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I am not sure I understand your question clearly. However, to the best of by comprehension, in Special Relativity. Mass is equal to energy divide by the speed of light square (m=E/(c^2)). BY definition, Special Relativity has not changed the view of what mass is. It just predicts the transformation of mass. Energy can be changed into mass and vice versa.
What else can I help you with?
What is Einstein'stheory of relativity?
Einstein's theory of relativity states that mass and energy are inter convertible. The theory can be numerically verified by the mass energy equation i.e. E=mc2 (where E is energy, m is mass and c is the velocity of light).
Albert Einstein theory of relativity?
E=mc2 is the formula but the theories were called:the general theory of relativity about mass traveling at or faster than the speed of light while accelerating positively or negativelythe special theory of relativity about mass traveling at the speed of light while holding a steady speedThe formula means:"Energy E equals mass m times the speed of light c squared"
What is the relativistic mass formula and how does it relate to the concept of mass in special relativity?
The relativistic mass formula is given by (m fracm0sqrt1 - fracv2c2), where (m) is the relativistic mass, (m0) is the rest mass, (v) is the velocity of the object, and (c) is the speed of light. This formula shows that as an object moves faster, its relativistic mass increases due to the effects of special relativity. This concept challenges the traditional idea of mass as a constant property of an object and demonstrates that mass is relative to an observer's frame of reference in special relativity.
What is Einstein's theory of relativity and what does each letter stand for?
e is energy c is the speed of light and m is the mass of the object or lightwave. C is constant while m is computable through basic calculations or through advanced upper level electromagnetism.
What is the significance of the mass of light in the theory of relativity?
In the theory of relativity, the mass of light is significant because it shows that light has energy and momentum, even though it has no rest mass. This challenges traditional ideas about mass and energy, leading to a deeper understanding of the relationship between matter and energy in the universe.
What is the relationship of Einstein's theory of relativity and energy mass equivalent?
Einstein's theory of relativity, specifically the famous equation E=mc^2, shows the equivalence between energy and mass. It means that energy can be converted into mass and vice versa. This relationship has important implications in nuclear reactions and understanding the behavior of particles at high speeds.
Is e equals mc2 the theory of relativity?
"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.
Why energy is relative?
To what? If you are referring to relation of MASS and energy (special relativity, initially proposed by Einstein), energy is relative to mass because the more mass an (arbitrary) object the more energy it contains. That is the very simplest explanation of it. Although the theory of relativity encompasses a lot more, complex ideas, such as time dilution. Google it (the theory of special relativity) to find out more.
What year did Einstein discover the theory of relativity and the mass energy equivalence?
in 1905
What is Albert Einstein's famous theory relates with mass and energy?
special relativity
What are the key differences between special relativity and general relativity?
Special relativity deals with the behavior of objects in uniform motion, while general relativity includes the effects of gravity on objects in motion. Special relativity is based on the principle of the constancy of the speed of light, while general relativity incorporates the concept of curved spacetime due to the presence of mass and energy.
Does mass increase with speed?
Yes, according to Einstein's theory of relativity, as an object approaches the speed of light, its mass increases.
