Well, Vulcan doesn't exist — Albert Einstein's
general theory of relativity explains Mercury's orbit — but asteroids known as vulcanoids could, circling so close to the sun that we can't see them in its glare.
Not exact matches
Newton's law
of gravity was later
explained, in turn, by Einstein, who showed that it followed from a more profound
theory of gravity called
general relativity.
This point was reinforced about 200 years after Newton when Albert Einstein's discovery
of general relativity produced the modern
theory of gravity — capable
of explaining not only the behavior
of our little local solar system but also the structure
of the whole cosmos.
And when you're done with that, please
explain, (since we know from Einstein's
General Theory of Relativity, that space - time is relative to speed / acceleration), who's moment you are talking about.
Such a
theory would be crucial for
explaining the first moments
of the big bang, when the universe was dense, hot and small, or what happens near the singularity at the cores
of black holes, where the effects
of quantum physics may compete with those
of general relativity.
After devising his
general theory of relativity to
explain gravity, he realized that it implied ripples in the very fabric
of spacetime itself.
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explains all you need to know about gravitational waves — what they are, how they relate to Einstein's
theory of general relativity and how astronomers have researched these space - time wrinkles over many decades.
In his new book, A Universe from Nothing, cosmologist Lawrence M. Krauss attempts to link quantum physics to Einstein's
general theory of relativity to
explain the origin
of a universe from nothing: «In quantum gravity, universes can, and indeed always will, spontaneously appear from nothing.
These characteristics would
explain the extreme time dilation on the world where the film's intrepid planet hunters landed: In one hour there, seven elapsed on Earth, a phenomenon predicted by Einstein's
general theory of relativity.
Einstein showed that the sun's mass creates a curvature in space - time that affects Mercury enough to
explain the difference, lending credence to his
theory of general relativity.
A decade later he developed the
general theory of relativity, which
explains gravity in terms
of the curvature
of space and time.
Einstein's
theory of general relativity explains almost everything large scale in the universe very well, but starts to unravel when examining its origins and mechanisms at quantum level.
Before publishing his laser paper, Einstein tweaked the equations
of his brand - new
general theory of relativity in order to better
explain the universe (details in Part 1).
The success
of general relativity in
explaining most
of Mercury's remaining precession helped persuade scientists that Einstein's
theory was right.
He went on to use this «equivalence principle» as the fundament
of his
general theory of relativity, still our best stab at
explaining the mysterious force
of gravity.
To
explain the special
theory of relativity, Einstein invites us on board a train filled with rulers and clocks; for the more complex
general theory, we career in a cosmic elevator through empty space.
For example, «Quantum field
theories are the most
general way
of attacking a physics problem,» broader than special
relativity or quantum mechanics,
explains Bartolotta.
By assuming that the sun was spherical, Albert Einstein (father
of the
Theory of General Relativity) explained with precision a variation in the orbit of Mercury, the so - called precession of the perihelion — a phenomenon that Newton's theory of gravity could not ex
Theory of General Relativity)
explained with precision a variation in the orbit
of Mercury, the so - called precession
of the perihelion — a phenomenon that Newton's
theory of gravity could not ex
theory of gravity could not
explain.
The universe's acceleration also confirms Albert Einstein's
theory of general relativity, and lately, scientists have revived Einstein's cosmological constant to
explain the strange dark energy that seems to be counteracting gravity and causing the universe to expand at an accelerating pace.
If you're going to change it, if you're going to implement Common Core and replace CAPT with SBAC,
explain it to us, just like you'd
explain Einstein's
theory of general relativity, Shakespeare's iambic pentameter and the four major language families
of Burma.