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No, energy an matter are different phenomenons.
Energy is the ability of a system to do work (ie to move matter).
Matter has mass, and is related to energy by E = mcc.
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What does all matter have whether it is moving or still?
All matter has energy, regardless of whether it is moving or at rest. This energy can be in the form of potential energy due to its position or kinetic energy due to its motion. Ultimately, all matter is made up of atoms and particles that contain energy.
Does matter contain thermal energy?
Yes, matter contains thermal energy because it is made up of particles that are in constant motion. This motion of particles results in the temperature of the matter, which is a measure of its thermal energy.
Is it possible to turn energy into matter?
Yes, it is possible to turn energy into matter through processes like pair production, where high-energy photons create particle-antiparticle pairs. This conversion is governed by Einstein's famous equation, E=mc^2, which describes the equivalence of energy and matter.
Is water a example of energy?
Water itself is not energy, but it can contain and transfer energy. For example, water can hold thermal energy in the form of heat, kinetic energy in the form of waves or currents, and potential energy in the form of water stored in a reservoir.
All things contain some nuclear energy?
Not all things contain nuclear energy. Nuclear energy is only found in atoms with unstable nuclei that can undergo nuclear reactions. Most common materials, such as wood, water, and air, do not contain significant amounts of nuclear energy.
What forms of matter contain a lot of potential energy?
Any forms of matter contain a lot of potential energy.
Do quarks contain infinite energy?
This can be answered by observation and physics:Quarks are matter and matter does not contain all energy as there is free energy available in the universe as heat, radiation and gravity etc.The theory of relativity relates the amount of energy in any given amount of matter by the equation E=mC2. As a consequence, as the mass of all quarks or any quark is finite, it cannot contain infinite energy.
Matter does not contain?
Matter is the basis for everything. Anything that exists has matter. Dark matter are anomalies that cannot account for "missing matter". Matter does not contain the solar energy and radio signals that travel through "empty space".
What are the 3 states of matter and contain energy?
solid , liquid , gas
What are 2 things not made up of matter?
Energy (such as light) and space (which may contain matter, but is not made out of it).
Does energy contain atoms?
Energy itself does not contain atoms. Energy is a property or a characteristic of objects and particles that can be transferred between them. Atoms, on the other hand, are the basic building blocks of matter and contain protons, neutrons, and electrons.
What dose matter contain?
atoms Answer #2: Matter is composed of energy, hence Einstein's equation: e = mc2 where m stands for the mass of the matter and e is the energy it contains.
Does nuclear energy contain water?
no. most reactors use water as coolant and/or moderator, but nuclear energy is energy and contains no matter.
What does all matter have whether it is moving or still?
All matter has energy, regardless of whether it is moving or at rest. This energy can be in the form of potential energy due to its position or kinetic energy due to its motion. Ultimately, all matter is made up of atoms and particles that contain energy.
Does matter contain thermal energy?
Yes, matter contains thermal energy because it is made up of particles that are in constant motion. This motion of particles results in the temperature of the matter, which is a measure of its thermal energy.
Does Calcium Chloride contain energy?
it depends on the "energy" you mean, but since all matter contains energy of some form (such as the kinetic energy of its moving particles), then yes, it has energy.
Is it possible to turn energy into matter?
Yes, it is possible to turn energy into matter through processes like pair production, where high-energy photons create particle-antiparticle pairs. This conversion is governed by Einstein's famous equation, E=mc^2, which describes the equivalence of energy and matter.
