en.wikipedia.org/wiki/Mass–energy_equivalence
(
atomic A-bomb-a-nation,
Fri 3 Sep 2010, 18:54,
archived)
What's it matter . . . μᾶζα) commonly refers to any of three properties of matter
equal to 6.67×10−11 kg−1 m3 s−
(equal to 6.67×10−11 kg−1 m3 s−
Valin I changed glasses while I wasn't looking,
Fri 3 Sep 2010, 18:57,
archived)
Today, many physicists believe that we are the carp swimming in our tiny pond, blissfully unaware of invisible, unseen uni- verses hovering just above us in hyperspace. We spend our life in three spatial dimensions, confident that what we can see with our telescopes is all there is, ignorant of the possibility of 10 dimensional hyperspace. Although these higher dimensions are invisible, their “ripples” can clearly be seen and felt. We call these ripples gravity and light. The theory of hyperspace, however, languished for many decades for lack of any physical proof or application. But the theory, once considered the province of eccentrics and mystics, is being revived for a simple reason: it may hold the key to the greatest theory of all time, the “theory of everything.”
( atomic A-bomb-a-nation,
Fri 3 Sep 2010, 19:08,
archived)
A mass can sometimes be expressed in terms of length. The mass of a very small particle may be identified
with its inverse Compton wavelength (1 cm−1 ≈ 3.52×10−41 kg).
The mass of a very large star or black hole may be identified with its Schwarzschild radius (1 cm ≈ 6.73×1024 kg).
(with its inverse Compton wavelength (1 cm−1 ≈ 3.52×10−41 kg).
The mass of a very large star or black hole may be identified with its Schwarzschild radius (1 cm ≈ 6.73×1024 kg).
Valin I changed glasses while I wasn't looking,
Fri 3 Sep 2010, 19:12,
archived)
lets surf those gravitational wavesaltho light board needed as they are quite weak and im fat
(
boff FL OZ,
Fri 3 Sep 2010, 22:10,
archived)