tang Dynasty
    • What’s important about Tang? Drainage projects in the south (Jiangnan and Lingnan), making it the permanent economic center of the empire; institutionalization of the Sui Codes; breaking of the aristocratic families.
  • Bernhard, The Loser
  • Hanson, The Second World Wars
    • At some point one should decide to stop reading about this topic. This superb book is about it for me.
  • Babitz, Slow Days, Fast Company: The World, The Flesh, and L.A.: Tales
  • Shakespeare, King Lear
    • The heaps of suffering make it feel a little bit ridiculous by the end. Otherwise, it is very good.
  • Stephenson, Some Remarks: Essays and Other Writing
    • Worth reading for the Stephenson fan. And which geek wouldn’t be?
  • Johnstone, We Were Burning: Japanese Entrepreneurs And The Forging Of The Electronic Age
    • The book does not live up to its fantastic title. Heaps of facts, but not really conceptually-driven, and I did not find that I was able to drew many broader lessons.
  • Kuhn, The Age of Confucian Rule: The Song Transformation of China
  • Brook, The Troubled Empire: China in the Yuan and Ming Dynasties
    • The best in the HUP History of Imperial China series; most analytically-driven, a focus on the right topics, and most cleverly written. It’s helpful to learn the impact of the Little Ice Age on the Ming.
  • Leys, The Hall of Uselessness: Collected Essays
    • Very good reflections on Chinese aesthetics, with a focus on painting and calligraphy
  • Rowe, China’s Last Empire: The Great Qing
  • Lee, Pachinko
  • Cao, Dream of the Red Chamber
  • Sigmund, Exact Thinking in Demented Times
    • An excellent book about some extraordinary people. It’s as demented as advertised.
  • Ball, The Water Kingdom: A Secret History of China
    • I thought this was quite bad, so I’m encouraging you to skip it
  • Mikitani and Mikitani, The Power to Compete
    • My favorite genre of book: A realization that economic growth has been way too slow, and constructive proposals to accelerate it
  • Pierenkemper and Tilly, The German Economy During the Nineteenth Century
  • Lewis, The Money Culture
  • Field, A Great Leap Forward: 1930s Depression and U.S. Economic Growth
    • Highly technical book, excellent reading on technology developments
  • Caro, The Passage of Power: The Years of Lyndon Johnson
  • Brook, The Confusions of Pleasure: Commerce and Culture in Ming China
  • Vogel, Deng Xiaoping and the Transformation of China
  • Porter, Takeuchi, & Sakakibara, Can Japan Compete?
    • Evaluation of Japanese industrial policy
  • Osnos, Age of Ambition: Chasing Fortune, Truth and Faith in the New China
  • Naipaul, An Area of Darkness
  • Girard, I See Satan Fall Like Lightning
  • Baldwin, The Great Convergence,
  • Heilmann, The Red Swan
  • Dyson, Disturbing the Universe
  • Spence, The Search for Modern China
  • Simmons, Hyperion
    • Absorbing story, but it also makes me see why science fiction has a bad name in so many circles
  • Clark, Iron Kingdom: The Rise and Downfall of Prussia, 1600–1947
    • Ultimately a disappointment, with too much of a focus on political personalities. I am still desperate to read a good history of Germany, with a focus on economic growth rather than individual leaders.
  • Khakpour, Sick: A Memoir
  • Liu, Invisible Planets
  • PKD, Ubik
  • Williams, On Opera
  • Döblin, Bright Magic Stories
  • O’Donnell, Wong, and Bach, Learning from Shenzhen
  • Ferrante, My Brilliant Friend
  • Ferrante, The Story of a New Name
  • Koss, Where the Party Rules
  • Luce, In Spite of the Gods
  • Ferrante, Those Who Leave and Those Who Stay
  • Ferrante, The Story of the Lost Child
  • Tooze, Crashed: How a Decade of Financial Crises Changed the World
  • Can, Love in the New Millenium
  • PKD, Valis
  • Shan, Out of Gobi
  • PKD, Flow My Tears, the Policeman Said
  • Tooze, The Wages of Destruction: The Making and Breaking of the Nazi Economy
    • A fantastic history
  • Pamuk, My Name is Red
  • PKD, The Three Stigmata of Palmer Eldritch
  • Hager, The Alchemy of Air
  • Yan, Leadership and the Rise of Great Powers
  • Kater, Culture in Nazi Germany
    • Michael Kater watched a lot of movies and read many contemporary books to tell us about the cultural policies and outputs of the Third Reich
  • PKD, A Scanner Darkly
  • St Aubyn, Dunford
    • It’s fun to read St Aubyn’s accounts of how really rich people can be really mean to each other, but it’s fine to stop with the Patrick Melrose series, which are hard to surpass, and which indeed Dunford fails to surpass
  • Perez, Technological Revolutions and Financial Capital
  • Thackray et al., Moore’s Law
    • A biography of Gordon Moore, much of it skippable, but there’s a good history of the development of Shockley, Fairchild, Intel, and thus Silicon Valley
  • Stapledon, Last and First Men & Star Maker
    • A Hegelian presents two astonishing science fiction novels written in the ’30s. The plot is breathtaking, this is one of my favorite science fiction books.
  • Mitter, Forgotten Ally: China’s World War II
    • There are some interesting facts, but this is not a very conceptual presentation of history
  • PKD, The Divine Invasion
  • Robinson, Red Mars
    • I like it when science fiction recognizes politics. The second half is less interesting than the first.
  • PKD, Martian Time Slip
  • Milosz, The Captive Mind
  • PKD, Our Friends From Frolix 8
  • Walder, China Under Mao
    • This book is conceptually driven, not simply a grim recitation of facts
  • Hounshell, From the American System to Mass Production 1800-1932
    • An excellent technical history of the development of American interchangeable parts
  • Zachary, Endless Frontier: Vannevar Bush, Engineer of the American Century
  • Forster, Howard’s End
  • PKD, Now Wait for Last Year
  • Toland, The Rising Sun: The Decline and Fall of the Japanese Empire, 1936–1945
  • PKD, The Simulacra
  • Ellroy, American Tabloid
  • Davis, Essays One
  • Gilmour, The Pursuit of Italy
  • PKD, Do Androids Dream of Electric Sheep?
  • Flaubert, Madame Bovary
  • Hotta, Japan 1941
  • Osterhammel, The Transformation of the World: A Global History of the Nineteenth Century
  • Sanderson & Forsythe, China’s Superbank
  • Shalamov, Kolyma Tales
  • Stephenson, Anathem
    • So much nerd pleasure
  • May & Neustadt, Thinking In Time: The Uses Of History For Decision Makers
  • Paine, The Wars for Asia 1911-1949
    • At last, a conceptually-organized history of these wars
  • Milton, Paradise Lost
  • PKD, The Transmigration of Timothy Archer
  • Tufte, Artful Sentences: Syntax as Style
  • Houellebecq, Submission
  • PKD, The Crack in Space
  • Huang, Capitalism with Chinese Characteristics
  • Proust, À l’ombre des jeunes filles en fleurs
  • Crow, 400 Million Customers
    • A delight
  • Proust, The Guermantes Way
  • Douthat, The Decadent Society
  • Proust, Sodom and Gomorrah
  • Fishman, One Giant Leap
    • Very good for putting into perspective all the challenging problems that NASA had to solve for Apollo
  • Davis & Wei, Superpower Showdown
  • Brady, Marketing Dictatorship: Propaganda and Thought Work in Contemporary China
  • Proust, The Prisoner
  • Paxman, Friends in High Places: Who Runs Britain?
  • Proust, The Fugitive
  • Mowery & Nelson, Sources of Industrial Leadership
  • Proust, Finding Time Again
  • Meyskens, Mao’s Third Front: The Militarization of Cold War China
  • Yeo, Varieties of State Regulation: How China Regulates Its Socialist Market Economy
  • PKD, Dr. Bloodmoney
  • Pieke, Knowing China: A Twenty-First Century Guide
  • Greene, The Quiet American
  • Todman, Britain’s War: A New World, 1942-1947
  • PKD, Galactic Pot Healer
  • Dyson, Analogia
  • Zhao, Prisoner of the State
  • Dickens, Bleak House
  • Smil, Transforming the Twentieth Century
  • Shakespeare, The Merchant of Venice
  • Swafford, Mozart: The Reign of Love
  • Duke, Thinking in Bets
  • Megargee, Inside Hitler’s High Command
    • A model book for the study of a system
  • Sophocles, Antigone
  • Heller, Catch-22
  • Faulkner, The Sound and the Fury
  • Fravel, Active Defense
  • Tolstoy, War and Peace
  • Le Guin, The Left Hand of Darkness
  • Mill (John Stuart), Autobiography
  • Douglass, Narrative of the Life of Frederick Douglass
  • Reynolds, Abe: Abraham Lincoln in His Times
  • Asimov, Foundation
    • I profess heresy and say that Asimov did not grab me
  • Sivaram, Taming the Sun
  • Shakespeare, The Tempest
  • Abbate and Parker, A History of Opera
    • The best general introduction to this subject, and well-written to boot, featuring sentences that sparkle
  • Lem, Solaris
  • Barmé, In The Red
    • Excellent on Chinese culture in the ’90s
  • Sorkin, Jewish Emancipation: A History Across Five Centuries
  • Baldini, The Story of Giuseppe Verdi
  • Vinge, A Fire Upon the Deep
    • Exhilarating, as good as Stephenson, and more zany
  • Izzo, Laughter Between Two Revolutions
  • Rilke, The Notebooks of Malte Laurids Brigge
  • Funder, Stasiland
    • What a skilled storyteller the author is
  • Kimbell, Italian Opera
  • Osterhammel, Unfabling the East: The Enlightenment’s Encounter with Asia
  • Nikitin, YT
  • Dong, Shanghai: The Rise and Fall of a Decadent City
  • Burnham, Mozart’s Grace
  • Hunter, Opera Buffa in Mozart’s Vienna
  • Hofstadter, Anti-intellectualism in American Life
  • Li, Middle Class Shanghai
  • O’Reagan, Taking Nazi Technology: Allied Exploitation of German Science after the Second World War
  • Abbate, Unsung Voices
  • Chapoutot, The Law of Blood: Thinking and Acting as a Nazi
  • Glantz and House, When Titans Clashed: How the Red Army Stopped Hitler
  • Krepinevich and Watts, The Last Warrior: Andrew Marshall and the Shaping of Modern American Defense Strategy
  • von Glahn, The Economic History of China: From Antiquity to the Nineteenth Century
  • Till, Mozart and the Enlightenment
  • PKD, A Maze of Death
  • McMeekin, Stalin’s War
  • Lindtner, Prototype Nation: China and the Contested Promise of Innovation
  • Kushner, The Mars Room
    • Superb, I want to read all of Kushner’s other novels
  • Niederhoffer, The Education of a Speculator
  • Russell, The Sparrow
  • Shakespeare, A Midsummer Night’s Dream
  • Tolstoy, Anna Karenina
    • So much better than War & Peace: only society scenes, no boring slogs through war
    • But rather reason thus, with reason fetter; philosophy is good, but society is better
  • Saich, From Rebel to Ruler: One Hundred Years of the Chinese Communist Party
  • Watts, Blindsight
  • Heyes, Cognitive Gadgets
  • McDougall, the Heavens and the Earth: A Political History of the Space Age
  • Banks, The Hydrogen Sonata
  • Kushner, The Flamethrowers
  • Tsing, The Mushroom at the End of the World
  • Scott, The Art of Not Being Governed: An Anarchist History of Upland Southeast Asia
  • Gates, China’s Motor: A Thousand Years of Petty Capitalism
    • Tempted to say this is my favorite book about Asia
  • Smil, The Rise and Retreat of American Manufacturing
  • Scott, Seeing Like a State
  • DeLong, Slouching Towards Utopia
  • Rundell, Super-Infinite: The Transformations of John Donne
    • Rundell writes my favorite series in the LRB: profiling delightful animals like the golden mole. And I think this biography works so well because she writes John Donne as a delightful animal.
  • Ullrich, Eight Days in May: The Final Collapse of the Third Reich
  • Labatut, When We Cease to Understand the World
    • A very original work about the madness of scientists
  • Howard, The First World War
  • Scott, Two Cheers for Anarchism
  • Hofmann, Viennese: Splendor, Twilight, and Exile
  • Scott, Weapons of the Weak: Everyday Forms of Peasant Resistance
  • Kushner, Telex From Cuba
  • Reese, Inside the Vatican: The Politics and Organization of the Catholic Church
  • Diaz, Trust
  • Ringen, The Perfect Dictatorship
  • Wilson, Destructive Creation: American Business and the Winning of World War II
  • Friedrich, The Jesuits
  • Farnsworth, Classic English Style
  • Fitzgerald, The Bookshop
  • Kirby, Empire of Ideas: Creating the Modern University from Germany to America to China
  • Scott, Against the Grain
  • Dunlop, Every Grain of Rice
  • Postrel, The Fabric of Civilization: How Textiles Made the World
  • Rundell, Why You Should Read Children’s Books, Even Though You Are So Old and Wise
  • Ypi, Free
  • Kuang, Babel: An Arcane History
  • Tooze, The Deluge
  • Vinge, The Peace War
  • Vinge, Marooned in Realtime
  • Dykstra, Uncertainty in the Empire of Routine: The Administrative Revolution of the Eighteenth-Century Qing State
  • King, On Writing
  • Postman, Technopoly: The Surrender of Culture to Technology
  • Benton, A Search for Sovereignty: Law and Geography in European Empires, 1400–1900
  • Jemisin, The Fifth Season
  • Andreas, Rise of the Red Engineers
    • A China book that makes a strong argument backed up by research both archival and oral
  • Greenhalgh, Just One Child: Science and Policy in Deng’s China
  • Shapiro, Mao’s War Against Nature
  • Yang, Between Winds and Clouds The Making of Yunnan
  • Rogen, The Food of Spain
  • Elliott, Imperial Spain
    • Excellent, helped to answer my big questions on Spain: how did it conquer the Americas and then fall apart so quickly?
  • Farrell & Newman, Underground Empire: How America Weaponized the World Economy
  • Maier, The Project-State and Its Rivals
  • PKD, Vulcan’s Hammer
  • Markson, Wittgenstein’s Mistress
  • Nye, American Technological Sublime
  • Gillis, The Prussian Bureaucracy in Crisis
  • Knausgaard, The Morning Star
    • Much of the best parts of My Struggle, without the tedium
  • Dunlop, Invitation to a Banquet
    • I was pleased to join Fuchsia around a banquet table to record an episode of Conversations with Tyler
  • Roth, Portnoy’s Complaint
    • Everyone warned me how filthy this book is, but no one prepared for how funny
  • Baker and Phongpaichit, A History of Thailand
  • Wong, Party of One: The Rise of Xi Jinping and China’s Superpower Future
  • Ash, The Mountains Are High
  • Cronon, Nature’s Metropolis: Chicago and the Great West
    • I wish there were more economic geographies like this book
  • Lehmann, Desert Edens: Colonial Climate Engineering in the Age of Anxiety
  • Caro, The Power Broker
    • The work is magnificent, but reading it makes me feel that Moses is now underrated
  • Crumb, The Book of Genesis
  • Rundell, The Golden Mole: And Other Vanishing Wonders
  • Kennedy, Engineers of Victory
  • Westad, The Cold War: A World History
  • Tsu, Kingdom of Characters: The Language Revolution That Made China Modern
  • Clarke, Piranesi
  • Freeman, Behemoth: A History of the Factory and the Making of the Modern World
  • Hessler, Other Rivers: A Chinese Education
    • Maybe the best single book to someone curious about China
  • Branigan, Red Memories
  • PKD, Eye in the Sky
    • Surprised this hasn’t been filmed yet
  • Davies, The Unaccountability Machine: Why Big Systems Make Terrible Decisions
  • Pahlka, Recoding America: Why Government Is Failing in the Digital Age and How We Can Do Better
  • Kay Johnson, China’s Hidden Children
  • qntm, There Is No Antimemetics Division
  • Greenhalgh and Winckler, Governing China’s Population
  • Schmitt, Dialogues on Earth and Space
  • Hong Fincher, China’s Leftover Women
  • Baradaran, The Quiet Coup: Neoliberalism and the Looting of America
  • Kotkin, The Magnetic Mountain: Stalinism as a Civilization
  • Harrell, An Ecological History of Modern China
  • Yang, How the COVID-19 Outbreak in China Spiraled Out of Control
  • Haushofer, The Wall
  • Duncan, Rickover and the Nuclear Navy: The Discipline of Technology
  • Carter, Champions Day: The End of Old Shanghai
  • Roth, The Plot Against America
  • Sabin, Public Citizens: The Attack on Big Government and the Remaking of American Liberalism
  • Lei, The Gilded Cage: Technology, Development, and State Capitalism in China
  • Wortman, Admiral Hyman Rickover: Engineer of Power
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