e=mc2
Albert Einstein's biggest discovery was the theory of relativity, which revolutionized our understanding of space, time, and gravity. This theory is comprised of two parts: special relativity and general relativity. It has had a profound impact on physics and cosmology.
Albert Einstein's theory of relativity consists of two parts: special relativity and general relativity. Special relativity describes the relationship between space and time, while general relativity explains how gravity is a result of the bending of spacetime by matter and energy. These theories revolutionized our understanding of the universe and have been confirmed through numerous experimental observations.
Einstein's inspiration for developing the theory of relativity came from trying to reconcile inconsistencies between Newtonian physics and the behavior of light. His curiosity about the nature of time and space, combined with his dissatisfaction with existing theories, led him to develop the groundbreaking ideas of special and general relativity.
The theory of relativity is actually a conglomerate of two theories which Einstein theorized at different times. Special relativity was published in 1905 and changed the scientific world until some of the ideas could not hold up to scrutiny. It was then that Einstein published the theory of general relativity in 1916.
For the Special Theory of Relativity, the basic postulates are:The relativity principle, i.e., laws of nature are the same for observers in different reference frames.The speed of light is the same for different observers.
relativity
he dicovered the theoryof relativity
He made Einsteins theory of relativity "Beautifull". He proved Einsteins original and not his revised theory of relativity was indeed correct. But most of all, he is an amaising person! He made Einsteins theory of relativity "Beautifull". He proved Einsteins original and not his revised theory of relativity was indeed correct. But most of all, he is an amaising person!
relativity intensity : kelvin = oxygen2
according to Einsteins special relativity
the theory of relativity & quantum mechanics.
Without Zero it would be impossible to measure anything.
I think the question must be the other way round!
No. Energy, mass and light-speed, none of which involve pi.
yes
no. it just contradicts it. they are both considered true
The space-time theorem of general relativity states that the curvature of space-time is determined by the distribution of matter and energy within it. It establishes a direct relationship between the geometry of space-time and the distribution of mass and energy. This theorem forms the foundation of Einstein's theory of general relativity and helps explain the effects of gravity on the fabric of space-time.