Laws Of Motion Quotes

There is no justice in the laws of nature, no term for fairness in the equations of motion. The Universe is neither evil, nor good, it simply does not care. The stars don't care, or the Sun, or the sky. But they don't have to! WE care! There IS light in the world, and it is US!

When asked about which scientist he'd like to meet, Neil deGrasse Tyson said, "Isaac Newton. No question about it. The smartest person ever to walk the face of this earth. The man was connected to the universe in spooky ways. He discovered the laws of motion, the laws of gravity, the laws of optics. Then he turned 26.

Night clubs are where Americans learn the laws of motion.

The Law of Inertia states that a body in motion will remain in motion, and a body at rest will remain at rest. In life, nothing will happen when no one will make a move

Reading list (1972 edition)[edit] 1. Homer – Iliad, Odyssey 2. The Old Testament 3. Aeschylus – Tragedies 4. Sophocles – Tragedies 5. Herodotus – Histories 6. Euripides – Tragedies 7. Thucydides – History of the Peloponnesian War 8. Hippocrates – Medical Writings 9. Aristophanes – Comedies 10. Plato – Dialogues 11. Aristotle – Works 12. Epicurus – Letter to Herodotus; Letter to Menoecus 13. Euclid – Elements 14. Archimedes – Works 15. Apollonius of Perga – Conic Sections 16. Cicero – Works 17. Lucretius – On the Nature of Things 18. Virgil – Works 19. Horace – Works 20. Livy – History of Rome 21. Ovid – Works 22. Plutarch – Parallel Lives; Moralia 23. Tacitus – Histories; Annals; Agricola Germania 24. Nicomachus of Gerasa – Introduction to Arithmetic 25. Epictetus – Discourses; Encheiridion 26. Ptolemy – Almagest 27. Lucian – Works 28. Marcus Aurelius – Meditations 29. Galen – On the Natural Faculties 30. The New Testament 31. Plotinus – The Enneads 32. St. Augustine – On the Teacher; Confessions; City of God; On Christian Doctrine 33. The Song of Roland 34. The Nibelungenlied 35. The Saga of Burnt Njál 36. St. Thomas Aquinas – Summa Theologica 37. Dante Alighieri – The Divine Comedy;The New Life; On Monarchy 38. Geoffrey Chaucer – Troilus and Criseyde; The Canterbury Tales 39. Leonardo da Vinci – Notebooks 40. Niccolò Machiavelli – The Prince; Discourses on the First Ten Books of Livy 41. Desiderius Erasmus – The Praise of Folly 42. Nicolaus Copernicus – On the Revolutions of the Heavenly Spheres 43. Thomas More – Utopia 44. Martin Luther – Table Talk; Three Treatises 45. François Rabelais – Gargantua and Pantagruel 46. John Calvin – Institutes of the Christian Religion 47. Michel de Montaigne – Essays 48. William Gilbert – On the Loadstone and Magnetic Bodies 49. Miguel de Cervantes – Don Quixote 50. Edmund Spenser – Prothalamion; The Faerie Queene 51. Francis Bacon – Essays; Advancement of Learning; Novum Organum, New Atlantis 52. William Shakespeare – Poetry and Plays 53. Galileo Galilei – Starry Messenger; Dialogues Concerning Two New Sciences 54. Johannes Kepler – Epitome of Copernican Astronomy; Concerning the Harmonies of the World 55. William Harvey – On the Motion of the Heart and Blood in Animals; On the Circulation of the Blood; On the Generation of Animals 56. Thomas Hobbes – Leviathan 57. René Descartes – Rules for the Direction of the Mind; Discourse on the Method; Geometry; Meditations on First Philosophy 58. John Milton – Works 59. Molière – Comedies 60. Blaise Pascal – The Provincial Letters; Pensees; Scientific Treatises 61. Christiaan Huygens – Treatise on Light 62. Benedict de Spinoza – Ethics 63. John Locke – Letter Concerning Toleration; Of Civil Government; Essay Concerning Human Understanding;Thoughts Concerning Education 64. Jean Baptiste Racine – Tragedies 65. Isaac Newton – Mathematical Principles of Natural Philosophy; Optics 66. Gottfried Wilhelm Leibniz – Discourse on Metaphysics; New Essays Concerning Human Understanding;Monadology 67. Daniel Defoe – Robinson Crusoe 68. Jonathan Swift – A Tale of a Tub; Journal to Stella; Gulliver's Travels; A Modest Proposal 69. William Congreve – The Way of the World 70. George Berkeley – Principles of Human Knowledge 71. Alexander Pope – Essay on Criticism; Rape of the Lock; Essay on Man 72. Charles de Secondat, baron de Montesquieu – Persian Letters; Spirit of Laws 73. Voltaire – Letters on the English; Candide; Philosophical Dictionary 74. Henry Fielding – Joseph Andrews; Tom Jones 75. Samuel Johnson – The Vanity of Human Wishes; Dictionary; Rasselas; The Lives of the Poets

Nature may reach the same result in many ways. Like a wave in the physical world, in the infinite ocean of the medium which pervades all, so in the world of organisms, in life, an impulse started proceeds onward, at times, may be, with the speed of light, at times, again, so slowly that for ages and ages it seems to stay, passing through processes of a complexity inconceivable to men, but in all its forms, in all its stages, its energy ever and ever integrally present. A single ray of light from a distant star falling upon the eye of a tyrant in bygone times may have altered the course of his life, may have changed the destiny of nations, may have transformed the surface of the globe, so intricate, so inconceivably complex are the processes in Nature. In no way can we get such an overwhelming idea of the grandeur of Nature than when we consider, that in accordance with the law of the conservation of energy, throughout the Infinite, the forces are in a perfect balance, and hence the energy of a single thought may determine the motion of a universe.

The Odyssey is the story of motion both purposeful and purposeless, successful and futile. What else is the history of law?

Billy coughed when the door was opened, and when he coughed he shit thin gruel. This was in accordance with the Third Law of Motion according to Sir Isaac Newton. This law tells us that for every action there is a reaction and opposite in direction. This can be useful in rocketry.

4. Religion. Your reason is now mature enough to examine this object. In the first place, divest yourself of all bias in favor of novelty & singularity of opinion... shake off all the fears & servile prejudices, under which weak minds are servilely crouched. Fix reason firmly in her seat, and call to her tribunal every fact, every opinion. Question with boldness even the existence of a God; because, if there be one, he must more approve of the homage of reason, than that of blindfolded fear. You will naturally examine first, the religion of your own country. Read the Bible, then as you would read Livy or Tacitus. The facts which are within the ordinary course of nature, you will believe on the authority of the writer, as you do those of the same kind in Livy and Tacitus. The testimony of the writer weighs in their favor, in one scale, and their not being against the laws of nature, does not weigh against them. But those facts in the Bible which contradict the laws of nature, must be examined with more care, and under a variety of faces. Here you must recur to the pretensions of the writer to inspiration from God. Examine upon what evidence his pretensions are founded, and whether that evidence is so strong, as that its falsehood would be more improbable than a change in the laws of nature, in the case he relates. For example in the book of Joshua we are told the sun stood still several hours. Were we to read that fact in Livy or Tacitus we should class it with their showers of blood, speaking of statues, beasts, &c. But it is said that the writer of that book was inspired. Examine therefore candidly what evidence there is of his having been inspired. The pretension is entitled to your inquiry, because millions believe it. On the other hand you are astronomer enough to know how contrary it is to the law of nature that a body revolving on its axis as the earth does, should have stopped, should not by that sudden stoppage have prostrated animals, trees, buildings, and should after a certain time have resumed its revolution, & that without a second general prostration. Is this arrest of the earth's motion, or the evidence which affirms it, most within the law of probabilities? You will next read the New Testament. It is the history of a personage called Jesus. Keep in your eye the opposite pretensions: 1, of those who say he was begotten by God, born of a virgin, suspended & reversed the laws of nature at will, & ascended bodily into heaven; and 2, of those who say he was a man of illegitimate birth, of a benevolent heart, enthusiastic mind, who set out without pretensions to divinity, ended in believing them, and was punished capitally for sedition, by being gibbeted, according to the Roman law, which punished the first commission of that offence by whipping, & the second by exile, or death in fureâ. ...Do not be frightened from this inquiry by any fear of its consequences. If it ends in a belief that there is no God, you will find incitements to virtue in the comfort and pleasantness you feel in its exercise, and the love of others which it will procure you... In fine, I repeat, you must lay aside all prejudice on both sides, and neither believe nor reject anything, because any other persons, or description of persons, have rejected or believed it... I forgot to observe, when speaking of the New Testament, that you should read all the histories of Christ, as well of those whom a council of ecclesiastics have decided for us, to be Pseudo-evangelists, as those they named Evangelists. Because these Pseudo-evangelists pretended to inspiration, as much as the others, and you are to judge their pretensions by your own reason, and not by the reason of those ecclesiastics. Most of these are lost... [Letter to his nephew, Peter Carr, advising him in matters of religion, 1787]

Newton's three laws of motion are less a product of novel experiments than of the attempt to reinterpret well-known observations in terms of motions and interactions of primary neutral corpuscles

You simply will not be the same person two months from now after consciously giving thanks each day for the abundance that exists in your life. And you will have set in motion an ancient spiritual law: the more you have and are grateful for, the more will be given you

God knows instantly and effortlessly all matter and all matters, all mind and every mind, all spirit and all spirits, all being and every being, all creaturehood and all creatures, every plurality and all pluralities, all law and every law, all relations, all causes, all thoughts, all mysteries, all enigmas, all feeling, all desires, every unuttered secret, all thrones and dominions, all personalities, all things visible and invisible in heaven and in earth, motion, space, time, life, death, good, evil, heaven, and hell.

The words carry their own momentum. A confession in motion tends to stay in motion. Newton's first law of jealousy.

you have to leave something behind to go forward -Newton's Third Law of Motion

Hope,... which whispered from Pandora's box after all the other plagues and sorrows had escaped, is the best and last of all things. Without it, there is only time. And time pushes at our backs like a centrifuge, forcing outward and away, until it nudges us into oblivion... It's a law of motion, a fact of physics..., no different from the stages of white dwarves and red giants. Like all things in the universe, we are destined from birth to diverge. Time is simply the yardstick of our separation. If we are particles in a sea of distance, exploded from an original whole, then there is a science to our solitude. We are lonely in proportion to our years.

we all collide. It made him think of Newton’s third law of motion: for every action there is an equal and opposite reaction. It was like, when you collided with someone, they would not be in the same position as they used to be. Everyone equally affected one another.

Two hundred miles from the surface of the earth there is no gravity. The laws of motion are suspended. You could turn somersaults slowly slowly, weight into weightlessness, nowhere to fall. As you lay on your back paddling in space you might notice your feet had fled your head. You are stretching slowly slowly, getting longer, your joints are slipping away from their usual places. There is no connection between your shoulder and your arm. You will break up bone by bone, fractured from who you are, drifting away now, the centre cannot hold.

Very few of us can now place ourselves in the mental condition in which even such philosophers as the great Descartes were involved in the days before Newton had announced the true laws of the motion of bodies.

That is one of the patterns: when nothing is happening, nothing continues to happen, but after a while the lull becomes too much and the drums need to kick in. Something has to happen. Often that need comes from yourself. You make a phone call. You say, "I can't do this life anymore, I need to change.' And one thing happens which you are in control of. And then another happens which you have no control over. Newton's third law of motion. Actions create reactions. When things start to happen, other things start to happen. But sometimes it seems there is no explanation as to why the things are happening - why all the buses are coming along at once - why life's moments of luck and pain arrive in clusters. All we can do is observe the pattern, the rhythm, and then live it.

Imagine a young Isaac Newton time-travelling from 1670s England to teach Harvard undergrads in 2017. After the time-jump, Newton still has an obsessive, paranoid personality, with Asperger’s syndrome, a bad stutter, unstable moods, and episodes of psychotic mania and depression. But now he’s subject to Harvard’s speech codes that prohibit any “disrespect for the dignity of others”; any violations will get him in trouble with Harvard’s Inquisition (the ‘Office for Equity, Diversity, and Inclusion’). Newton also wants to publish Philosophiæ Naturalis Principia Mathematica, to explain the laws of motion governing the universe. But his literary agent explains that he can’t get a decent book deal until Newton builds his ‘author platform’ to include at least 20k Twitter followers – without provoking any backlash for airing his eccentric views on ancient Greek alchemy, Biblical cryptography, fiat currency, Jewish mysticism, or how to predict the exact date of the Apocalypse. Newton wouldn’t last long as a ‘public intellectual’ in modern American culture. Sooner or later, he would say ‘offensive’ things that get reported to Harvard and that get picked up by mainstream media as moral-outrage clickbait. His eccentric, ornery awkwardness would lead to swift expulsion from academia, social media, and publishing. Result? On the upside, he’d drive some traffic through Huffpost, Buzzfeed, and Jezebel, and people would have a fresh controversy to virtue-signal about on Facebook. On the downside, we wouldn’t have Newton’s Laws of Motion.

Each of us is aware he's a material being, subject to the laws of physiology and physics, and that the strength of all our emotions combined cannot counteract those laws. It can only hate them. The eternal belief of lovers and poets in the power of love which is more enduring that death, the finis vitae sed non amoris that has pursued us through the centuries is a lie. But this lie is not ridiculous, it's simply futile. To be a clock on the other hand, measuring the passage of time, one that is smashed and rebuilt over and again, one in whose mechanism despair and love are set in motion by the watchmaker along with the first movements of the cogs. To know one is a repeater of suffering felt ever more deeply as it becomes increasingly comical through a multiple repetitions. To replay human existence - fine. But to replay it in the way a drunk replays a corny tune pushing coins over and over into the jukebox?

There is no justice in the laws of nature, no term for fairness in the equations of motion. The Universe is neither evil, nor good, it simply does not care. The stars don't care, or the Sun, or the sky.

Books are friends. You don’t just—just—just give away friends!

Walt Whitman (1819–1892). Leaves of Grass. 1900. To You WHOEVER you are, I fear you are walking the walks of dreams, I fear these supposed realities are to melt from under your feet and hands; Even now, your features, joys, speech, house, trade, manners, troubles, follies, costume, crimes, dissipate away from you, Your true Soul and Body appear before me, They stand forth out of affairs—out of commerce, shops, law, science, work, forms, clothes, the house, medicine, print, buying, selling, eating, drinking, suffering, dying. Whoever you are, now I place my hand upon you, that you be my poem; I whisper with my lips close to your ear, I have loved many women and men, but I love none better than you. O I have been dilatory and dumb; I should have made my way straight to you long ago; I should have blabb’d nothing but you, I should have chanted nothing but you. I will leave all, and come and make the hymns of you; None have understood you, but I understand you; None have done justice to you—you have not done justice to yourself; None but have found you imperfect—I only find no imperfection in you; None but would subordinate you—I only am he who will never consent to subordinate you; I only am he who places over you no master, owner, better, God, beyond what waits intrinsically in yourself. Painters have painted their swarming groups, and the centre figure of all; From the head of the centre figure spreading a nimbus of gold-color’d light; But I paint myriads of heads, but paint no head without its nimbus of gold-color’d light; From my hand, from the brain of every man and woman it streams, effulgently flowing forever. O I could sing such grandeurs and glories about you! You have not known what you are—you have slumber’d upon yourself all your life; Your eye-lids have been the same as closed most of the time; What you have done returns already in mockeries; (Your thrift, knowledge, prayers, if they do not return in mockeries, what is their return?) The mockeries are not you; Underneath them, and within them, I see you lurk; I pursue you where none else has pursued you; Silence, the desk, the flippant expression, the night, the accustom’d routine, if these conceal you from others, or from yourself, they do not conceal you from me; The shaved face, the unsteady eye, the impure complexion, if these balk others, they do not balk me, The pert apparel, the deform’d attitude, drunkenness, greed, premature death, all these I part aside. There is no endowment in man or woman that is not tallied in you; There is no virtue, no beauty, in man or woman, but as good is in you; No pluck, no endurance in others, but as good is in you; No pleasure waiting for others, but an equal pleasure waits for you. As for me, I give nothing to any one, except I give the like carefully to you; I sing the songs of the glory of none, not God, sooner than I sing the songs of the glory of you. Whoever you are! claim your own at any hazard! These shows of the east and west are tame, compared to you; These immense meadows—these interminable rivers—you are immense and interminable as they; These furies, elements, storms, motions of Nature, throes of apparent dissolution—you are he or she who is master or mistress over them, Master or mistress in your own right over Nature, elements, pain, passion, dissolution. The hopples fall from your ankles—you find an unfailing sufficiency; Old or young, male or female, rude, low, rejected by the rest, whatever you are promulges itself; Through birth, life, death, burial, the means are provided, nothing is scanted; Through angers, losses, ambition, ignorance, ennui, what you are picks its way.

Newton’s First Law, also known as the Law of Inertia: Objects at rest tend to stay at rest unless acted on by an outside force. Objects in motion tend to stay in motion, unless something stops their momentum. Put another way, couch potatoes tend to stay couch potatoes. Achievers—people who get into a successful rhythm—continue busting their butts and end up achieving more and more.

Expect your every need to be met, expect the answer to every problem, expect abundance on every level, expect to grow spiritually. You are not living by human laws. Expect miracles and see them take place. Hold ever before you the thought of prosperity and abundance and know that doing so sets in motion forces that will bring it into being.

There was something unfair about a system in which a little kid was brought into a courtroom and surrounded by lawyers arguing and sniping at each other under the scornful eye of a judge, the referee, and somehow in the midst of this barrage of laws and code sections and motions and legal talk the kid was supposed to know what was happening to him. It was hopelessly unfair.

Astrology is the study of man’s response to planetary stimuli. The stars have no conscious benevolence or animosity; they merely send forth positive and negative radiations. Of themselves, these do not help or harm humanity, but offer a lawful channel for the outward operation of cause-effect equilibriums which each man has set into motion in the past. “A child is born on that day and at that hour when the celestial rays are in mathematical harmony with his individual karma. His horoscope is a challenging portrait, revealing his unalterable past and its probable future results. But the natal chart can be rightly interpreted only by men of intuitive wisdom: these are few.

Yet in another way, calculus is fundamentally naive, almost childish in its optimism. Experience teaches us that change can be sudden, discontinuous, and wrenching. Calculus draws its power by refusing to see that. It insists on a world without accidents, where one thing leads logically to another. Give me the initial conditions and the law of motion, and with calculus I can predict the future -- or better yet, reconstruct the past. I wish I could do that now.

your mind becomes a supercomputer capable of calculating the gyrations of your car, multiplying that by the speed of the fall over the angle of descent, factoring in Newton’s laws of motion and, in a split second, coming to the panicked conclusion that this is gonna hurt like hell.

A man matters, his experiences matter, but in a city, where experiences come by the thousands, we can no longer relate them to ourselves, and this is of course the beginning of life’s notorious turning into abstraction.“ „There is always something ghostly about living constantly in a well-ordered state. You cannot step into the street or drink a glass of water or get on a streetcar without touching the balanced lever of gigantic apparatus of laws and interrelations, setting them in motion or letting them maintain you in your peaceful existence; one knows hardly any of these levers, which reach deep into the inner workings and, coming out of the other side, lose themselves in a network whose structure has never yet been unraveled by anyone. So one denies their existence, just as the average citizen denies the air, maintaining that it is empty space. But all these things that one denied, these colorless, odorless,tasteless, weightless, and morally indefinable things such as water, air, space, money, and the passing of time, turn out in truth to be the most important things of all, and this gives life a certain spooky quality.

As to your Newton, I confess I do not understand his void and his gravity; I admit he has demonstrated the movement of the heavenly bodies with more exactitude than his forerunners; but you will admit it is an absurdity to maintain the existence of Nothing. [Letter to Voltaire, 25 Nov. 1777]

I suppose Galileo felt that the discovery of the fact that the laws of nature are not unchanged under change of scale was as important as his laws of motion, because they are both put together in the tome on Two New Sciences.

I like knowing there’s certain laws in the universe, Ayla’s father had said once, a very long time ago, before everything. You can’t count on much. Can’t trust most things to stay solid. But there is always some sort of force at work. Even way out there past the sky, so far away that we can’t even imagine it, things work the same. Your mother would explain it better. Everything is just bodies in motion, bodies in orbit, just like here. Pushing and pulling. You know what that’s called? The law of falling.

All the physical and chemical laws that are known to play an important part in the life of organisms are of this statistical kind; any other kind of lawfulness and orderliness that one might think of is being perpetually disturbed and made inoperative by the unceasing heat motion of the atoms.

If everything from the furthest planet to the smallest atom of our brain acts according to Newton’s law of motion, what becomes of free will?

The double eyelid of the sun rises and falls on life. The birds' feet on the windowpane of the sky are what I used to call stars. The earth itself, whose motion seems so inexplicable as long as one remains beneath the vault, the earth that is webfooted with deserts is itself subject to the laws of migration

Laws of motion of any kind only become comprehensible to man when he can examine arbitrarily selected units of that motion. But at the same time it is this arbitrary division of continuous motion into discontinuous units which give rise to a large proportion of human error.

It is true that we do not feel the movement of the earth, but by admitting its immobility we arrive at absurdity, while by admitting its motion (which we do not feel) we arrive at laws,” so also in history the new view says: “It is true that we are not conscious of our dependence, but by admitting our free will we arrive at absurdity, while by admitting our dependence on the external world, on time, and on cause, we arrive at laws.

Ironically, the serious study of the impossible has frequently opened up rich and entirely unexpected domains of science. For example, over the centuries the frustrating and futile search for a “perpetual motion machine” led physicists to conclude that such a machine was impossible, forcing them to postulate the conservation of energy and the three laws of thermodynamics. Thus the futile search to build perpetual motion machines helped to open up the entirely new field of thermodynamics, which in part laid the foundation of the steam engine, the machine age, and modern industrial society.

His laws changed all of physics and astronomy. His laws made it possible to calculate the mass of the sun and planets. The way it's done is immensely beautiful. If you know the orbital period of any planet, say, Jupiter or the Earth and you know its distance to the Sun; you can calculate the mass of the Sun. Doesn't this sound like magic? We can carry this one step further - if you know the orbital period of one of Jupiter's bright moons, discovered by Galileo in 1609, and you know the distance between Jupiter and that moon, you can calculate the mass of Jupiter. Therefore, if you know the orbital period of the moon around the Earth (it's 27.32 days), and you know the mean distance between the Earth and the moon (it's about 200,039 miles), then you can calculate to a high degree of accuracy the mass of the Earth. … But Newton's laws reach far beyond our solar system. They dictate and explain the motion of stars, binary stars, star clusters, galaxies and even clusters of galaxies. And Newton's laws deserve credit for the 20th century discovery of what we call dark matter. His laws are beautiful. Breathtakingly simple and incredibly powerful at the same time. They explain so much and the range of phenomena they clarify is mind boggling. By bringing together the physics of motion, of interaction between objects and of planetary movements, Newton brought a new kind of order to astronomical measurements, showing how, what had been a jumble of confused observations made through the centuries were all interconnected.

Emotion is energy in motion. When you move energy, you create effect. If you move enough energy, you create matter. Matter is energy conglomerated. Moved around. Shoved together. If you manipulate energy long enough in a certain way, you get matter. Every Master understands this law. It is the alchemy of the universe. It is the secret of all life.

What I remember most is that the laws of physics no longer seemed to apply. Gravity was backwards and the world was, I'm quite certain, moving in slow motion. His pull wasn't a pull; I was just falling upward, and he caught me. There really was no beginning or end to the kiss; it wasn't even really there- and because of that, it was tremendous. Our lips were just four sweet, shy people meeting, saying, "Hello, it's nice to meet you." But what passed between them was massive. Nuclear. And in an instant, every cobweb inside me was obliterated. My inner struggles, my uncertainty, my fear of tiger attack... gone. Just the feeling of being a newborn, a pure soul just waiting to be imprinted upon.

For the purposes of science, information had to mean something special. Three centuries earlier, the new discipline of physics could not proceed until Isaac Newton appropriated words that were ancient and vague—force, mass, motion, and even time—and gave them new meanings. Newton made these terms into quantities, suitable for use in mathematical formulas. Until then, motion (for example) had been just as soft and inclusive a term as information. For Aristotelians, motion covered a far-flung family of phenomena: a peach ripening, a stone falling, a child growing, a body decaying. That was too rich. Most varieties of motion had to be tossed out before Newton’s laws could apply and the Scientific Revolution could succeed. In the nineteenth century, energy began to undergo a similar transformation: natural philosophers adapted a word meaning vigor or intensity. They mathematicized it, giving energy its fundamental place in the physicists’ view of nature. It was the same with information. A rite of purification became necessary. And then, when it was made simple, distilled, counted in bits, information was found to be everywhere.

The action of the earth on the stone takes place indirectly. The earth produces in its surroundings a gravitational field, which acts on the stone and produces its motion of fall...The intensity and direction of the field at points farther removed...are thence determined by the law which governs the properties in space of the gravitational fields themselves.

Inertia. Guy’s law of enchantment: “People at rest will remain at rest, and people in motion will keep moving in the same direction unless an outside enchanter acts upon them.

An isolated system or a system in a uniform environment (which for the present consideration we do best to include as a part of the system we contemplate) increases its entropy and more or less rapidly approaches the inert state of maximum entropy. We now recognize this fundamental law of physics to be just the natural tendency of things to approach the chaotic state (the same tendency that the books of a library or the piles of papers and manuscripts on a writing desk display) unless we obviate it. (The analogue of irregular heat motion, in this case, is our handling those objects now and again without troubling to put them back in their proper places.)

angular momentum appears in two forms : one of them is angular momentum of motion, and the other is angular momentum in electric and magnetic fields. There is angular momentum in the field around the magnet, although it does not appear as motion, and this has the opposite sign to the spin. If

Is it possible that the Pentateuch could not have been written by uninspired men? that the assistance of God was necessary to produce these books? Is it possible that Galilei ascertained the mechanical principles of 'Virtual Velocity,' the laws of falling bodies and of all motion; that Copernicus ascertained the true position of the earth and accounted for all celestial phenomena; that Kepler discovered his three laws—discoveries of such importance that the 8th of May, 1618, may be called the birth-day of modern science; that Newton gave to the world the Method of Fluxions, the Theory of Universal Gravitation, and the Decomposition of Light; that Euclid, Cavalieri, Descartes, and Leibniz, almost completed the science of mathematics; that all the discoveries in optics, hydrostatics, pneumatics and chemistry, the experiments, discoveries, and inventions of Galvani, Volta, Franklin and Morse, of Trevithick, Watt and Fulton and of all the pioneers of progress—that all this was accomplished by uninspired men, while the writer of the Pentateuch was directed and inspired by an infinite God? Is it possible that the codes of China, India, Egypt, Greece and Rome were made by man, and that the laws recorded in the Pentateuch were alone given by God? Is it possible that Æschylus and Shakespeare, Burns, and Beranger, Goethe and Schiller, and all the poets of the world, and all their wondrous tragedies and songs are but the work of men, while no intelligence except the infinite God could be the author of the Pentateuch? Is it possible that of all the books that crowd the libraries of the world, the books of science, fiction, history and song, that all save only one, have been produced by man? Is it possible that of all these, the bible only is the work of God?

… for it is very probable, that the motion of gravity worketh weakly, both far from the earth, and also within the earth: the former because the appetite of union of dense bodies with the earth, in respect of the distance, is more dull: the latter, because the body hath in part attained its nature when it is some depth in the earth. {Foreshadowing Isaac Newton's Universal Law of Gravitation (1687)}

If the eye never sleeps, all dreams will naturally cease. If the mind makes no discriminations, the ten thousand things are as they are, of single essence. To understand the mystery of this One essence is to be released from all entanglements. When all things are seen equally the timeless Self-essence is reached. No comparisons or analogies are possible in this causeless, relationless state. Consider movement stationary and the stationary in motion, both movement and rest disappear. When such dualities cease to exist Oneness itself cannot exist. To this ultimate finality no law or description applies.

Scientists and inventors alike, they first guess a new explanation—a hypothesis—as wild and innovative as they can conjure. And then they test it rigorously, their hearts filled with the hope they’ll find a door or a window that reframes their understanding of the universe, of life, of a flower, or a cure for cancer. And it all starts with a guess, a good explanation as unlikely as it is plausible. A story at the knife’s edge of innovation, bleeding truth and pushing the limits of knowledge further afield. That impossibly sharp place where dreams and reality converge. A hard-to-vary idea as powerful as the one that broke Einstein’s General Relativity and his assumption that the laws of nature don’t depend on the motion of an observer.

Dressing up forgiveness to look comfortable does nothing more than save face. Forgiveness is a one-sided gift to the abuser and a self-inflicted punishment for the victim. Standing up for oneself by forcing repayment of debt makes a person whole and sets them free. Payback fully satisfies Newton’s Third Law of Motion.

When Sir Isaac Newton discovered the universal law of gravitation he did not say, ‘I have discovered a mechanism that accounts for planetary motion, therefore there is no agent God who designed it.’ Quite the opposite: precisely because he understood how it worked, he was moved to increased admiration for the God who had designed it that way.

The greatest, equally with the smallest motions of the Universe, are subjected to the rigid necessity of inevitable laws. These laws are the unknown causes of the known effects perceivable in the Universe. Their effects are the boundaries of our knowledge, their names the expressions of our ignorance. To suppose some existence beyond, or above them, is to invent a second and superfluous hypothesis to account for what has already been accounted for by the laws of motion and the properties of matter. I admit that the nature of these laws is incomprehensible, but the hypothesis of a Deity adds a gratuitous difficulty, which so far from alleviating those that it is adduced to explain, requires new hypotheses for the elucidation of its own inherent contradictions.

It must have appeared almost as improbable to the earlier geologists, that the laws of earthquakes should one day throw light on the origin of mountains, as it must to the first astronomers, that the fall of an apple should assist in explaining the motions of the moon.

Condon, quick on his feet, replied that the accusation was untrue. He was not a revolutionary in physics. He raised his right hand: “I believe in Archimedes’ Principle, formulated in the third century B.C. I believe in Kepler’s laws of planetary motion, discovered in the seventeenth century. I believe in Newton’s laws.…” And on he went, invoking the illustrious names of Bernoulli, Fourier, Ampère, Boltzmann, and Maxwell.

And why could all this not be fulfilled in the case of an organism composed of a moderate number of atoms only and sensitive already to the impact of one or a few atoms only? Because we know all atoms to perform all the time a completely disorderly heat motion, which, so to speak, opposes itself to their orderly behaviour and does not allow the events that happen between a small number of atoms to enrol themselves according to any recognizable laws.

Prototypes of inventions that use novel combinations of resonance, magnetism, states of matter, certain geometries or inward swirling motion to unlock the secrets of universal energy have already been built. They provide proof of new or rediscovered principles. In many variations of these inventions, a small input triggers a disproportionately large output of useable power." "These energy converters don't violate any laws of physics if they simply tap into a previously unrecognized source of power - background space. A flow of energy from that source can continue day and night, whether or not the sun shines or the wind blows.

My dear, the universe runs itself, and the eternal laws inherent in Nature suffice, without any first cause or prime mover, to produce all there is and all that we know; the perpetual movement of matter explains everything: why need we supply a motor to that which is ever in motion? The universe is an assemblage of unlike entities which act and react mutually and successively with and against each other; I discern no start, no finish, no fixed boundaries, this universe I see only as an incessant passing from one state into another, and within it only particular beings which forever change shape and form, but I acknowledge no universal cause behind and distinct from the universe and which gives it existence and which procures the modifications in the particular beings composing it.

thought then that decent, intelligent, and experienced managers would automatically make rational business decisions. But I learned over time that isn’t so. Instead, rationality frequently wilts when the institutional imperative comes into play. For example: (1) As if governed by Newton’s First Law of Motion, an institution will resist any change in its current direction; (2) Just as work expands to fill available time, corporate projects or acquisitions will materialize to soak up available funds; (3) Any business craving of the leader, however foolish, will be quickly supported by detailed rate-of-return and strategic studies prepared by his troops; and (4) The behavior of peer companies, whether they are expanding, acquiring, setting executive compensation or whatever, will be mindlessly imitated.

Einstein, twenty-six years old, only three years away from crude privation, still a patent examiner, published in the Annalen der Physik in 1905 five papers on entirely different subjects. Three of them were among the greatest in the history of physics. One, very simple, gave the quantum explanation of the photoelectric effect—it was this work for which, sixteen years later, he was awarded the Nobel prize. Another dealt with the phenomenon of Brownian motion, the apparently erratic movement of tiny particles suspended in a liquid: Einstein showed that these movements satisfied a clear statistical law. This was like a conjuring trick, easy when explained: before it, decent scientists could still doubt the concrete existence of atoms and molecules: this paper was as near to a direct proof of their concreteness as a theoretician could give. The third paper was the special theory of relativity, which quietly amalgamated space, time, and matter into one fundamental unity. This last paper contains no references and quotes to authority. All of them are written in a style unlike any other theoretical physicist's. They contain very little mathematics. There is a good deal of verbal commentary. The conclusions, the bizarre conclusions, emerge as though with the greatest of ease: the reasoning is unbreakable. It looks as though he had reached the conclusions by pure thought, unaided, without listening to the opinions of others. To a surprisingly large extent, that is precisely what he had done.

Yet why must it be that men always seek out the depths, the abyss? Why must thought, like a plumb line, concern itself exclusively with vertical descent? Why was it not feasible for thought to change direction and climb vertically up, ever up, towards the surface? Why should the area of the skin, which guarantees a human being’s existence in space, be most despised and left to the tender mercies of the senses? I could not understand the laws governing the motion of thought—the way it was liable to get stuck in unseen chasms whenever it set out to go deep; or, whenever it aimed at the heights, to soar away into boundless and equally invisible heavens, leaving the corporeal form undeservedly neglected.

Faith without works is dead“If you were guaranteed success, what would you do with your life?” Another way to frame it is, “If you already had all the fame, fortune, and power you could ever want, what would you do with your life?” The answers to these questions hold the keys to the purpose of your life. . Action, finally, is the true religion. By taking this bold step, regardless of outcome, you’re sending yourself a message that your dream is real. You’re cutting a new groove in consciousness that says you will no longer be held back by fear or perceived limitation. You’re setting the law of freedom in motion, allowing it to gain momentum, until you won’t be able to prevent your progress even if you tried!

Nature may reach the same result in many ways. Like a wave in the physical world, in the infinite ocean of the medium which pervades all, so in the world of organisms, in life, an impulse started proceeds onward, at times, may be, with the speed of light, at times, again, so slowly that for ages and ages it seems to stay, passing through processes of a complexity inconceivable to men, but in all its forms, in all its stages, its energy ever and ever integrally present. A single ray of light from a distant star falling upon the eye of a tyrant in bygone times may have altered the course of his life, may have changed the destiny of nations, may have transformed the surface of the globe, so intricate, so inconceivably complex are the processes in Nature. In no way can we get such an overwhelming idea of the grandeur of Nature than when we consider, that in accordance with the law of the conservation of energy, throughout the Infinite, the forces are in a perfect balance, and hence the energy of a single thought may determine the motion of a universe.” Nikola Tesla

After two or three stanzas and several images by which he was himself astonished, his work took possession of him and he experienced the approach of what is called inspiration. At such moments the correlation of the forces controlling the artist is, as it were, stood on its head. The ascendancy is no longer with the artist or the state of mind which he is trying to express, but with language, his instrument of expression. Language, the home and dwelling of beauty and meaning, itself begins to think and speak for man and turns wholly into music, not in the sense of outward, audible sounds but by virtue of the power and momentum of its inward flow. Then, like the current of a mighty river polishing stones and turning wheels by its very movement, the flow of speech creates in passing, by the force of its own laws, rhyme and rhythm and countless other forms and formations, still more important and until now undiscovered, unconsidered and unnamed. At such moments Yury felt that the main part of his work was not being done by him but by something which was above him and controlling him: the thought and poetry of the world as it was at that moment and as it would be in the future. He was controlled by the next step it was to take in the order of its historical development; and he felt himself to be only the pretext and the pivot setting it in motion. ... In deciphering these scribbles he went through the usual disappointments. Last night these rough passages had astonished him and moved him to tears by certain unexpectedly successful lines. Now, on re-reading these very lines, he was saddened to find that they were strained and glaringly far-fetched.

A full explanation of this is beyond the scope of this book, suffice to say that Einstein was forced into this bold move primarily because Maxwell’s equations for electricity and magnetism were incompatible with Newton’s 200-year-old laws of motion. Einstein abandoned the Newtonian ideas of space and time as separate entities and merged them. In Einstein’s theory there is a special speed built into the structure of spacetime itself that everyone must agree on, irrespective of how they are moving relative to each other. This special speed is a universal constant of nature that will always be measured as precisely 299,792,458 metres (983,571,503 feet) per second, at all times and all places in the Universe, no matter what they are doing. This

What can be more certain than this, that no one should be so stupid and so arrogant as to believe that reason and intelligence are present in him but not in the heavens and in the world? Or that those things which are barely understood by the highest intellectual reasoning are kept in motion without any intelligence at all? As for the person who is not impelled to give thanks for the procession of the stars, the alternation of day and night, the regular succession of the seasons, and the fruits which are produced for our enjoyment—how can such a person be counted as human at all?

Man believes the future to be the natural development of the past. But the law of assumption clearly shows that this is not the case. Your assumption places you psychologically where you are not physically; then your senses pull you back from where you were psychologically to where you are physically. It is these psychological forward motions that produce your physical forward motions in time.

In England, under the Blasphemy Laws, it is illegal to express disbelief in the Christian religion, though in practice the law is not set in motion against the well-to-do. It is also illegal to teach what Christ taught on the subject of non-resistance. Therefore, whoever wishes to avoid becoming a criminal must profess to agree with Christ’s teaching, but must avoid saying what that teaching was.

Life has a strange rhythm. It takes a while to fully be aware of this. Decades. Centuries, even. It’s not a simple rhythm. But the rhythm is there. The tempo shifts and fluctuates; there are structures within structures, patterns within patterns. It’s baffling. Like when you first hear John Coltrane on the saxophone. But if you stick with it, the elements of familiarity become clear. The current rhythm is speeding up. I am approaching a crescendo. Everything is happening all at once. That is one of the patterns: when nothing is happening, nothing continues to happen, but after a while the lull becomes too much and the drums need to kick in. Something has to happen. Often that need comes from yourself. You make a phone call. You say, ‘I can’t do this life any more, I need to change.’ And one thing happens that you are in control of. And then another happens which you have no say over. Newton’s third law of motion. Actions create reactions. When things start to happen, other things start to happen. But sometimes it seems there is no explanation as to why the things are happening – why all the buses are coming along at once – why life’s moments of luck and pain arrive in clusters. All we can do is observe the pattern, the rhythm, and then live it.

Up to 1956 it was believed that the laws of physics obeyed each of three separate symmetries called C, P, and T. The symmetry C means that the laws are the same for particles and antiparticles. The symmetry P means that the laws are the same for any situation and its mirror image (the mirror image of a particle spinning in a right-handed direction is one spinning in a left-handed direction). The symmetry T means that if you reverse the direction of motion of all particles and antiparticles, the system should go back to what it was at earlier times; in other words, the laws are the same in the forward and backward directions of time.

Evidence in support of general relativity came quickly. Astronomers had long known that Mercury’s orbital motion around the sun deviated slightly from what Newton’s mathematics predicted. In 1915, Einstein used his new equations to recalculate Mercury’s trajectory and was able to explain the discrepancy, a realization he later described to his colleague Adrian Fokker as so thrilling that for some hours it gave him heart palpitations.

Each time scientists have unraveled a new force, it has changed the course of civilization and altered the destiny of humanity. For example, Newton’s discovery of the laws of motion and gravity laid the groundwork for the machine age and the Industrial Revolution. Michael Faraday and James Clerk Maxwell’s explanation of electricity and magnetism paved the way for the illumination of our cities and gave us powerful electric motors and generators as well as instantaneous communication via TV and radio. Einstein’s E = mc2 explained the power of the stars and helped to unravel the nuclear force. When Erwin Schrödinger, Werner Heisenberg, and others unlocked the secrets of the quantum theory, they gave us the high-tech revolution of today, with supercomputers, lasers, the internet, and all the fabulous gadgets in our living rooms. Ultimately, all the wonders of modern technology owe their origin to the scientists who gradually discovered the fundamental forces of the world.

Magnetism is, of course, not the same as gravity, but Kepler’s fundamental innovation here is nothing short of breathtaking: he proposed that quantitative physical laws that apply to the Earth are also the underpinnings of quantitative physical laws that govern the heavens. It was the first nonmystical explanation of motion in the heavens; it made the Earth a province of the Cosmos. “Astronomy,” he said, “is part of physics.” Kepler stood at a cusp in history; the last scientific astrologer was the first astrophysicist. Not given to quiet understatement, Kepler assessed his discoveries in these words: With this symphony of voices man can play through the eternity of time in less than an hour, and can taste in small measure the delight of God, the Supreme Artist … I yield freely to the sacred frenzy … the die is cast, and I am writing the book—to be read either now or by posterity, it matters not. It can wait a century for a reader, as God Himself has waited 6,000 years for a witness.

Before researchers become researchers they should become philosophers. They should consider what the human goal is, what it is that humanity should create.Doctors should first determine at the fundamental level what it is that human beings depend on for life... Modern scientific agriculture, on the other hand, has no such vision. Research wanders about aimlessly, each researcher seeing just one part of the infinite array of natural factors which affect harvest yields. Even though it is the same quarter acre, the farmer must grow his crops differently each year in accordance with variations in weather, insect populations, the condition of the soil, and many other natural factors. Nature is everywhere in perpetual motion; conditions are never exactly the same in any two years. Modern research divides nature into tiny pieces and conducts tests that conform neither with natural law nor with practical experiences. The results are arranged for the convenience of research, not according to the needs of the farmer.

With his last breath, her son had said, “Oh, Mom, it’s so simple.” I believe we make our paths far more difficult than they need to be. Our struggle with and resistance to what is entangles us in constant chaos and frustration—when it’s all so simple. Do unto others as you would have them do unto you. And remember Newton’s third law of motion: For every action there is an equal and opposite reaction. The energy you create and release into the world will be reciprocated on all levels. Our main job in life is to align with the energy that is the source of all energies, and to keep our frequency tuned to the energy of love. This I know for sure. When that is your life’s work, mystery solved—or at least, the mystery no longer mystifies you. It only heightens the rapture, reverence, and grace.

(...) The floor itself was inscribed with a mosaic in the data-pattern mode, representing the entire body of the Curia case law. At the center, small icons representing constitutional principles sent out lines to each case in which they were quoted; bright lines for controlling precedent, dim lines for dissenting opinions or dicta. Each case quoted in a later case sent out additional lines, till the concentric circles of floor-icons were meshed in a complex network. The jest of the architect was clear to Phaethon. The floor mosaic was meant to represent the fixed immutability of the law; but the play of light from the pool above made it seem to ripple and sway and change with each little breeze. Above the floor, not touching it, without sound or motion, hovered three massive cubes of black material. These cubes were the manifestations of the Judges. The cube shape symbolized the solidity and implacable majesty of the law. Their high position showed they were above emotionalism or earthly appeals. The crown of each cube bore a thick-armed double helix of heavy gold. The gold spirals atop the black cubes were symbols of life, motion, and energy. Perhaps they represented the active intellects of the Curia. Or perhaps they represented that life and civilization rested on the solid foundations of the law. If so, this was another jest of the architect. The law, it seemed, rested on nothing.

Only in the co-operation of an enormously large number of atoms do statistical laws begin to operate and control the behaviour of these assemblées with an accuracy increasing as the number of atoms involved increases. It is in that way that the events acquire truly orderly features. All the physical and chemical laws that are known to play an important part in the life of organisms are of this statistical kind; any other kind of lawfulness and orderliness that one might think of is being perpetually disturbed and made inoperative by the unceasing heat motion of the atoms.

It is remarkable, however, that at the very lowest point of Kant's depression, when he became perfectly incapable of conversing with any rational meaning on the ordinary affairs of life, he was still able to answer correctly and distinctly, in a degree that was perfectly astonishing, upon any question of philosophy or of science, especially of physical geography, [Footnote: Physical Geography, in opposition to Political.] chemistry, or natural history. He talked satisfactorily, in his very worst state, of the gases, and stated very accurately different propositions of Kepler’s, especially the law of the planetary motions. And I remember in particular, that upon the very last Monday of his life, when the extremity of his weakness moved a circle of his friends to tears, and he sat amongst us insensible to all we could say to him, cowering down, or rather I might say collapsing into a shapeless heap upon his chair, deaf, blind, torpid, motionless,—even then I whispered to the others that I would engage that Kant should take his part in conversation with propriety and animation. This they found it difficult to believe. Upon which I drew close to his ear, and put a question to him about the Moors of Barbary. To the surprise of everybody but myself, he immediately gave us a summary account of their habits and customs; and told us by the way, that in the word Algiers, the g ought to be pronounced hard (as in the English word gear).

Pattee explains there is a basic and extremely important distinction between laws and rules in nature.11 Laws are inexorable, meaning they are unchangeable, inescapable, and inevitable. We can never alter or evade laws of nature. The laws of nature dictate that a car will stay in motion either until an equal and opposite force stops it or it runs out of energy. That is not something we can change. Laws are incorporeal, meaning they do not need embodiments or structures to execute them: there is not a physics policeman enforcing the car’s halt when it runs out of energy. Laws are also universal: they hold at all times in all places. The laws of motion apply whether you are in Scotland or in Spain. On the other hand, rules are arbitrary and can be changed. In the British Isles, the driving rule is to drive on the left side of the road. Continental Europe’s driving rule is to drive on the right side of the road. Rules are dependent on some sort of structure or constraint to execute them. In this case that structure is a police force that fines those who break the rules by driving on the wrong side. Rules are local, meaning that they can exist only when and where there are physical structures to enforce them. If you live out in the middle of the Australian outback, you are in charge. Drive on either side. There is no structure in place to restrain you! Rules are local and changeable and breakable. A rule-governed symbol is selected from a range of competitors for doing a better job constraining the function of the system it belongs to, leading to the production of a more successful phenotype. Selection is flexible; Newton’s laws are not. In their informational role, symbols aren’t dependent on the physical laws that govern energy, time, and rates of change. They follow none of Newton’s laws. They are lawless rule-followers! What this is telling us is that symbols are not locked to their meanings.

The laws of nature are a description of how things actually work in the past, present and future. In tennis, the ball always goes exactly where they say it will. And there are many other laws at work here too. They govern everything that is going on, from how the energy of the shot is produced in the players’ muscles to the speed at which the grass grows beneath their feet. But what’s really important is that these physical laws, as well as being unchangeable, are universal. They apply not just to the flight of a ball, but to the motion of a planet, and everything else in the universe. Unlike laws made by humans, the laws of nature cannot be broken—that’s why they are so powerful and, when seen from a religious standpoint, controversial too. If you accept, as I do, that the laws of nature are fixed, then it doesn’t take long to ask: what role is there for God? This is a big part of the contradiction between science and religion, and although my views have made headlines, it is actually an ancient conflict. One could define God as the embodiment of the laws of nature. However, this is not what most people would think of as God. They mean a human-like being, with whom one can have a personal relationship. When you look at the vast size of the universe, and how insignificant and accidental human life is in it, that seems most implausible.

Scholars discern motions in history & formulate these motions into rules that govern the rises & falls of civilizations. My belief runs contrary, however. To wit: history admits no rules, only outcomes. What precipitates outcomes? Vicious acts & virtuous acts. What precipitates acts? Belief. Belief is both prize & battlefield, within the mind & in the mind's mirror, the world. If we believe humanity is a ladder of tribes, a colosseum of confrontation, exploitation & bestiality, such a humanity is surely brought into being, & history's Horroxes, Boerhaaves & Gooses shall prevail. You & I, the moneyed, the privileged, the fortunate, shall not fare so badly in this world, provided our luck holds. What of it if our consciences itch? Why undermine the dominance of our race, our gunships, our heritage & our legacy? Why fight the 'natural' (oh, weaselly word!) order of things? Why? Because of this: -- one fine day, a purely predatory world shall consume itself. Yes, the devil shall take the hindmost until the foremost is the hindmost. In an individual, selfishness uglifies the soul; for the human species, selfishness is extinction. Is this the entropy written in our nature? If we believe that humanity may transcend tooth & claw, if we believe divers [sic] races & creeds can share this world as peaceably as the orphans share their candlenut tree, if we believe leaders must be just, violence muzzled, power accountable & the riches of the Earth & its Oceans shared equitably, such a world will come to pass. I am not deceived. It is the hardest of worlds to make real. Tortuous advances won over generations can be lost by a single stroke of a myopic president's pen or a vainglorious general's sword. A life spent shaping a world I want Jackson to inherit, not one I fear Jackson shall inherit, this strikes me as a life worth the living. Upon my return to San Francisco, I shall pledge myself to the Abolitionist cause, because I owe my life to a self-freed slave & because I must begin somewhere. I hear my father-in-law's response. 'Oho, fine, Whiggish sentiments, Adam. But don't tell me about justice! Ride to Tennessee on an ass & convince the red-necks that they are merely white-washed negroes & their negroes are black-washed Whites! Sail to the Old World, tell 'em their imperial slaves' rights are as inalienable as the Queen of Belgium's! Oh, you'll grow hoarse, poor & grey in caucuses! You'll be spat on, shot at, lynched, pacified with medals, spurned by backwoodsmen! Crucified! Naïve, dreaming Adam. He who would do battle with the many-headed hydra of human nature must pay a world of pain & his family must pay along with him! & only as you gasp your dying breath shall you understand, your life amounted to no more than one drop in a limitless ocean!' Yet what is any ocean but a multitude of drops?

Write a two-page reflection about your life. What do you like about it? What don’t you like about it? What do you live for? There’s a French term for the latter question. Raison d ’être. It means “reason for being.” My mum used to say that Elliot and I were her raison d’être. Mum had a reason, now she lacks a being. I have a being, I just lack a reason. I live because of the law of inertia. An object in motion stays in motion unless acted upon by an unbalanced force. If I were to reflect on my life, I would say it’s like being engulfed in quicksand, and as much as I want to get out, I slowly sink deeper, towards an inevitable end. I want someone to pull me out, but I don’t know how they can. Their only reactions are to stand on dry land and watch me with concerned expressions, urging me to just walk like they are. Living is being in the middle of a dark tunnel, claustrophobic and boxed in, and feeling something closing in behind you, and realising you can only beat it by running. But the tunnel never ends, and you come to realise that you can’t run forever. You go for as long as you possibly can, hoping to God that you’ll see a light before you can’t run anymore. You desperately want to live. But everyone has their limit. And when you eventually hit yours, there’s nothing more you can do. Life is temporary. Nothing is certain about it except for the fact that it will end. It can end on your terms or as a surprise. The thing is . . . I don’t like surprises.

Newton supposed that the case of the planet was similar to that of [a ball spun around on the end of an elastic string]; that it was always pulled in the direction of the sun, and that this attraction or pulling of the sun produced the revolution of the planet, in the same way that the traction or pulling of the elastic string produces the revolution of the ball. What there is between the sun and the planet that makes each of them pull the other, Newton did not know; nobody knows to this day; and all we are now able to assert positively is that the known motion of the planet is precisely what would be produced if it were fastened to the sun by an elastic string, having a certain law of elasticity. Now observe the nature of this discovery, the greatest in its consequences that has ever yet been made in physical science:— I. It begins with an hypothesis, by supposing that there is an analogy between the motion of a planet and the motion of a ball at the end of a string. II. Science becomes independent of the hypothesis, for we merely use it to investigate the properties of the motion, and do not trouble ourselves further about the cause of it.

Entirely my own opinion,” said Ivanov. “I am glad that we have reached the heart of the matter soon. In other words: you are convinced that “we” – that is to say, the Party, the State and the masses behind it – no longer represent the interests of the Revolution.” “I should leave the masses out of it,” said Rubashov. […] “Leave the masses out of it, “ he repeated. “You understand nothing about them. Nor, probably, do I any more. Once, when the great “we” still existed, we understood them as no one had ever understood them before. We had penetrated into their depths, we worked in the amorphous raw material of history itself…” […] “At that time,” Rubashov went on, “we were called the Party of the Plebs. What did the others know of history? Passing ripples, little eddies and breaking waves. They wondered at the changing forms of the surface and could not explain them. But we had descended into the depths, into the formless, anonymous masses, which at all times constituted the substance of history; and we were the first to discover her laws of motion. We had discovered the laws of her inertia, of the slow changing of her molecular structure, and of her sudden eruptions. That was the greatness of our doctrine. The Jacobins were moralists; we were empirics. We dug in the primeval mud of history and there we found her laws. We knew more than ever men have known about mankind; that is why our revolution succeeded. And now you have buried it all again….” […] “Well,” said Rubashov, “one more makes no difference. Everything is buried: the men, their wisdom and their hopes. You killed the “We”; you destroyed it. Do you really maintain that the masses are still behind you? Other usurpers in Europe pretend the same thing with as much right as you….” […] “Forgive my pompousness,” he went on, “but do you really believe the people are still behind you? It bears you, dumb and resigned, as it bears others in other countries, but there is no response in their depths. The masses have become deaf and dumb again, the great silent x of history, indifferent as the sea carrying the ships. Every passing light is reflected on its surface, but underneath is darkness and silence. A long time ago we stirred up the depths, but that is over. In other words” – he paused and put on his pince-nez – “in those days we made history; now you make politics. That’s the whole difference.” […] "A mathematician once said that algebra was the science for lazy people - one does not work out x, but operates with it as if one knew it. In our case, x stands for the anonymous masses, the people. Politics mean operating with this x without worrying about its actual nature. Making history is to recognize x for what it stands for in the equation." "Pretty," said Ivanov. "But unfortunately rather abstract. To return to more tangible things: you mean, therefore, that "We" - namely, Party and State - no longer represent the interests of the Revolution, of the masses or, if you like, the progress of humanity." "This time you have grasped it," said Rubashov smiling. Ivanov did not answer his smile.

Technology, I said before, is most powerful when it enables transitions—between linear and circular motion (the wheel), or between real and virtual space (the Internet). Science, in contrast, is most powerful when it elucidates rules of organization—laws—that act as lenses through which to view and organize the world. Technologists seek to liberate us from the constraints of our current realities through those transitions. Science defines those constraints, drawing the outer limits of the boundaries of possibility. Our greatest technological innovations thus carry names that claim our prowess over the world: the engine (from ingenium, or “ingenuity”) or the computer (from computare, or “reckoning together”). Our deepest scientific laws, in contrast, are often named after the limits of human knowledge: uncertainty, relativity, incompleteness, impossibility. Of all the sciences, biology is the most lawless; there are few rules to begin with, and even fewer rules that are universal. Living beings must, of course, obey the fundamental rules of physics and chemistry, but life often exists on the margins and interstices of these laws, bending them to their near-breaking limit. The universe seeks equilibriums; it prefers to disperse energy, disrupt organization, and maximize chaos. Life is designed to combat these forces. We slow down reactions, concentrate matter, and organize chemicals into compartments; we sort laundry on Wednesdays. “It sometimes seems as if curbing entropy is our quixotic purpose in the universe,” James Gleick wrote. We live in the loopholes of natural laws, seeking extensions, exceptions, and excuses.

Two things fill the mind with every new and increasing wonder and awe, the oftener and the more steadily I reflect upon them: the starry heavens above me and the moral law within me. I do not merely conjecture them and seek them as if they were obscured in darkness or in the transcendent region beyond my horizon: I see them before me, and I connect them directly with the consciousness of my own existence. The starry heavens begin at the place I occupy in the external world of sense, and they broaden the connection in which I stand into an unbounded magnitude of worlds beyond worlds and systems of systems and into the limitless times of their periodic motion, their beginning and duration. The latter begins at my invisible self, my personality, and exhibits me in a world which has true infinity but which only the understanding can trace - a world in which I recognise myself as existing in a universal and necessary ( and not, as in the first case, only contingent) connection, and thereby also in connection with all those visible worlds. The former view of a countless multitude of worlds annihilates, as it were, my importance as an 'animal creature' which must give back to the planet (a mere speck in the universe) the matter fro which it came, matter which is for a little time endowed with vital force, we know not how. The latter, on the contrary, infinitely raises my worth as that of an 'intelligence' by my being a person in whom the moral law reveals to me a life independent of all animality and even of the whole world of sense, at least so far as it may be inferred from the final destination assigned to my existence by this law, a destination which is not restricted to the conditions and boundaries of this life but reaches into the infinite.

PREFACE Cosmology is the study of the universe as a whole, including its birth and perhaps its ultimate fate. Not surprisingly, it has undergone many transformations in its slow, painful evolution, an evolution often overshadowed by religious dogma and superstition. The first revolution in cosmology was ushered in by the introduction of the telescope in the 1600s. With the aid of the telescope, Galileo Galilei, building on the work of the great astronomers Nicolaus Copernicus and Johannes Kepler, was able to open up the splendor of the heavens for the first time to serious scientific investigation. The advancement of this first stage of cosmology culminated in the work of Isaac Newton, who finally laid down the fundamental laws governing the motion of the celestial bodies. Instead of magic and mysticism, the laws of heavenly bodies were now seen to be subject to forces that were computable and reproducible. A second revolution in cosmology was initiated by the introduction of the great telescopes of the twentieth century, such as the one at Mount Wilson with its huge 100-inch reflecting mirror. In the 1920s, astronomer Edwin Hubble used this giant telescope to overturn centuries of dogma, which stated that the universe was static and eternal, by demonstrating that the galaxies in the heavens are moving away

Outside the train, the world went by, and somewhere above him in the sky, a plane flew away, and objects in motion would stay in motion, and objects at rest would stay at rest. Isaac Newton -- the real one, the one Isaac had been named after -- had figured out that law, and a law wasn't a theory, it was a law. The air Rick had breathed out was still in Isaac's apartment, and the sheets still smelled like him, and there were little parts of him everywhere, and someday he'd come home, and against the great scale of universal time, a few months wasn't long at all. Before Isaac even knew it, they'd be together. The train would rock its way down the tracks and Rick's airplane would fly west and the planet would rotate and the solar system would turn and the galaxy would spin and the universe would keep on expanding, and with enough time, everything in it would again be made right.

Dark matter is currently thought to make up about 23 percent of the mass and energy of the universe, whereas normal matter and energy make up only about 4 percent. Worse still, most contemporary cosmologists think that the continuing expansion of the universe is driven by “dark energy,” whose nature is again obscure. According to the Standard Model of cosmology, dark energy currently accounts for about 73 percent of the matter and energy of the universe. How do dark matter and energy relate to regular matter and energy? And what is the zero-point energy field, also known as the quantum vacuum? Can any of this zero-point energy be tapped? The law of conservation of matter and energy was formulated before these questions arose, and has no ready answer for them. It is based on philosophical and theological theories. Historically, it is rooted in the atomistic school of philosophy in ancient Greece. From the outset it was an assumption. In its modern form, it combines a series of “laws” that have developed since the seventeenth century—the laws of conservation of matter, mass, motion, force and energy. In this chapter I look at the history of these ideas, and show how modern physics throws up questions that the old theories cannot answer. As faith in conservation comes into question, astonishing new possibilities open up in realms ranging from the generation of energy to human nutrition.

Then there occurred to me the 'glucklichste Gedanke meines Lebens,' the happiest thought of my life, in the following form. The gravitational field has only a relative existence in a way similar to the electric field generated by magnetoelectric induction. Because for an observer falling freely from the roof of a house there exists-at least in his immediate surroundings-no gravitational field [his italics]. Indeed, if the observer drops some bodies then these remain relative to him in a state of rest or of uniform motion, independent of their particular chemical or physical nature (in this consideration the air resistance is, of course, ignored). The observer therefore has the right to interpret his state as 'at rest.' Because of this idea, the uncommonly peculiar experimental law that in the gravitational field all bodies fall with the same acceleration attained at once a deep physical meaning. Namely, if there were to exist just one single object that falls in the gravitational field in a way different from all others, then with its help the observer could realize that he is ina gravitational field and is falling in it. If such an object does not exist, however-as experience has shown with great accuracy-then the observer lacks any objective means of perceiving himself as falling in a gravitational field. Rather he has the right to consider his state as one of rest and his environment as field-free relative to gravitation. The experimentally known matter independence of the acceleration of fall is therefore a powerful argument for the fact that the relativity postulate has to be extended to coordinate systems which, relative to each other, are in non-uniform motion.

It is vain philosophy that supposes more causes than are exactly adequate to explain the phenomena of things. . . . You assert that the construction of the animal machine, the fitness of certain animals to certain situations, the connexion between the organs of perception and that which is perceived; the relation between every thing which exists, and that which tends to preserve it in its existence, imply design. It is manifest that if the eye could not see, nor the stomach digest, the human frame could not preserve its present mode of existence. It is equally certain, however, that the elements of its composition, if they did not exist in one form, must exist in another; and that the combinations which they would form, must so long as they endured, derive support for their peculiar mode of being from their fitness to the circumstances of their situation. It by no means follows, that because a being exists, performing certain functions, he was fitted by another being to the performance of these functions. So rash a conclusion would conduct, as I have before shewn, to an absurdity; and it becomes infinitely more unwarrantable from the consideration that the known laws of matter and motion, suffice to unravel, even in the present imperfect state of moral and physical science, the majority of those difficulties which the hypothesis of a Deity was invented to explain. Doubtless no disposition of inert matter, or matter deprived of qualities, could ever have composed an animal, a tree, or even a stone. But matter deprived of qualities, is an abstraction, concerning which it is impossible to form an idea. Matter, such as we behold it, is not inert. It is infinitely active and subtile.

If the law of gravitation be regarded as universal, the point may be stated as follows. The laws of motion require to be stated by reference to what have been called kinetic axes: these are in reality axes having no absolute acceleration and no absolute rotation. It is asserted, for example, when the third law is combined with the notion of mass, that, if m, m' be the masses of two particles between which there is a force, the component accelerations of the two particles due to this force are in the ratio m2 : m1. But this will only be true if the accelerations are measured relative to axes which themselves have no acceleration. We cannot here introduce the centre of mass, for, according to the principle that dynamical facts must be, or be derived from, observable data, the masses, and therefore the centre of mass, must be obtained from the acceleration, and not vice versâ. Hence any dynamical motion, if it is to obey the laws of motion, must be referred to axes which are not subject to any forces. But, if the law of gravitation be accepted, no material axes will satisfy this condition. Hence we shall have to take spatial axes, and motions relative to these are of course absolute motions. 465. In order to avoid this conclusion, C. Neumann* assumes as an essential part of the laws of motion the existence, somewhere, of an absolutely rigid “Body Alpha”, by reference to which all motions are to be estimated. This suggestion misses the essence of the discussion, which is (or should be) as to the logical meaning of dynamical propositions, not as to the way in which they are discovered. It seems sufficiently evident that, if it is necessary to invent a fixed body, purely hypothetical and serving no purpose except to be fixed, the reason is that what is really relevant is a fixed place, and that the body occupying it is irrelevant. It is true that Neumann does not incur the vicious circle which would be involved in saying that the Body Alpha is fixed, while all motions are relative to it; he asserts that it is rigid, but rightly avoids any statement as to its rest or motion, which, in his theory, would be wholly unmeaning. Nevertheless, it seems evident that the question whether one body is at rest or in motion must have as good a meaning as the same question concerning any other body; and this seems sufficient to condemn Neumann’s suggested escape from absolute motion.

Death appears as the harsh victory of the law of our ancestors of the dimension of our becoming. It is a fact that, as productivity increases, each succeeding generation becomes smaller in stature. The defeat of our fathers is revisited upon us as the limits of our world. Yes, structure is human, it is the monumentalization of congealed sweat, sweat squeezed from old exploitation and represented as nature, the world we inhabit, the objective ground. We do not, in our insect-like comings and going, make the immediate world in which we live, we do not make a contribution, on the contrary we are set in motion by it; a generation will pass before what we have done, as an exploited class, will seep through as an effect of objectivity. (Our wealth is laid down in heaven.) The structure of the world has been built by the dead, they were paid in wages, and when the wages were spent and they were in the ground, what they had made continued to exist, these cities, roads and factories are their calcified bones. They had nothing but their wages to show for what they had done, who they were and what they did has been cancelled out. But what they made has continued into our present, their burial and decay is our present. This is the definition of class hatred. We are no closer now to rest, to freedom, to communism than they were, their sacrifice has brought us nothing, what they did counted for nothing, we have inherited nothing, but they did produce value, they did make the world in which we now live, the world that now oppresses us is constructed from the wealth they made, wealth that was taken from them as soon as they were paid a wage, taken and owned by someone else, owned and used to define the nature of class domination. We too must work, and the value we produce leaks away from us, from each only a trickle but in all a sea of it and that, for the next generation, will thicken into wealth for others to own and as a congealed structure it will be used to frame new enterprises in different directions. The violence of what they produced becomes the structure that dominates our existence. Our lives begin amidst the desecration of our ancestors, millions of people who went to their graves as failures, and forever denied experiences of a full human existence, their simply being canceled out; as our parents die, we can say truly that their lives were for nothing, that the black earth that is thrown down onto them blacks out our sky.

To celebrate his victories Pompey summoned a meeting of the Senate to vote his father-in-law a further twenty days of public supplication, whereupon a scene ensued that I have never forgotten. One after another the senators rose to praise Caesar, Cicero dutifully among them, until at last there was no one left for Pompey to call except Cato. “Gentlemen,” said Cato, “yet again you have all taken leave of your senses. By Caesar’s own account he has slaughtered four hundred thousand men, women and children—people with whom we had no quarrel, with whom we were not at war, in a campaign not authorised by a vote either of this Senate or of the Roman people. I wish to lay two counter-proposals for you to consider: first, that far from holding celebrations, we should sacrifice to the gods that they do not turn their wrath for Caesar’s folly and madness upon Rome and the army; and second, that Caesar, having shown himself a war criminal, should be handed over to the tribes of Germany for them to determine his fate.” The shouts of rage that greeted this speech were like howls of pain: “Traitor!” “Gaul-lover!” “German!” Several senators jumped up and started shoving Cato this way and that, causing him to stumble backwards. But he was a strong and wiry man. He regained his balance and stood his ground, glaring at them like an eagle. A motion was proposed that he be taken directly by the lictors to the Carcer and imprisoned until such time as he apologised. Pompey, however, was too shrewd to permit his martyrdom. “Cato by his words has done himself more harm than any punishment we can inflict,” he declared. “Let him go free. It does not matter. He will stand forever condemned in the eyes of the Roman people for such treacherous sentiments.” I too felt that Cato had done himself great damage

There is a sort of subdued pandemonium in the air, a note of repressed violence, as if the awaited explosion required the advent of some utterly minute detail, something microscopic but thoroughly unpremeditated, completely unexpected. In that sort of half-reverie which permits one to participate in an event and yet remain quite aloof, the little detail which was lacking began obscurely but insistently to coagulate, to assume a freakish, crystalline form, like the frost which gathers on the windowpane. And like those frost patterns which seem so bizarre, so utterly free and fantastic in design, but which are nevertheless determined by the most rigid laws, so this sensation which commenced to take form inside me seemed also to be giving obedience to ineluctable laws. My whole being was responding to the dictates of an ambience which it had never before experienced; that which I could call myself seemed to be contracting, condensing, shrinking from the stale, customary boundaries of the flesh whose perimeter knew only the modulations of the nerve ends. And the more substantial, the more solid the core of me became, the more delicate and extravagant appeared the close, palpable reality out of which I was being squeezed. In the measure that I became more and more metallic, in the same measure the scene before my eyes became inflated. The state of tension was so finely drawn now that the introduction of a single foreign particle, even a microscopic particle, as I say, would have shattered everything. For the fraction of a second perhaps I experienced that utter clarity which the epileptic, it is said, is given to know. In that moment I lost completely the illusion of time and space: the world unfurled its drama simultaneously along a meridian which had no axis. In this sort of hair-trigger eternity I felt that everything was justified, supremely justified; I felt the wars inside me that had left behind this pulp and wrack; I felt the crimes that were seething here to emerge tomorrow in blatant screamers; I felt the misery that was grinding itself out with pestle and mortar, the long dull misery that dribbles away in dirty handkerchiefs. On the meridian of time there is no injustice: there is only the poetry of motion creating the illusion of truth and drama. If at any moment anywhere one comes face to face with the absolute, that great sympathy which makes men like Gautama and Jesus seem divine freezes away; the monstrous thing is not that men have created roses out of this dung heap, but that, for some reason or other, they should want roses. For some reason or other man looks for the miracle, and to accomplish it he will wade through blood. He will debauch himself with ideas, he will reduce himself to a shadow if for only one second of his life he can close his eyes to the hideousness of reality. Everything is endured – disgrace, humiliation, poverty, war, crime, ennui – in the belief that overnight something will occur, a miracle, which will render life tolerable. And all the while a meter is running inside and there is no hand that can reach in there and shut it off. All the while someone is eating the bread of life and drinking the wine, some dirty fat cockroach of a priest who hides away in the cellar guzzling it, while up above in the light of the street a phantom host touches the lips and the blood is pale as water. And out of the endless torment and misery no miracle comes forth, no microscopic vestige of relief. Only ideas, pale, attenuated ideas which have to be fattened by slaughter; ideas which come forth like bile, like the guts of a pig when the carcass is ripped open.

Music of the Grid: A Poem in Two Equations _________________________ The masses of particles sound the frequencies with which space vibrates, when played. This Music of the Grid betters the old mystic mainstay, "Music of the Spheres," both in fantasy and in realism. LET US COMBINE Einstein's second law m=E/C^2 (1) with another fundamental equation, the Planck-Einstein-Schrodinger formula E = hv The Planck-Einstein-Schrodinger formula relates the energy E of a quantum-mechanical state to the frequency v at which its wave function vibrates. Here h is Planck's constant. Planck introduced it in his revolutionary hypothesis (1899) that launched quantum theory: that atoms emit or absorb light of frequency v only in packets of energy E = hv. Einstein went a big step further with his photon hypothesis (1905): that light of frequency v is always organized into packets with energy E = hv. Finally Schrodinger made it the basis of his basic equation for wave functions-the Schrodinger equation (1926). This gave birth to the modern, universal interpretation: the wave function of any state with energy E vibrates at a frequency v given by v = E/h. By combining Einstein with Schrodinger we arrive at a marvelous bit of poetry: (*) v = mc^2/h (*) The ancients had a concept called "Music of the Spheres" that inspired many scientists (notably Johannes Kepler) and even more mystics. Because periodic motion (vibration) of musical instruments causes their sustained tones, the idea goes, the periodic motions of the planets, as they fulfill their orbits, must be accompanied by a sort of music. Though picturesque and soundscape-esque, this inspiring anticipation of multimedia never became a very precise or fruitful scientific idea. It was never more than a vague metaphor, so it remains shrouded in equation marks: "Music of the Spheres." Our equation (*) is a more fantastic yet more realistic embodiment of the same inspiration. Rather than plucking a string, blowing through a reed, banging on a drumhead, or clanging a gong, we play the instrument that is empty space by plunking down different combinations of quarks, gluons, electrons, photons,... (that is, the Bits that represent these Its) and let them settle until they reach equilibrium with the spontaneous activity of Grid. Neither planets nor any material constructions compromise the pure ideality of our instrument. It settles into one of its possible vibratory motions, with different frequencies v, depending on how we do the plunking, and with what. These vibrations represent particles of different mass m, according to (*). The masses of particles sound the Music of the Grid.

Studentdom, he felt, must pass its own Examinations and define its own Commencement--a slow, most painful process, made the more anguishing by bloody intelligences like the Bonifacists of Siegfrieder College. Yet however it seemed at times that men got nowhere, but only repeated class by class the mistakes of their predecessors, two crucial facts about them were at once their hope and the limitation of their possibility, so he believed. One was their historicity: the campus was young, the student race even younger, and by contrast with the whole of past time, the great collegiate cultures had been born only yesterday. The other had to do with comparative cyclology, a field of systematic speculation he could not review for me just then, but whose present relevance lay in the correspondency he held to obtain between the life-history of individuals and the history of studentdom in general. As the embryologists maintained that ontogeny repeats phylogeny, so, Max claimed, the race itself--and on a smaller scale, West-Campus culture--followed demonstrably--in capital letters, as it were, or slow motion--the life-pattern of its least new freshman. This was the basis of Spielman's Law--ontogeny repeats cosmogeny--and there was much more to it and to the science of cyclology whereof it was first principle. The important thing for now was that, by his calculations, West-Campus as a whole was in mid-adolescence... 'Look how we been acting,' he invited me, referring to intercollegiate political squabbles; 'the colleges are spoilt kids, and the whole University a mindless baby, ja? Okay: so weren't we all once, Enos Enoch too? And we got to admit that the University's a precocious kid. If the history of life on campus hadn't been so childish, we couldn't hope it'll reach maturity.' Studentdom had passed already, he asserted, from a disorganized, pre-literate infancy (of which Croaker was a modern representative, nothing ever being entirely lost) through a rather brilliant early childhood ('...ancient Lykeion, Remus, T'ang...') which formed its basic and somewhat contradictory character; it had undergone a period of naive general faith in parental authority (by which he meant early Founderism) and survived critical spells of disillusionment, skepticism, rationalism, willfulness, self-criticism, violence, disorientation, despair, and the like--all characteristic of pre-adolescence and adolescence, at least in their West-Campus form. I even recognized some of those stages in my own recent past; indeed, Max's description of the present state of West-Campus studentdom reminded me uncomfortably of my behavior in the Lady-Creamhair period: capricious, at odds with itself, perverse, hard to live with. Its schisms, as manifested in the Quiet Riot, had been aggravated and rendered dangerous by the access of unwonted power--as when, in the space of a few semesters, a boy finds himself suddenly muscular, deep-voiced, aware of his failings, proud of his strengths, capable of truly potent love and hatred--and on his own. What hope there was that such an adolescent would reach maturity (not to say Commencement) without destroying himself was precisely the hope of the University.

Do you have vows?” Freeman asked. Zane nodded, but he didn’t move to take out a piece of paper or any notes. He licked his lips instead and took a deep breath. “Ty,” he said, and the sound was almost lost in the night. “Some roads to love aren’t easy, and I’ve never been more thankful for being forced to fight for something. I started this journey with a partner I hated, and a man in the mirror I hated even more. The road took me from the streets of New York to the mountaintops of West Virginia, from the place I born to the place I found a home. It forced me to let go of my past and face my future. And I had to be made blind before I could see.” Zane swallowed hard and looked down, obviously fighting to finish without choking on the words or tearing up. Ty realized his own eyes were burning, and it wasn’t because of the cold wind. Zane squeezed Ty’s fingers with one hand, and he met Ty’s eyes as he reached into his lapel with his other. “I promise to love you until I die,” he said, his voice strong again. He held up a Sharpie he’d had in his suit, and pulled Ty’s hand closer to draw on his ring finger. With several sweeping motions, he created an infinity sign that looped all the way around the finger. When he was satisfied with the ring he’d drawn, he kissed Ty’s knuckles and let him go, handing him the Sharpie. Ty grasped the pen, but he couldn’t take his eyes off Zane. He ran his thumb over Zane’s palm. He had a set of vows he’d jotted down on a note card, folded up in his pocket, but he left them where they were and gazed into Zane’s eyes, their past flashing in front of him, their future opening up in his mind. He took a deep breath. “I promise to never leave you alone in the dark,” he whispered. He pulled Zane’s hand closer and pressed the tip of the Sharpie against Zane’s skin, curving the symbol for forever around it. When he was satisfied, he kissed the tip of Zane’s finger and slid the pen back into his lapel pocket. Freeman coughed and turned a page in his book. “Do you, Zane Zachary Garrett, take this man to be your lawful wedded husband?” Zane’s lips curved into a warm smile. “I do.” Freeman turned toward Ty. “Do you, Beaumont Tyler Grady, take this man to be your lawful wedded husband?” “I do,” Ty said, almost before the question was finished. “Then by the power vested in me by the state of Maryland, I pronounce you legally wed.” Freeman slapped his little book closed. “You may now share the first kiss of the rest of your lives.” Ty had fully expected to have the urge to grab Zane and plant one on him out of sheer impatience and joy, but as he stood staring at his brand-new husband, it was as if they were moving underwater. He touched the tips of his fingers to Zane’s cheek, then stepped closer and used both hands to cup his face with the utmost care. Zane was still smiling when they kissed, and it was slow and gentle, Zane’s hands at Ty’s ribs pulling them flush. “Okay, now,” Livi whispered somewhere to their side, and a moment later they were both pelted with handfuls of heart-shaped confetti. Zane laughed and finally wrapped his arms around Ty, squeezing him tight. The others continued to toss the confetti at them, even handing out bits to people passing by so they’d be sure to get covered from all sides. They laughed into the kiss, not caring. They were still locked in their happy embrace when Deuce turned the box over above them and rained little, bitty hearts down on their heads.