Sunday, May 16, 2010

Spacecraft To Test Einstein’s Theory Of Relativity

Does E really equal mc squared?
In what is billed to be the largest scientific instrument ever built, scientists plan to use three spacecraft flying three million miles apart to fire laser beams at each other across the emptiness of space in a bid to finally prove whether a theory proposed by Albert Einstein is correct.
Physicists hope the ambitious mission will allow them to prove the existence of gravitational waves — a phenomenon predicted in Einstein’s famous theory of general relativity and the last piece of his theory still to be proved correct, reports the Telegraph…
The three spacecraft will be put into orbits at a distance of 5 million kilometres from one another, connected only by a laser beam that will measure their positions accurate to 40 millionths of a millionth of a metre.
The mission, a collaboration between Nasa and the European Space Agency, will use three spacecraft flying in formation while orbiting the sun, with each housing floating cubes of gold platinum.
Laser beams fired between the spacecraft will then be used to measure minute changes in the distance between each of the cubes, caused by the weak waves of gravity that ripple out from catastrophic events in deep space.
Einstein’s theory of general relativity predicted that when large objects such as black holes collide, ripples in space and time flow outwards. These ripples are called gravitational waves. A panel of international experts have now set out a detailed plan for the mission and how it can be used to reveal new insights about the universe around us.
Professor Jim Hough, an expert on gravitational waves at Glasgow University and a member of the committee that drew up the plans, said: “Gravitational waves are the last piece of Einstein’s theory of general relativity that has still to be proved correct.”
“They are produced when massive objects like black holes or collapsed stars accelerate through space, perhaps because they being pulled towards another object with greater gravitational pull like a massive black hole. Unfortunately we haven’t been able to detect them yet because they are very weak. However, the new tests we are working on have great potential to allow detection,” the Telegraph quoted Hough as saying.
Ground based attempts to detect gravitational waves on Earth have so far been unsuccessful and can only look for gravitational waves with relatively high frequencies.
Scientists have already been able to prove a number of predictions made by Einstein’s theory of general relativity, including that light is bent by gravity, gravity travels at a constant speed, that time can be warped by gravity and that space and time can bend. Einstein’s other theories including his most famous formula E=mc2 have also withstood scientific testing.

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