Books, Brochures, and Chapters>Book:  Greene , Brian (2011-05-31), The Elegant Universe, Vintage Digital, Retrieved on 2012-03-29
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  • Folksonomies: science physics

    Memes

    29 MAR 2012

     The Delicate Balance of the Forces of the Universe

    the universe would be a vastly different place if the properties of the matter and force particles were even moderately changed. For example, the existence of the stable nuclei forming the hundred or so elements of the periodic table hinges delicately on the ratio between the strengths of the strong and electromagnetic forces. The protons crammed together in atomic nuclei all repel one another electromagnetically; the strong force acting among their constituent quarks, thankfully, overcomes t...
    Folksonomies: nature physics forces balance
    Folksonomies: nature physics forces balance
      1  notes

    If they were slightly different, the Universe wouldn't look the way it does.

    29 MAR 2012

     Example of Relativity

    Imagine that George, who is wearing a spacesuit with a small, red flashing light, is floating in the absolute darkness of completely empty space, far away from any planets, stars, or galaxies. From George's perspective, he is completely stationary, engulfed in the uniform, still blackness of the cosmos. Off in the distance, George catches sight of a tiny, green flashing light that appears to be coming closer and closer. Finally, it gets close enough for George to see that the light is attache...
      1  notes

    All motion is relative.

    29 MAR 2012

     Why Traveling at the Speed of Light Slows Down Time

    the precise time difference between stationary and moving clocks depends on how much farther the sliding clock's photon must travel to complete each round-trip journey This in turn depends on how quickly the sliding clock is moving—from the viewpoint of a stationary observer, the faster the clock is sliding, the farther the photon must travel to the right. We conclude that in comparison to a stationary clock, the rate of ticking of the sliding clock becomes slower and slower as it moves faste...
      1  notes

    An elegant explanation in physical terms of photons and the distances they travel.

    29 MAR 2012

     Why Nothing Can Go Faster Than the Speed of Light

    Einstein's equation gives us the most concrete explanation for the central fact that nothing can travel faster than light speed. You may have wondered, for instance, why we can't take some object, a muon say, that an accelerator has boosted up to 667 million miles per hour—99.5 percent of light speed—and "push it a bit harder," getting it to 99.9 percent of light speed, and then "really push it harder" impelling it to cross the light-speed barrier. Einstein's formula explains why such efforts...
      1  notes

    Because its mass will become infinite.

    29 MAR 2012

     Gravity Travels at the Speed of Light

    Here's the rub. In Newton's theory of gravity, one body exerts a gravitational pull on another with a strength determined solely by the mass of the objects involved and the magnitude of their separation. The strength has nothing to do with how long the objects have been in each other's presence. This means that if their mass or their separation should change, the objects will, according to Newton, immediately feel a change in their mutual gravitational attraction. For instance, Newton's theor...
      1  notes

    According to Einstein, overturning Newton.

    29 MAR 2012

     Definition of Plank's Constant

    Just as you can't have one-third of a penny or two and a half quarters, Planck declared that when it comes to energy, no fractions are allowed. Now, our monetary denominations are determined by the United States Treasury. Seeking a more fundamental explanation, Planck suggested that the energy denomination of a wave—the minimal lump of energy that it can have—is determined by its frequency. Specifically, he posited that the minimum energy a wave can have is proportional to its frequency: larg...
      1  notes

    How it evens out the energy of elementary particles.

    29 MAR 2012

     Gravity is an Extremely Feeble Force

    ...imagine holding an electron in your left hand and another electron in your right hand and bringing these two identical electrically charged particles close together. Their mutual gravitational attraction will favor their getting closer while their electromagnetic repulsion will try to drive them apart. Which is stronger? There is no contest: The electromagnetic repulsion is about a million billion billion billion billion (10 to the 42th) times stronger! If your right bicep represents the s...
      1  notes

    In comparison to the other forces holding the Universe together.

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