Examples of 'mass-energy' in a sentence
Meaning of "mass-energy"
Mass-energy - In physics, this term refers to the concept that mass and energy are interchangeable and are different forms of the same fundamental property, as described by Einstein's theory of relativity
Show more definitions
- Mass and energy as a unified concept.
- The energy associated with any given mass according to special relativity, E = mc².
- mass-to-energy
How to use "mass-energy" in a sentence
Basic
Advanced
mass-energy
Mass-energy equivalence is a consequence of special relativity.
Sensors indicate it to be a mass-energy field.
Set up the mass-energy equivalence equation.
The new conservation principle is the conservation of mass-energy.
Mass-energy conversion is not without its risks.
The total amount of mass-energy remains the same.
The mass-energy equivalence is described by the famous equation.
Energy also has mass according to the principle of mass-energy equivalence.
When traffic exceeds a certain mass-energy threshold, a ship will disappear in transit.
This was in line with familiar twentieth-century concepts of mass-energy transformation.
However, it dominates the mass-energy of the universe because it is uniform across space.
Which precedes or perhaps triggers these events, suggests that there is a mass-energy threshold.
Their mass-energy and kinetic energy have been transformed into a shower of all kinds of particles.
The mass of a charged particle should include the mass-energy in its electrostatic field electromagnetic mass.
Mass-energy equivalence states that any object has a certain energy, even when it is not moving.
See also
Most of the mass of hadrons is actually QCD binding energy, through mass-energy equivalence.
The Mass-energy equivalence is a result of special relativity.
Muons and Taus are the same particles as electrons but have more mass-energy.
Mass-energy equivalence arose originally from special relativity as a paradox described by Henri Poincaré.
E mc2 is the equation of mass-energy equivalence.
The mass-energy equivalence is used here.
However their total mass-energy remains.
The mass-energy transformation or equivalence,.
The equation of the equivalence mass-energy is,.
In special relativity, mass-energy is closely connected to momentum.
Law of conservation of mass-energy.
The mass-energy in the field is, formula 1which becomes infinite as.
It is, therefore, more proper to say the mass-energy is preserved.
In consequence, if mass-energy is a source of gravity, momentum must also be a source.
Conservation of mass-energy.
Remains the mass-energy equivalence, and again this is obvious.
The dark energy comprises about 70 per cent of the mass-energy content of the universe.
That is, mass-energy can never be observed to be flowing faster than light.
Massive particles have additional, kinetic, mass-energy when they are moving, due to relativistic effects.
For 10 years Einstein searched for an equation to express this relationship between mass-energy and space-time.
Einstein 's whole mass-energy conversion thing, that 's what makes nuclear bombs go boom.
Nuclear energy comes from Einstein 's mass-energy conversion equation.
About 68 % of the mass-energy budget is made of something that accelerates the expansion rate.
This lost mass is converted to electromagnetic energy, according to the mass-energy equivalence relationship E mc2.
Conservation of mass-energy - the total mass-energy of the system must remain unchanged in nuclear reaction.
Mev = million electron volts of mass-energy.
Estimated total mass-energy ( in Joules ) of the observable universe.
These are direct examples of formula 18 mass-energy equivalence.
Using Einstein 's mass-energy equivalence formula E mc ², the amount of energy released can be determined.
Computer, what is beyond the mass-energy field?
Mass-energy equivalence Four-momentum Mass in special relativity.
Thus, it 's more appropriate to say mass-energy is conserved.
Synonym, mass-energy equivalence principle.
Dark Matter seems to constitute about 25 % of the mass-energy in the universe.
Mass-energy equivalence is formalized in the equation E=mc2.
