Mass and energy curve space and time according to Einstein's theory of general relativity. Einstein's theory rests on the basis that the speed of light is the same for every observer and that inertial and gravitating masses are the same. Ultimately this is thus also the reason why mass and energy curve the structure of spacetime.
Later it was understood that general relativity is (one of) the consequences of a Universe having so-called local Lorentz invariance. The details are a bit technical but basically this is saying that the laws of physics are the same everywhere in space and time.
You might ask, well, why does the Universe have local Lorentz invariance?
In that case, I am afraid, I do not know the answer, perhaps that in the future physics will offer us a deeper insight to the nature of reality.
Any mass will warp space and time, according to the General Theory of Relativity. In a black hole the mass is simply more concentrated.Any mass will warp space and time, according to the General Theory of Relativity. In a black hole the mass is simply more concentrated.Any mass will warp space and time, according to the General Theory of Relativity. In a black hole the mass is simply more concentrated.Any mass will warp space and time, according to the General Theory of Relativity. In a black hole the mass is simply more concentrated.
To get the potential energy when only the mass and velocity time has been given, simply multiply mass and the velocity time given.
A time travel curve measures the relationship between time dilation and the velocity of an object moving through space. It shows how time is affected by speed, with faster speeds leading to slower passage of time due to relativistic effects.
E=MC2 Energy= Mass x Speed of Light squared The more mass something has the more energy is stored or can be produced from that mass on an atomic level. The more energy something has the the more its mass increases. Also the closer matter gets to the speed of light the more time slows down...in theory
Electrical energy is the ability of an electrical system to do work. It is measured in joules and is equal to the product of power (in watts) and time (in seconds). In mathematical terms, electrical energy equals power multiplied by time.
Space-time curvature arises from energy densities. It is commonly known as gravitational attraction.
Mass and energy cause curvature in space-time according to Einstein's theory of general relativity. Objects with mass and energy distort the geometry of space-time around them, affecting the paths that other objects follow in that region. This is why gravity is observed as a force between masses, as objects are attracted towards regions of curved space-time.
Space and mass are related in the sense that mass affects the curvature of space according to Einstein's theory of general relativity. Massive objects create gravitational fields that curve space-time, while the presence of mass also determines the motion of objects within that space. In essence, mass warps the fabric of space-time, influencing the behavior and interactions of objects within it.
Sure. Anything that is mass-energy does.
his theory of relativity. E=mc2 saying mass is energy energy is mass. and comparing space and time the same way .
Time and space are interconnected according to the theory of relativity. Time can affect space by bending it, creating what we know as gravitational effects. The presence of mass or energy can bend and warp spacetime, influencing the motion of objects within it.
With relativistic considerations, it should [relativistically] decrease. According to special relativity, time dilation (and space contraction) is subject to both: relative velocity and gravitational fields. Now, gravitational mechanisms depend on mass, and by mass energy equivalence, energy as well. In a nutshell, more energy = more mass = more gravitation = more time dilation = more space contraction. HTH
Mass and energy always have locations in both time and space; the amount of space that they take up depends upon their density, but they do take up some. Since energy is often associated with matter (heat, kinetic energy etc.) it would be the matter that takes up the space. The energy would be in the same space as the matter. But energy can also exist independently of matter (such as a photon of light travelling in space) and in that case, the energy takes up space.
You propose: space = d*t*m I believe you meant each of these as dimensional relationships such that d represents 3D space. d is space (i.e. length) t is relativistic time m is a composite of energies with specific functioned properties relative to a Higgs-Boson singularity I think what you are proposing may more closely approximate "relativistic acceleration". Mass moving in some relation to some system of space and time. A moderator of sorts may be controlling systems of relativity; something like the structure of electronic control systems. The components themselves provide the limitations of the speed at which the controller can respond. speed = length/second = space/time energy = mass * length / second = mass * space/time mass = Summation of (energy * space/time) therefore mass has a constant called a Higgs-Boson that moderates the space/time relationships of mass (i.e. singularity) notice the recursive nature of mass, versus the scalar nature of speed the relativistic differences between mass and energy are what we perceive
With relativistic considerations, it should [relativistically] decrease. According to special relativity, time dilation (and space contraction) is subject to both: relative velocity and gravitational fields. Now, gravitational mechanisms depend on mass, and by mass energy equivalence, energy as well. In a nutshell, more energy = more mass = more gravitation = more time dilation = more space contraction. HTH
Bending space-time is a concept in physics that involves the warping of the fabric of the universe. This can be achieved through the presence of mass and energy, as described by Einstein's theory of general relativity. Objects with mass can cause a curvature in space-time, which affects the path that other objects follow. This bending of space-time is what we experience as gravity.
Space and time are related through the concept of spacetime, which is a four-dimensional continuum where the three dimensions of space are combined with the dimension of time. This relationship is described by the theory of relativity, which states that space and time are interconnected and can be affected by the presence of mass and energy.