Momentum Famous Quotes

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For instance, have you ever been going about your business, enjoying your life, when all of sudden you made a stupid choice or series of small choices that ultimately sabotaged your hard work and momentum, all for no apparent reason? You didn’t intend to sabotage yourself, but by not thinking about your decisions—weighing the risks and potential outcomes—you found yourself facing unintended consequences. Nobody intends to become obese, go through bankruptcy, or get a divorce, but often (if not always) those consequences are the result of a series of small, poor choices. Elephants Don’t Bite Have you ever been bitten by an elephant? How about a mosquito? It’s the little things in life that will bite you. Occasionally, we see big mistakes threaten to destroy a career or reputation in an instant—the famous comedian who rants racial slurs during a stand-up routine, the drunken anti-Semitic antics of a once-celebrated humanitarian, the anti-gay-rights senator caught soliciting gay sex in a restroom, the admired female tennis player who uncharacteristically threatens an official with a tirade of expletives. Clearly, these types of poor choices have major repercussions. But even if you’ve pulled such a whopper in your past, it’s not extraordinary massive steps backward or the tragic single moments that we’re concerned with here. For most of us, it’s the frequent, small, and seemingly inconsequential choices that are of grave concern. I’m talking about the decisions you think don’t make any difference at all. It’s the little things that inevitably and predictably derail your success. Whether they’re bone-headed maneuvers, no-biggie behaviors, or are disguised as positive choices (those are especially insidious), these seemingly insignificant decisions can completely throw you off course because you’re not mindful of them. You get overwhelmed, space out, and are unaware of the little actions that take you way off course. The Compound Effect works, all right. It always works, remember? But in this case it works against you because you’re doing… you’re sleepwalking.
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Darren Hardy (The Compound Effect)
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Heisenberg’s more famous and disruptive contribution came two years later, in 1927. It is, to the general public, one of the best known and most baffling aspects of quantum physics: the uncertainty principle. It is impossible to know, Heisenberg declared, the precise position of a particle, such as a moving electron, and its precise momentum (its velocity times its mass) at the same instant. The more precisely the position of the particle is measured, the less precisely it is possible to measure its momentum. And the formula that describes the trade-off involves (no surprise) Planck’s constant. The very act of observing something—of allowing photons or electrons or any other particles or waves of energy to strike the object—affects the observation. But Heisenberg’s theory went beyond that. An electron does not have a definite position or path until we observe it. This is a feature of our universe, he said, not merely some defect in our observing or measuring abilities.
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Walter Isaacson (Einstein: His Life and Universe)
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While these tactics were aggressive and crude, they confirmed that our legislation had touched a nerve. I wasn’t the only one who recognized this. Many other victims of human rights abuses in Russia saw the same thing. After the bill was introduced they came to Washington or wrote letters to the Magnitsky Act’s cosponsors with the same basic message: “You have found the Achilles’ heel of the Putin regime.” Then, one by one, they would ask, “Can you add the people who killed my brother to the Magnitsky Act?” “Can you add the people who tortured my mother?” “How about the people who kidnapped my husband?” And on and on. The senators quickly realized that they’d stumbled onto something much bigger than one horrific case. They had inadvertently discovered a new method for fighting human rights abuses in authoritarian regimes in the twenty-first century: targeted visa sanctions and asset freezes. After a dozen or so of these visits and letters, Senator Cardin and his cosponsors conferred and decided to expand the law, adding sixty-five words to the Magnitsky Act. Those new words said that in addition to sanctioning Sergei’s tormentors, the Magnitsky Act would sanction all other gross human rights abusers in Russia. With those extra sixty-five words, my personal fight for justice had become everyone’s fight. The revised bill was officially introduced on May 19, 2011, less than a month after we posted the Olga Stepanova YouTube video. Following its introduction, a small army of Russian activists descended on Capitol Hill, pushing for the bill’s passage. They pressed every senator who would talk to them to sign on. There was Garry Kasparov, the famous chess grand master and human rights activist; there was Alexei Navalny, the most popular Russian opposition leader; and there was Evgenia Chirikova, a well-known Russian environmental activist. I didn’t have to recruit any of these people. They just showed up by themselves. This uncoordinated initiative worked beautifully. The number of Senate cosponsors grew quickly, with three or four new senators signing on every month. It was an easy sell. There wasn’t a pro-Russian-torture-and-murder lobby in Washington to oppose it. No senator, whether the most liberal Democrat or the most conservative Republican, would lose a single vote for banning Russian torturers and murderers from coming to America. The Magnitsky Act was gathering so much momentum that it appeared it might be unstoppable. From the day that Kyle Scott at the State Department stonewalled me, I knew that the administration was dead set against this, but now they were in a tough spot. If they openly opposed the law, it would look as if they were siding with the Russians. However, if they publicly supported it, it would threaten Obama’s “reset” with Russia. They needed to come up with some other solution. On July 20, 2011, the State Department showed its cards. They sent a memo to the Senate entitled “Administration Comments on S.1039 Sergei Magnitsky Rule of Law.” Though not meant to be made public, within a day it was leaked.
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Bill Browder (Red Notice: A True Story of High Finance, Murder, and One Man’s Fight for Justice)
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When I met Dr. Phil Zimbardo, the former president of the American Psychological Association, for lunch, I knew him primarily as the mastermind behind the famous Stanford prison experiment.7 In the summer of 1971, Zimbardo took healthy Stanford students, assigned them roles as either “guards” or “inmates,” and locked them in a makeshift “prison” in the basement of Stanford University. In just days, the “prisoners” began to demonstrate symptoms of depression and extreme stress, while the “guards” began to act cruel and sadistic (the experiment was ended early, for obvious reasons). The point is that simply being treated like prisoners and guards had, over the course of just a few days, created a momentum that caused the subjects to act like prisoners and guards. The Stanford prison experiment is legendary, and much has been written about its many implications. But what I wondered was this: If simply being treated in a certain way conditioned these Stanford students to gradually adopt these negative behaviors, could the same kind of conditioning work for more positive behavior too? Indeed, today Zimbardo is attempting a grand social experiment along those lines called the “Heroic Imagination Project.”8 The logic is to increase the odds of people operating with courage by teaching them the principles of heroism. By encouraging and rewarding heroic acts, Zimbardo believes, we can consciously and deliberately create a system where heroic acts eventually become natural and effortless. We have a choice. We can use our energies to set up a system that makes execution of goodness easy, or we can resign ourselves to a system that actually makes it harder to do what is good. Ward’s Positive Tickets system did the former, and it worked. We can apply the same principle to the choices we face when designing systems in our own lives.
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Greg McKeown (Essentialism: The Disciplined Pursuit of Less)
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Planck's constant sets the scale for the wave-like nature of particles. It is a tiny number, which means that we don't see the waviness of macroscopic matter because we are moving slowly compared to the fast quantum particles zipping around the atom. If we were very tiny, we would see our inner waviness. De Broglie's connection between the wavelength of a particle and its momentum is at the heart of the famous uncertainty principle. And it was Werner Heisenberg that was able to precisely formulate it.
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Stephon Alexander (The Jazz of Physics: The Secret Link Between Music and the Structure of the Universe)
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In early September, convinced that the best way to defend Richmond was to divert attention to Washington, Lee had decided to invade Maryland after obtaining Jefferson Davis’s permission. Today the decision to invade Maryland is remembered through the prism of Lee hoping to win a major battle in the North that would bring about European recognition of the Confederacy, potential intervention, and possible capitulation by the North, whose anti-war Democrats were picking up political momentum.
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Charles River Editors (The Stonewall Brigade: The History of the Most Famous Confederate Combat Unit of the Civil War)
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think that therapists of all persuasions have an aversion to expressing anger toward their patients or even feeling it, because it stimulates this irrational fear of not only failing to soothe but also to harm. This is the conundrum that we need to break free from. Accepting our inevitable ambivalence toward both the work itself (Kravis, 2013), and often toward our patients as individuals, could provide the necessary momentum to advance both our theoretical formulations and our clinical interventions. Even more important is the acceptance that we are not without memory or desire. As poetic and appealing as Bion's famous line is, I think it is not a realistic approach to doing treatment. I appreciate that his prescription was meant to encourage receptivity rather than deny our personal biases and needs. Nonetheless, his words are often taken more literally, denying the considerable
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Karen J. Maroda (The Analyst’s Vulnerability: Impact on Theory and Practice (Psychoanalysis in a New Key Book Series))
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Third, the idea that venture capitalists get into deals on the strength of their brands can be exaggerated. A deal seen by a partner at Sequoia will also be seen by rivals at other firms: in a fragmented cottage industry, there is no lack of competition. Often, winning the deal depends on skill as much as brand: it’s about understanding the business model well enough to impress the entrepreneur; it’s about judging what valuation might be reasonable. One careful tally concluded that new or emerging venture partnerships capture around half the gains in the top deals, and there are myriad examples of famous VCs having a chance to invest and then flubbing it.[6] Andreessen Horowitz passed on Uber. Its brand could not save it. Peter Thiel was an early investor in Stripe. He lacked the conviction to invest as much as Sequoia. As to the idea that branded venture partnerships have the “privilege” of participating in supposedly less risky late-stage investment rounds, this depends from deal to deal. A unicorn’s momentum usually translates into an extremely high price for its shares. In the cases of Uber and especially WeWork, some late-stage investors lost millions. Fourth, the anti-skill thesis underplays venture capitalists’ contributions to portfolio companies. Admittedly, these contributions can be difficult to pin down. Starting with Arthur Rock, who chaired the board of Intel for thirty-three years, most venture capitalists have avoided the limelight. They are the coaches, not the athletes. But this book has excavated multiple cases in which VC coaching made all the difference. Don Valentine rescued Atari and then Cisco from chaos. Peter Barris of NEA saw how UUNET could become the new GE Information Services. John Doerr persuaded the Googlers to work with Eric Schmidt. Ben Horowitz steered Nicira and Okta through their formative moments. To be sure, stories of venture capitalists guiding portfolio companies may exaggerate VCs’ importance: in at least some of these cases, the founders might have solved their own problems without advice from their investors. But quantitative research suggests that venture capitalists do make a positive impact: studies repeatedly find that startups backed by high-quality VCs are more likely to succeed than others.[7] A quirky contribution to this literature looks at what happens when airline routes make it easier for a venture capitalist to visit a startup. When the trip becomes simpler, the startup performs better.[8]
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Sebastian Mallaby (The Power Law: Venture Capital and the Making of the New Future)
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Isaac Newton famously noted that an object in motion tends to stay in motion, while an object at rest tends to stay at rest. Sir Isaac focused on physical objects—planets, pendulums, and the like—but the same concepts can be applied to the social world. Just like moons and comets, people and organizations are guided by conservation of momentum. Inertia. They tend to do what they’ve always done.
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Jonah Berger (The Catalyst: How to Change Anyone's Mind)
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In this chapter we will look at the entire edifice of QFT. We will see that it is based on three simple principles. We will also list some of its achievements, including some new insights and understandings not previously mentioned. THE FOUNDATION QFT is an axiomatic theory that rests on a few basic assumptions. Everything you have learned so far, from the force of gravity to the spectrum of hydrogen, follows almost inevitably from these three basic principles. (To my knowledge, Julian Schwinger is the only person who has presented QFT in this axiomatic way, at least in the amazing courses he taught at Harvard University in the 1950's.) 1. The field principle. The first pillar is the assumption that nature is made of fields. These fields are embedded in what physicists call flat or Euclidean three-dimensional space-the kind of space that you intuitively believe in. Each field consists of a set of physical properties at every point of space, with equations that describe how these particles or field intensities influence each other and change with time. In QFT there are no particles, no round balls, no sharp edges. You should remember, however, that the idea of fields that permeate space is not intuitive. It eluded Newton, who could not accept action-at-a-distance. It wasn't until 1845 that Faraday, inspired by patterns of iron filings, first conceived of fields. The use of colors is my attempt to make the field picture more palatable. 2. The quantum principle (discetization). The quantum principle is the second pillar, following from Planck's 1900 proposal that EM fields are made up of discrete pieces. In QFT, all physical properties are treated as having discrete values. Even field strengths, whose values are continues, are regarded as the limit of increasingly finer discrete values. The principle of discretization was discovered experimentally in 1922 by Otto Stern and Walther Gerlach. Their experiment (Fig. 7-1) showed that the angular momentum (or spin) of the electron in a given direction can have only two values: +1/2 or -1/2 (Fig. 7-1). The principle of discretization leads to another important difference between quantum and classical fields: the principle of superposition. Because the angular momentum along a certain axis can only have discrete values (Fig. 7-1), this means that atoms whose angular momentum has been determined along a different axis are in a superposition of states defined by the axis of the magnet. This same superposition principle applies to quantum fields: the field intensity at a point can be a superposition of values. And just as interaction of the atom with a magnet "selects" one of the values with corresponding probabilities, so "measurement" of field intensity at a point will select one of the possible values with corresponding probability (see "Field Collapse" in Chapter 8). It is discretization and superposition that lead to Hilbert space as the mathematical language of QFT. 3. The relativity principle. There is one more fundamental assumption-that the field equations must be the same for all uniformly-moving observers. This is known as the Principle of Relativity, famously enunciated by Einstein in 1905 (see Appendix A). Relativistic invariance is built into QFT as the third pillar. QFT is the only theory that combines the relativity and quantum principles.
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Rodney A. Brooks (Fields of Color: The theory that escaped Einstein)
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Even in the equations that had been formulated to describe electromagnetism, there is no natural directionality to the interactions of particles; the equations look the same going both directions. If you looked at a video of atoms interacting, you could play it backward and you wouldn’t be able to tell which was correct. It is only in the macroworld of objects, people, planets, and so on, the world governed by entropy, that causation appears to unfold in a single direction. The second law of thermodynamics describes the increasing disorder in the universe at macroscales and is often seen as equivalent to the one-way arrow of time. More and more physicists over the past few decades, sensitive to the nondirectionality that seems to rule at the micro or quantum level, have begun to question the no-teleology rule. Recall that the tiny particles making up the matter and energy of the physical universe are really like worms or strings snaking through the block universe of Minkowski spacetime. Their interactions, which look to us a bit like tiny balls colliding on a billiard table, are from a four-dimensional perspective more like threads intertwining; the twists and turns where they wrap around each other are what we see as collisions, interactions, and “measurements” (in the physicists’ preferred idiom). Each interaction changes information associated with those threads—their trajectory through the block universe (position and momentum) as well as qualities like “spin” that influence that trajectory. According to some recent theories, a portion of the information particles carry with them actually might propagate backward rather than forward across their world lines. For instance, an experiment at the University of Rochester in 2009 found that photons in a laser beam could be amplified in their past when interacted with a certain way during a subsequent measurement—true backward causation, in other words.8 The Israeli-American physicist Yakir Aharonov and some of his students are now arguing that the famous uncertainty principle—the extent to which the outcome of an interaction is random and unpredictable—may actually be a measure of the portion of future influence on a particle’s behavior.9 In other words, the notorious randomness of quantum mechanics—those statistical laws that captured Jung’s imagination—may be where retrocausation was hiding all along. And it would mean Einstein was right: God doesn’t play dice.*23 If the new physics of retrocausation is correct, past and future cocreate the pattern of reality built up from the threads of the material world. The world is really woven like a tapestry on a four-dimensional loom. It makes little sense to think of a tapestry as caused by one side only;
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Eric Wargo (Precognitive Dreamwork and the Long Self: Interpreting Messages from Your Future (A Sacred Planet Book))
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Ain't no biography writing from the grave, so I am telling it now, with a wordious, Wow! I AM #EntrePReneurISHing -its a book, brand, and beautiful entrepreneurship elevation stimulation momentum...amusement.
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Dr Tracey Bond
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Flower of life: A figure composed of evenly-spaced, overlapping circles creating a flower-like pattern. Images of the Platonic solids and other sacred geometrical figures can be discerned within its pattern. FIGURE 3.14 FLOWER OF LIFE The Platonic solids: Five three-dimensional solid shapes, each containing all congruent angles and sides. If circumscribed with a sphere, all vertices would touch the edge of that sphere. Linked by Plato to the four primary elements and heaven. FIGURE 3.15 PENTACHORON The applications of these shapes to music are important to sound healing theory. The ancients have always professed a belief in the “music of the spheres,” a vibrational ordering to the universe. Pythagorus is famous for interconnecting geometry and math to music. He determined that stopping a string halfway along its length created an octave; a ratio of three to two resulted in a fifth; and a ratio of four to three produced a fourth. These ratios were seen as forming harmonics that could restore a disharmonic body—or heal. Hans Jenny furthered this work through the study of cymatics, discussed later in this chapter, and the contemporary sound healer and author Jonathan Goldman considers the proportions of the body to relate to the golden mean, with ratios in relation to the major sixth (3:5) and the minor sixth (5:8).100 Geometry also seems to serve as an “interdimensional glue,” according to a relatively new theory called causal dynamical triangulation (CDT), which portrays the walls of time—and of the different dimensions—as triangulated. According to CDT, time-space is divided into tiny triangulated pieces, with the building block being a pentachoron. A pentachoron is made of five tetrahedral cells and a triangle combined with a tetrahedron. Each simple, triangulated piece is geometrically flat, but they are “glued together” to create curved time-spaces. This theory allows the transfer of energy from one dimension to another, but unlike many other time-space theories, this one makes certain that a cause precedes an event and also showcases the geometric nature of reality.101 The creation of geometry figures at macro- and microlevels can perhaps be explained by the notion called spin, first introduced in Chapter 1. Everything spins, the term spin describing the rotation of an object or particle around its own axis. Orbital spin references the spinning of an object around another object, such as the moon around the earth. Both types of spin are measured by angular momentum, a combination of mass, the distance from the center of travel, and speed. Spinning particles create forms where they “touch” in space.
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Cyndi Dale (The Subtle Body: An Encyclopedia of Your Energetic Anatomy)