General relativity explains the force of gravity.
"E=mc^2" is part of Einstein's theory of relativity, specifically the mass-energy equivalence principle. It states that energy (E) is equal to mass (m) times the speed of light (c) squared. The theory of relativity encompasses not only this equation but also the principles of special and general relativity that describe the relationship between space, time, matter, and energy.
E=MC2 Is the formula for the sun that Einstein invented, it explains how the sun works. I know what your thinking. How can that useless little formula explain how a big star can work? Well, this is your lucky day because Einstein was very clever and only god knows what was going in his brain at the time.
There is only one type of gravity, which is the fundamental force that attracts objects with mass towards each other. It is described by the theory of general relativity proposed by Albert Einstein.
1 Special Theory of relativity 2 General Theory of relativity The theories of relativity are too complex to be explained here . 3 Photo electric effect Einstein proved that light has both a particle nature and wave nature.He thus, laid the foundation of Quantum Mechanics. The details of this theory will not fit into this page. 4 Einstein's refrigerator The only product Einstein invented was an absorption refrigerator that used no electricity.He developed it in 1926 with former student, Leo Szilard in 1926. Designed for use in under developed countries, it had no moving parts and operated only with a heat source. It is also the only product patented by Einstein (1930 in US).
Einstein's theory of relativity, specifically general relativity, describes how gravity affects the motion of objects in space and time, showing that gravity is the result of the curvature of spacetime. Darwin's theory of evolution, on the other hand, explains how species change over time through natural selection, genetic variation, and adaptation to the environment. They are both significant theories in their respective fields, but they address different aspects of the natural world.
Albert Einstein worked out the Theory of General Relativity between 1905 and 1919. General Relativity is, as the name suggests, a more generalized extension of Special Relativity, which described the relationship between motion, space, and time, but did not include the effects of gravitation. General Relativity includes Gravitation, but is thought to be incomplete because its rules apply only to the macro universe, and fall apart at the subatomic level.
Special relativity is always applicable, but only really useful when you are considering objects moving close to the speed of light. General relativity should be used when objects are very heavy or dense.
Depends what you mean by "completed." Both special and general relativity are "complete" in that they fully describe that part of the Universe that they INTEND to describe. However, neither describes EVERYTHING. General relativity, for example, is a more complete theory than is special relativity. However, even GR is useful only for gravity, saying nothing about electro-magnetism (EM) in our Universe. Einstein was fully cognizant of this fact, and figured it would take a decade or so AT MOST to add EM to a fuller theory of relativity. Unfortunately, he was wrong -- not only is EM no closer to being combined with GR today than it was in 1915, but we now know that there are other forces we need to integrate into a more general theory! And even WORSE, we now know about quantum mechanics, which is mathematically IMPOSSIBLE to combine with GR. The final "completion" of relativity -- an combination of all forces with GR and QM -- still awaits us. If any person is able to devise a "Theory of Everything," s/he would go down in history in the same vein as Einstein or Newton.
Basically true - except for a tiny change in mass, due to the General Theory of Relativity. However, this change in mass only applies from the point of view of somebody who stays on Earth, for example.Basically true - except for a tiny change in mass, due to the General Theory of Relativity. However, this change in mass only applies from the point of view of somebody who stays on Earth, for example.Basically true - except for a tiny change in mass, due to the General Theory of Relativity. However, this change in mass only applies from the point of view of somebody who stays on Earth, for example.Basically true - except for a tiny change in mass, due to the General Theory of Relativity. However, this change in mass only applies from the point of view of somebody who stays on Earth, for example.
Incomplete and only a special case of a more fundamental theory. General relativity provided a more accurate description of gravity and was able to explain phenomena that Newton's theory could not, such as the bending of light around massive objects.
Yes, basically. Although according to the General Theory of Relativity, it will also distort space and time. The effects are not easily noticed at the relatively modest gravity of Earth.Yes, basically. Although according to the General Theory of Relativity, it will also distort space and time. The effects are not easily noticed at the relatively modest gravity of Earth.Yes, basically. Although according to the General Theory of Relativity, it will also distort space and time. The effects are not easily noticed at the relatively modest gravity of Earth.Yes, basically. Although according to the General Theory of Relativity, it will also distort space and time. The effects are not easily noticed at the relatively modest gravity of Earth.
"E=mc^2" is part of Einstein's theory of relativity, specifically the mass-energy equivalence principle. It states that energy (E) is equal to mass (m) times the speed of light (c) squared. The theory of relativity encompasses not only this equation but also the principles of special and general relativity that describe the relationship between space, time, matter, and energy.
E=MC2 Is the formula for the sun that Einstein invented, it explains how the sun works. I know what your thinking. How can that useless little formula explain how a big star can work? Well, this is your lucky day because Einstein was very clever and only god knows what was going in his brain at the time.
We are able to see stars spinning around in space. We think what is causing this is a black hole.Answer:We don't know that black holes exist at all. They are a theoretical construct derived from relativity theory. Some scientists worked out that it would be impossible for a black hole to ever form in the first place. Many of the observed phenomena that are attributed to black holes using a gravity-only model can be explained by also taking account of electromagnetic forces. These are the forces that result from the separation of electric charge in plasma.
The discovery for which he received the Nobel prize - namely, his explanation of the photoelectric effect - was an important milestone in quantum mechanics. The theories for which he was most famous - the special theory of relativity, and the general theory of relativity - have not only found to basically be a correct description of nature, but they have revolutionized physics.
There is only one type of gravity, which is the fundamental force that attracts objects with mass towards each other. It is described by the theory of general relativity proposed by Albert Einstein.
George Meade