Learn to Have a Stainless Mind

Life is an adventure; it is one journey where one does not want to compromise one’s self. Enjoy laughter, beauty, and love. Success is finding and doing the best of your ability in each moment of your life. Our is the first civilization to plant human-made objects far beyond the surface of our home planet and use them to help us create wealth. That by itself would mark our time as a revolutionary moment in history. Yet little is known about the impact of this fact in our daily lives and our economy. Few are aware that every time they use an ATM or a telephone, they are relying on technology twelve thousand miles from Earth. Or that every patient receiving dialysis or wearing a peacemaker owes some thanks to technologies and, in some cases, people who have left the surface of the planet we call home. Communication satellites, the Global Positioning System (GPS)—developed by the U.S. Defense Department over six decades at a cost estimated at $14 billion—and commercial remote imaging are parts of an emerging space infrastructure that will be greatly elaborated over the decades and centuries to come, with increasing impact on how we create economic value. Nothing more clearly symbolizes today’s changes in the relationship of wealth to the deep fundamental. In its present, still-primitive form—often myopically derided as a wasteful luxury—the drive into space has already transformed many aspects of daily life. One result is a $100 billion Worldwide satellite industry composed of manufacturers such as Boeing, EADS/Astrium and Alcatel Space; launch firms like China Great Wall Industry Corporation; operators and coordinators such as Intersputnik in Russia; plus myriad service firms, space-image distributors and ground-equipment suppliers. And now a second space race is just getting underway. Commercial companies are being formed. These private commercial aerospace companies like Jeff Bezos’ Blue Origin, Richard Branson’s Virgin Orbit, and Elon Musk’s SpaceX, are all building and testing their own reusable rockets and spacecrafts. #RandolphHarris 1 of 18

In fact, Virgin Orbit successfully sent 10 small satellites into orbit, utilizing its unique approach to the task. This mission saw LauncherOne, a heavily modified Boeing 747, fly up to an altitude of 35,000 feet (10,500 meters) before releasing a rocket mounted beneath the plane. The rocket then lit its own engines and lasted off to space, deploying the satellites into low Earth orbit. However, many are left wondering how far the government will allow private industries to go. They believe that private companies could outpace the government and actually established life on a new planet and then start colonizing on that planet, creating their own government, and constructing roads, houses, businesses, and parks in the next 25 years, and that many people, mostly the extremely wealth, will leave Earth in live in these tax havens where corporations have control. This is a vastly different picture than the one we had just a few decades ago. During the 1990s, business pages reported that investors had lost billions in space-industry stocks and that many space firms were in terminal trouble. However, a recent survey by the Satellite Industry Association tells a quite different story—a steady, year-after-year revenue growth rate of 15 percent from the mid-1990s on. What is more, despite temporary overcapacity, now more and more commercial start-ups, and countries are racing to join the space “club.” In addition to the companies we listed above, Brazil and Ukraine, for example, are partnering to launch Ukrainian Cyclone-4 rockets from Brazil’s Alcantara Launch Center—regarded as one of the World’s best launch sites. And, as of 2005, equity firms were buying up stakes in such satellite operators as Intelsat, PanAmSat and New Skies. Similarly, while $100 billion many seem trivial in a multi-trillion-dollar World economy, that number does not begin to tell the whole story. It does not include the hidden increases in value generated by the many industries that directly or indirectly reply on space—big television networks, medical technology, sports teams, advertising agencies, telephone and Internet companies and financial-data suppliers, to cite a few. #RandolphHarris 2 of 18

People in the Arab World have also been gazing at the starts with genius and curiosity for a legion of years. In 2021, the Middle Eastern World built a Mars orbit of the United Arab Emirates’ (UAE) Hope (al-Amal) probe. This ambition is their new space exploration adventure. The Arab governments today have developed a fully 21^st century view of space, by using algebra and spherical trigonometry which are both essential mathematical tools for understanding the motions of Heavenly bodies, with intentions rooted in the quest for profit, saving lives, power, image, and control. The United Arab Emirates’ program is very auspicious. The country has established its national space agency in 2014 and has set amazingly ambitious goals for the future. The UAE space program has about $5.4 billion in public-private support, compared to NASA’s FY21 budget of $23.3 billion. The Mars mission itself was expensive at a cost of $200 million. However, it appears certain that given the success and acclaim accorded the Amal probe, more is on the way. This is why some many people are concerned about the fate of the United States of America and looking for other options as a future home for Rome did once fall, too. Afterall, the theory of convergence, states that poor or developing economies with a higher per capita income can gradually reach similar high levels of per capita income. Thus, all economies, over time, may converge in terms of income per head. However, these developing countries will not be using old infrastructure. Because high technology already exists, they do not have an initial investment to stake to build new roads, architecture, and electric or other technologies. They can use new methods to build high tech cities and homes and leave already developed nations with their antiquated systems, and replace them as a World Super Power. Therefore, the poorer nations grow much faster because of the higher possibilities of growth and over time catch up, and even surpass the richer countries in terms of per capita income such that the divide between the two gets minimized. This theory of convergence of incomes is based on the logic of better opportunities of growth available for developing economics like access to technological know how from the developed World and increasing returns to capital. #RandolphHarris 3 of 18

However, empirical evidence suggests that while some developing economics have been able to effectively tap the available advantages to grow faster and catch up with robust economies, this has not always been true for a large part of the developing World. The limitations of the theory are based on grounds of social, institutional or political differences, which simultaneously influence growth. Yet developed nations have to keep in mind that they are sovereign entities and they need to help their people and businesses succeed to remain successful nations. Because any risk arising of chances of a government failing to make debt repayments or not honouring a loan agreement is a sovereign risk. Such practices can be resorted to by a government in times of economic or political uncertainty or even to portray an assertive stance misusing its independence. A government can restore to such practices by easily altering any of its laws, thereby causing adverse losses to investors. For example, countries like Argentina and Mexico had defaulted on their loan payments in 1970s to a big extent after the oil shock. A little-known consortium of commercial space firms called the Mapping Alliance Program now offers remote sensing, images from space and software for use in computer-aided design, surveying, automated mapping and other services. MAP customers include oil and gas companies, water, gas, and electric utilities, agriculture, mining, and transportation, as well as natural-resource managers. Knowledge derived from space operations is also helping companies anticipate, reduce and hedge their risks. Thus space data play a key role in financial markets in which “weather futures” are traded. Variations in weather can have a major impact on productivity, turnover and overall profitability in fields as diverse as insurance and agriculture as well as [for] the manufacturers and retailers of everything from soft drinks to cold remedies, not to mention the organizers of pop festivals and package holidays. #RandolphHarris 4 of 18

In the United States of America, 3.2 percent ($768 billion) of the entire $24.01 trillion economy was spent on defense. This is example will show how much things change in just a few decades. Now back on subject, according to the Department of Commerce, one seventh of the entire $10 trillion economy in 2001 was subject to weather risk. (Look how much the economy grew in just 20 years and compare the amount spent on defense to what was put at risk by the weather.) Whether futures, traded on LIFFE and other exchanges, offer a way of hedging against that risk. The health industry is another largely unacknowledged beneficiary of space activity. The 750,000 U.S. victims of kidney failure who today survive because of dialysis owe their treatment, in some measure, to NASA and its astronauts. A chemical process developed by the space agency to remove toxic waste from dialysis fluids is not helping patients stay alive. Meanwhile, a company called StelSys, using technology or ideas licensed from the U.S. space agency, is working to develop the equivalent of a dialysis system for patients with liver failure. One of the specialized functions of the human liver is to break down drugs or toxins into less harmful and more water-soluble substances that are more easily excreted from the body. The StelSys experiment—a joint study by NASA and Baltimore-based biotechnology research company StelSys, LLC—will test this function of human liver cells in the microgravity environment aboard the International Space Station, comparing the results to the typical function of supplicate cells on Earth. The findings of this experiment will provide unprecedented information about the effects of microgravity on the proper function of human liver cells, offering new insight into maintaining the health of humans living and working in space. Cells are transported from Earth to the International Space Station using Commercial Refrigerator/Incubator Module (CRIM). One on orbit, the cells are nurtured and grown in the CBOSS Biotechnology Specimen Temperature Controller (BSTC), which has flown continuously abroad the International Space Station since Expedition Thee. Once the cells are gown, they are frozen and stored in the ARCTIC single-locker freezer, a Space Station facility capable of lowering temperatures to -20 degrees Celsius. The frozen cells are then transported back to Earth for study. #RandolphHarris 5 of 18

These scientists are studying liver and kidney cell growth, disease and replacement, using ground-based bioreactor labs, as well as commercial NASA bioreactors. To date, the company has made great strides in developing long-term cell culture techniques, and has created a prototype of a proposed “bio-artificial” liver. StelSys research abroad the Space Station is conducted under agreement with NASA’s Office of Biological and Physical Research in Washington, D.C. Research in this are could lead to earlier and more reliable drug-candidate screening for patients in need of liver and kidney treatments prior to transplant. It could also accelerate development of new life-saving drugs by pharmaceutical companies. StelSys LLC, in cooperation with NASA, is exploring specific research areas that benefit from liver cell research abroad the Space Station. They are: Development of a liver-assist device: Research based on NASA biotechnology could help develop a machine to sustain the life of a patient with advanced liver disease—similar to dialysis machines for persons with kidney disease. National production of the vitamin D3: Individuals on kidney dialysis require D3, which has beneficial effects on the immune system, helps fight various forms of cancer, and appears to be tied closely to hormones that control cellular proliferation and differentiation. Vitamin D3 remains expensive and difficult to properly manufacture, however. Stelsys seeks an alternative method of producing D3 via cultured kidney cells. Natural production of metabolites: StelSys is researching metabolites, or chemical by-products formed by the breakdown of parent compounds, which accelerates development of new drugs. Additional space research holds promise for improving the treatment of brain tumors, blindness, osteoporosis and other diseases responsible for megabillions of dollars in the ever-swelling healthcare budget. Today Europeans are clinically testing a heart pump based on space shuttle fuel-pump technology. With the annual cost of heart disease and stroke in the United States of America alone exceeding $108 billion a year, how much might such a heart pump save? Americans suffer 1.5 million heart attacks and strokes each year. A conservative estimate of these costs for just one person is $121,200 over twenty years. For those needing surgery or procedures and ongoing care, the cost can be more than $4.8 million over a lifetime. #RandolphHarris 6 of 18

Therefore, how much economic value should be assigned to the “bioreactor” designed for growing cells in space—a tool now used by tissue engineering labs developing methods to grow human hearts? NASA’s rotating bioreactor allows cells to be grown in a microgravity environment that eliminates almost all shear forces placed upon a cell culture system while entering space. NASA’s bioreactor has allowed various labs to culture cells and even viruses previously impossible to grow using traditional methods. These successes are attributed to the bioreactor’s ability to provide a unique environment that closely resembles tissue differentiation during embryogenesis, and thus allowing cellular expression of surface epitopes similar to that of intact tissues. It also appears that cells grown in microgravity, low-shear environment allow for greater chemical signaling, probably as a result of more surface contact between cells. Realizing the bioreactor’s commercial potential, Santa Monica, California-based VivoRx Licensed exclusive rights from NASA for both therapeutic and diagnostic commercial applications. VivoRX has, in the past, successfully transplanted encapsulated islet cells from cadavers and porcine pancreas into insulin-dependent diabetics, perhaps a major breakthrough in the treatment of diabetes. However, pancreas from cadavers are in very short supply. The bioreactor may be the answer; VivoRx hopes the bioreactor will allow them to propagate enough human islet cells to use their cell-based approach to treat a large diabetic population. The company has already successfully grown islet cells generated from the bioreactors, and is beginning FDA-approved Phase I/II clinical trials. We could also ask parallel question about economic blindness, limb loss and kidney failure associated with diabetes—a disease that has risen to $350 billion in America. People with diagnosed diabetes incur average medical expenditures of $16,752 per year, of which about $,601 is attributed to diabetes. On average, people with diagnosed diabetes have medical expenditures approximately 2.3 times higher than what expenditures would be in the absence of diabetes. In direct costs also include increased absenteeism ($3.3 billion), reduced productivity while at work ($26.9 billion) for the employed, in ability to work as a result of disease-related disability ($37.5 billion), lost productive capacity due to early mortality ($19.9 billion). Costs are forecast to soar as the population ages. #RandolphHarris 7 of 18

Meanwhile, space plays a crucial role in environmental monitoring as well. France’s SPOT-4 spacecraft, for example, carries an American POAM III instrument for measuring polar ozone and aerosol. According to the U.S. Naval Research Laboratory’s Review, “Every year huge tracts of forest in Alaska, Northern Canada, Scandinavia Russia and China are racked by forest fires from may through October, and in California, fire season is generally from March to December. Enormous quantities of smoke billow into the atmosphere, where high-altitude winds sometimes carry the smoke thousands of kilometers from the original fires.” SPOT-4/POAM III tracks it. Similarly, a joint Brazil-NASA space project is studying the global effects of ecological changes in the Amazon region. A NASA “bird” measures the rate at which ice is melting at the North and South Poles. Other space-based environmental projects focus on everything from water utilization and fisheries to the ecology of estuaries and El Nino weather effects. Never before has the human race had as detailed and accurate an image of the Earth’s surface. Space shuttles such as Endeavor have produced massive data needed for making high-resolution images of desolate tundras and deserts, of jungles where endangered gorillas live and of ancient ruins such as Angkor Wat and Ubar. The same amazingly precise data can, among many other uses, help us locate cell-phone towers, identify flight hazards for aircraft and forecast floods. Twenty-four hours a day, at Schriever Air Force Base in Colorado, a handful of U.S. Air Force men and women—some little more than eighteen or nineteen years old—sit at computer consoles and control satellites orbiting the Earth twelve thousand nautical miles away. They operate more than twenty satellites that together form the NAVSTAR Global Positioning System (GPS) that can tell anyone with a small, inexpensive receiver one’s precise location on Earth. Used by online services, hikers, drivers, truckers, boaters, ships and shippers, banks, and telecom companies, not to mention the military, GSP is one of the marvels of our era. So far-reaching are its implications for both security and business that Europe lunched its own Galileo. Galileo is a GPS system that went live in 2016. It was created by the European Union through the European Space Agency. #RandolphHarris 8 of 18

Galileo cost $13.2 billion and has 28 satellites. It provides Europe accurate and reliable positioning and timing information, used for example in your mobile phones, your cars (and in the future autonomous and connected cars), railways, aviation and other sectors. As many know, GPS helps us locate time as well as space. Thus, in addition to positioning us spatially, the system also operates as a key synchronizer. In the words of Glen Gibbons of Advanstar Communications, “Every time we get cash from an ATM or make a phone call (whether wireless or wire-line), the synchronization of the voice and data streams in those…communications networks is almost certainly based on GPS timing…it has made nanosecond-level timing readily available throughout the World, courtesy of the cesium and rubidium atomic clocks on board the GPS satellites.” The productive benefit of precision timing and synchronization in the economy has yet to be calculated. And more is on the way. Since the attack on the World Trade Center in New York in 2001, anti-terror experts have devoted increasing attention the 226 million container boxes that move by sea each year. Although losing one box seems like it is not a big deal, containers piled high on giant vessels carrying everything from car tries to smartphones are toppling over at an alarming rate, sending millions of dollars of cargo skinning to the bottom of the ocean as pressure to speed deliveries raises the risk of safety errors. This shipping industry saw the biggest increase in lost containers in 2020. More than 3,000 boxes dropped into the sea last year, and more than 1,000 fell overboard in 2021. The accidents are disrupting supply chains for hundreds of American retailers and giving pirates a new treasure to search for, but even more than that, it creates danger. Any one of these containers can contain a hidden biological weapon, a smuggled terrorist, illegal drugs or arms or other dangerous prophylactics, barbiturates, and contraband. Today only about 2 percent are inspected as they enter the United States of America. Add to that the additional containers that arrive by land and air are another reason people are demanding border security. #RandolphHarris 9 of 18

GPS satellites, in principle, can track the coordinates of these containers as they move from place to place. In the future, not just the containers but every product in them will be continually followed as it moves through the supply chain from the plant to the wholesaler, the retailer, onto the shelves and into the customer’s home. Prototype tracking systems are already being studied or tested by such companies as Wal-Mart, Target, Sears, and Kmart. Furthermore, the day will come when many packages carrying food, for example, will have embedded chips that continuously report to the shipper the changing condition of the food as it moves. Other “smart” packages will actually process their contents en route. Linking these to GPS or similar satellite systems will transform large sectors of both the transportation and the food industry, ensure fresher and higher quality packed food and other products, change the economics of both production and distribution in these and many other fields—and improve security. In Japan, to prevent theft of packages, couriers are now given a key to a digital customers car so they can leave a package in the trunk to prevent theft. If the car is then left unlocked, a failsafe system will arm the car after one minute. Because they have low crime rates, this is a great idea for Japan. However, like all technologies, of course, GPS has both beneficial and negative potentials. It can make our lives far more secure. It can track a car full of Good Day and Al Qaeda terrorists. It can also make a visit to a bordello or a Swiss bank less private than it might once have been. However, then, so can “cookies” in a computer, rouge medical professionals, scandalous lawyers—or a gossipy neighbor who steals your mail, watches your house and car, and accepts packages for you. Benefits and sacrifices need to be weighed against one another. One of the biggest economic payoffs from GPS, will come when today’s ground-based World air traffic control system becomes essentially a backup to a space-based alternative. Today flight plans require most aircrafts to fly from one ground-based radio beacon to the next over heavily congested airways. #RandolphHarris 10 of 18

Capacity near many big cities is limited. A GPS control system can increase capacity along with precision. It can also permit landings under conditions now regarded as prohibitive, including at remote and small airports, and improve over-the-ocean navigation. All at far less cost than the ground-based system. Also, corporations may start to open warehouses in suburban locations with locked storage units and some refrigerated where consumers can have any courier drop off your package because we all know thieves think just because packages are insured they can steal them, and when you are getting orders from companies like Omaha Steaks, they start to watch your order habits so they can intercept your packages. However, even if they are not involved in it. theft is embarrassing to many people, because it speaks poorly of you and the people in your community. High-end stores often share their “theft and loss” information with other corporations and couriers so it may secretly make them think less of you and the community you live in. Also, there are applications track and report crimes such as loss and theft and vandalism and this can make your home less appealing to prospective buyers and lower the property value of your community, while making it less desirable. Even more remarkable about the future of technology, NASA’s Global Differential GPS, recently developed at its Jet Propulsion Lab (JPL) in Pasadena, California, has been tested in Greenland and the United States of America. It is now capable of positioning aircraft to within 3.9 inches horizontally and 7.9 inches vertically anywhere in the World. JPL proudly boasts that this is a “factor of ten impowerment” over the accuracy of current systems. Across the board, then, space activity is paying off for the emergent economy—often in unseen ways—and promises even more in days to come. A Midwest Research Institute study has estimated that every dollar invested in NASA adds nine dollars to U.S. gross domestic product. #RandolphHarris 11 of 18

Another analysis, by Chase Econometrics, has suggested that space-related research yields productivity increases that translate into a 43 percent return on investment. All such numbers are relatively old, shaky, and incomplete. Nevertheless, even if we arbitrarily slash them, they would still strongly suggest that space activity already pays off handsomely for the economy. And we are still using only a tiny fraction of its potential. Looming on the horizon are thousands upon thousands more satellites in the Heavens. Algeria, Pakistan and Nigeria have already purchased microsatellites weighing little more than a hundred pounds, capable of carrying cameras and being propelled into orbit for a fraction of what it now costs for conventional satellites. Professors Martian Sweeting of the company supplying them, Surrey Satellite Technology in Britain, claims that within a decade we will launch satellites no bigger than a credit card. As size and cost plumet they will become less expensive, making it possible for medium-sized businesses, NGOs, private groups and even individuals—good and bad alike—to afford them. It is time, in short, to recognize that even in purely economic terms the drive into space is anything but trivial. Humanity’s baby steps into space are already creating significant value on Earth in ways about which earlier civilizations could only fantasize. And it is only the beginning. Today more than fifty nations claim to have space programs. However, governments are not alone in space, as we discussed earlier. Private companies are modifying planes to take hundreds of people into space at once, as well as smaller sized planes to carry two or three people. The purpose: To hasten the development of commercial space tourism and colonization of other planets. Even if we are making no other changes in the “where” of wealth—if we were not shifting it toward Asia and forming region-states, if there were no search for higher-value-added placed, if we were not re-globalizing and de-globalizing the World economy, the leap beyond our planet would, by itself, mark a revolutionary turning point in wealth creation. #RandolphHarrs 12 of 18

The combined evidence, therefore, is overwhelming. We are simultaneously transforming the relationship of wealth to both time and space—two of the deep fundamentals that have underpinned all economic activity since we were hunter-gathers. Wealth today is not merely revolutionary but is becoming more so. Nor is this just a matter of technology. It is, as we will next time make clear, a revolution of the mind as well. Balked, not taken seriously, deprived of great objects and available opportunities, and in an atmosphere that does not encourage service—it is had to have faith, to feel justified, to have a calling, or win honour. However, what then fills the places of these? for every experience that a human being has is a whole way-of-being-in-the-World. First, necessity gives justification. Having something that you must do, solves the problem of having something to do. Necessary behaviour may or may not be honoruable. To wrest subsistence is necessary and honourable. If a young man falls in love, a temporary psychosis, his entire day is under the iron rule of necessity, foolishly and honourably; if it is only to watch under a window, he has something to do. When the class struggle against exploitation was lively, it was something necessary and honourable to engage in. Indeed, it is a major defect of our present organized system and the economy of abundance that, without providing great goals, it has taken away some of the important real necessities, leaving people with nothing to do. The void is soon filled. Behaviour like going into debt on the installment plan, gives an artificial but then real necessity, something to do, paying up. This is the Rat Race, but if people did not need its justifying necessity, for the commodities themselves are not that attractive, I doubt that it would be a run. Young fellows drift into narcotics, and then find that they have something they must do all day, looking for a connection and a fix, and how to get the loot. Compulsive hunting for pleasures of the flesh is something to do. By dividing into rival gangs, as Clausewitz pointed out long ago, it is possible to create a sate of uncertainty of what the enemy is up to, that keeps you constantly on your toes. #RandolphHarris 13 of 18

This is a condition, also, apt to raise the ante, for no matter how you have planned to stay within limits, you can never be sure that the others will not take advantage. Many of the apparently pointless repeated risks that juveniles take, where there cannot be any kick left in the exploit itself, make a little sense when we learn that there is a competition: Ty has stolen twenty-six cars, Steve has stolen twenty-three cars, and each is driven by necessity not to be worsted, especially since the others come along for the rides (However, TY has an unfair advantage because he had gone as a punishment to a “Vocational High School” where he took auto mechanics). And poor Pedro and Carlos who worked while in high school to pay for their cars were cheated by not only Ty and Steve, but also the insurance companies because of their names and the colour of their skin. The system is just not always fair for men of colour who are doing the right thing. When psychologist like Linder speak of the aimless, unconcentrated, unsequential behavior of “psychopathic personalities,” I wonder whether they enough take into account that it requires a real object and an interest in it to take a good actualized Christian of experience and growth. To structure the behaviour of long hours and weeks requires a goal that, from some point of view at least, is pretty worthwhile. Our society is not abounding in highly worth-whole goals available to average gifts and underprivileged attainments. Many goals that are busily and perseveringly pursued by some might reasonably seem not worth the trouble to others who have more animal spirits or plain sense. These really might have “nothing to do,” and their aimless and sensation-seeking killing time might indicate nothing but chronic boredom. Yet they will be judged psychopathic personalities. However, once they have hit on a necessitous and important activity like finding their dose of barbiturates and contraband or stealing twenty-six joy rides (in the teeth of two arrests), they become models of purposiveness and perseverance. Such are the justifications and callings. The honour is to protect one’s masculinity and normalcy, yet to prove by notoriety that one is superior. #RandolphHarris 14 of 18

More interesting and likely is the religious effort of the Hipster Generation, to which we shall turn to focus on at a future time, they are older and are not willing to have given up one Rat Race to fall into another. Can they solve the problem of the nagging unanswerable questions of justification and vocation? Their principle is the traditional one of classical mysticism: by “experience” (= kicks) to transcend the nagged and nagging self altogether and get out of one’s skin, to where no questions are asked—nor is there any articulate speech to ask them in. Resigning from society, they form peaceful brotherhoods of pure experience, with voluntary poverty, devotional readings, and a good deal of hashish. In Communist China in 1974, seventeen-year-old schoolgirl Anchee Min was carted away to Red Fire Farm in a convoy of eleven trucks. She was excited because it was an honour to be chosen for such a prestigious assignment. However, during her time at the collective farm, Anchee Min’s emotional moral, and ideological Worlds were turned topsy-turvy when her friend Shao Ching’s young lover was executed after the couple have been caught in passionate intimacy. Shao Ching, also seventeen, was breathtakingly lovely, slender as a willow, and rebellious. She copied out forbidden literature and shared it with her special friend Anchee Min. Instead of tying her brains with brown rubber bands like the other girls, Shao Ching bound hers with coloured strings. She scrounged tiny remnants of cloth and designed elegant unmentionables that she embroidered with flowers, leaves, and lovebirds. In the stark dormitory, her drying laundry hung like artwork. Shao Ching also altered the standard-issue clothes so that her shirts tapered in, nipping her tiny waist, and her trousers emphasized her long legs. She enjoyed her full bosoms and sometimes, in warm weather, shucked off her undergarment. One admiring soldier reportedly wept when he heard she had fallen ill. During Chairman Mao’s Cultural Revolution, a good female comrade was supposed to reserve all her energy and thoughts for the revolution. Until she was in her late twenties, she was not so much as to contemplate men or marriage. “Learn to have a stainless mind!” people recited. #RandolphHarris 15 of 18

The girls at Red Fire Farm tried to model themselves on the heroines in revolutionary operas, paragons of virtue who never had men, either husbands or intimate friends. No wonder, then, that Shao Ching expressed no interest in men, even to Anchee Min, her closets friend. She was already suspect enough for her fine unmentionables, which has been criticized at a Party meeting. One night, Anchee Min and her companion in a military training program were called out to a “midnight emergency search.” With loaded pistols they were led through the reeds and toward a wheat field, silent and watchful. The order came to drop to their bellies, and they began to crawl through the night. Mosquitoes buzzed and stung, but tht was the only sound. Suddenly, Anchee Min heard the murmur of two voices, a man’s and a woman’s. “I heard a soft, muted cry. And then my shock: I recognized the voice as Shao Ching’s.” Anchee Min’s first thought was to warn her friend—the consequences of being caught with a man were unthinkable. Shao Ching had never even hinted that she was romantically involved, but why would she? At Red Fire Farm, such an admission would be shameful. The brigade acted in unison, flashing thirty flashlights at once, exposing Shao Ching’s rear end and a skinny, spectacled, bookish young man. They took Shao Ching away, leaving a group of soldiers to beat her man. “Make him understand that today, lustful men can no longer force themselves on women,” Anchee Min heard Yan, their leader, instruct. Shao Ching’s studious young beloved displayed no sign that he felt guilty. As the soldiers began to beat and whip him, he made a visible effort not to cry out. Four day later, a public trial was held in the mess hall. Shao Ching had undergone “intensive mind rebushing” and testified in a quavering voice, reading from a paper she held in hands that shook so much, she twice dropped her statement. “He raped me,” she said. Her words convicted her lover and he was executed. (At least she could have just played hard to get since she knew it was wrong to have pleasures of the flesh.) #RandolphHarris 16 of 18

The fastidious Shao Ching stopped bathing and cut up her pretty unmentionables. After months, other girls complained that she stank. She was sent to a hospital in Shanghai and treated for psychosis. She returned to the farm, fat as a bursting sausage from medication, hair matted, eyes vacant. Later she was found dead, drowned among a tangle of weeds. At a special memorial service, Shao Ching was honored as an “outstanding comrade” and was admitted posthumously into the Youth League of the Community Party. Her grandmother was given money in condolence. Celibacy at Red Fire Farm was so strictly enforced that violators were executed. Shao Ching had been saved only because Yan had insisted she recant and blame her lover. Shao Ching had done so, but the mental stress destroyed her mind and she never recovered—do doubt haunted by memories of how her teenage love affair had condemned a young mand to torture and death. “But concerning brotherly love [for all other Christians], you have n need to have anyone write you, for you yourselves have been [personally] taught by God to love one another,” reports 1 Thessalonians 4.9. The second grade counsel is almost monastic in its disciplinary demand for it bids one refrain from the pleasures of the flesh altogether, save for the purpose of having children, whose number must be limited and proportioned strictly. In the case of the unmarried, there will then be a complete chastity. May we move beyond viewing this life only through a frame, but touch it and be touched by it. May our bodies, our minds, our spirits, learn a new rhythm paced by the rhythmic pulse of the whole created order. May spring come to us, be in us, and recreate life in us. May we forge a new friendship with the natural World and discover a new affinity with beauty, with life, and with the Cosmic Christ in whom all things were created in Heaven and on Earth, visible or invisible, whether thrones or dominions pr principalities or authorities for all things were created through Him and for Him. In His name. Amen. Lord of springtime, Father of flower, field and fruit, smile on us in these earnest days when the work is heavy and the toil wearisome; lift up our hearts, O God, to the things worthwhile—sunshine and night, the dripping rain, the song of the birds, books and music, and the voice of our friends. Left up our hearts to these this night and grant us Thy peace. Amen. #RandolphHarris 17 of 18

All things that live shall praise Thy name, the spirits of all flesh proclaim Thy sovereignty, O Lord our God. From everlasting Thou art God, to everlasting Thou shalt be; we have no other God but Thee. Thy goodness and Thy holiness support us in all times of stress, Redeemer, Lord, and King. Thou art the God of first and last, in every age Thy children raise their voices in eternal praise. With tender love Thy World dost guide, and for our needs dost Thou provide; Thou keepest watch eternally. Thou takest slumber from our eyes, and to the speechless givest voice; through Thy great mercy all rejoice. Thou raisest those whose heads are bent, sustaining all the weak and spent; to Thee alone we render thanks. If like the sea our mouths could sing, our tongues like murmuring waves implore, our lips like spacious skies adore; and were our eyes like moon or son, our hands like eagles’ wings upon the Heavens, to spread and reach to Thee; and if our feet were swift as hinds, yet would we still unable be to thank Thee, God, sufficiently; to thank Thee for one-thousandth share of all thy kind and loving care which Thou in every age hast shown. From Egypt didst Thou lead us forth, from bondage didst Thou set us free, redeeming us from slavery. In famine, food didst Thou provide, in plenty Thou wast at our side, to keep and guide us, Lord or God. From pestilence and sword didst save, and when we were by ills assailed, Thy love and mercy never failed. O Lord, Thy wondrous deeds we praise, forsake us not throughout our days; be Thou our help forevermore. Therefore, O Lord, our limbs, our breath, our soul, our tongue, shall all proclaim Thy praise, and glorify Thy name, and every month and every tongue declare allegiance without end; and every knee to Thee shall bend. The mighty ones shall humble be, yea, every heart revere but Thee, and sing the glory of Thy name. Hearken, O my people! From the very depths of my soul I speak unto you; from the core of life where lies the tie that binds us one to the other, with devotion, deep and profound, I declare unto you that you, each one of you, all of you, the whole of you, your very souls, our generations—only you are the essence of my life. I live in you, in each of you, in all of you; in your life, my life has deeper, truer meaning; without you I am as not. #RandolphHarris 18 of 18