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It describes energy and particles at the atomic level.
One type of energy level would be in the Bohr model of the atom, suggesting that electrons are held in discrete energy levels around the nucleus. Any of these electrons may be excited to a higher energy level if sufficient energy is applied to the atom. In some materials, the excited electrons spontaneously return to their original energy level by releasing the extra energy as light photons. This is how fluorescent lights work.
its a trophic level
The average translational kinetic energy of particles in a plasma is 3kT/2, i.e. the equation for kinetic energy of plasma particles is the same as any other form of matter. In this respect, a plasma is not significantly different from a gas. The average kinetic energy is directly proportional to the temperature. In a real sense, kinetic energy at the molecular level and temperature at the macro level are the same thing; quantities like the universal gas constant (R) and Boltzman's constant (k) can be viewed as simply unit conversion factors between degrees and joules.
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Sound is, at its basic level, the motion of moving particles. In the quantum mechanical picture, energy of vibration of atoms or molecules is described as phonons. Phonons are a quanta (packet) of energy that can be treated as a particle (matter). At the full level, it is mechanical or material waves that is an oscillation of pressure. In others words, yes and no.
Ones with the most energy
Adding heat energy will usually increase the temperature. At the level of the individual particles, the particles will vibrate faster.
yes: all matter is in motion and therefore maintains a level of kinetic energy.
Phantom particles are particles that come in and out of existence on the quantum level. Space "bubbles" with these particles, but because they are matter/anti-matter pairs and self annihilate quickly they do not count as matter or energy being created. It does have ramifications for the origin of the matter in our universe since the big bang event involved 1,000,000 particles of anti-matter forming for every 100,000,001 particles of matter in a manner that is very similar to how phantom particles form. Still, there are more questions than answers. The creation myth of the Judaic faiths has talking animals in it, thus it refutes itself. It was never any kind of answer at all.
electrons
The particles' movements slow down. Particles (or atoms) contain energy; the more energy the particles have, the more the particles move. However, there is a certain level of energy at which the bonds between the particles break; this energy is called bond energy. For example, take a boiling pot of water. At the atomic level view, heat is equal to energy; the heat is transferred from the flame to the H2O molecules, giving them more energy and making them move faster. The the H2O molecules break apart, turning to hydrogen and oxygen gas. In an ice cube, the heat/energy is taken from the H2O molecules, slowing them down and creating a packed solid.
The same particles of matter that make up a solid are also the same particles of matter that make up a gas or a liquid. Basically matter consists of atoms. At the simplest level, the particles of atoms are electrons, protons and neutrons.
It describes energy and particles at the atomic level.
Increasing temperature means increased kinetic energy on the atomic or molecular level. Temperature of a given substance is the average kinetic energy of the particles of which that substance is composed.
One type of energy level would be in the Bohr model of the atom, suggesting that electrons are held in discrete energy levels around the nucleus. Any of these electrons may be excited to a higher energy level if sufficient energy is applied to the atom. In some materials, the excited electrons spontaneously return to their original energy level by releasing the extra energy as light photons. This is how fluorescent lights work.
Transition means switching from one energy level to another; the lost energy turns into photons.