It just the matter of objects that make it unigue.Like the planet Saturn, it has a
ring full of rock, metal, energy, and Mercury inside it to make a ring because of
gravity. Dark matter in space is just a energy force like electricity on earth sort
of. The atoms in electrons are very very small that todays microscopes can sort of
see. electrons and photons are very similar. If you look at the first silible of each
word "elec" and "pho". ELECtricity and PHOtos. The photo of the electricity
basicly. Have you ever been shined by a flahlight to the side of you in the dark and
you saw little dots, well that's photons with electrons in side of it.
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This page is not an acceptable place to debate asnwers or take issue with their authors.
So I just want to let you know that the above has been submitted for a Peabody Award
in the Fiction category, and caution the gentle reader not to take any of it too literally.
The anti-matter equivalent of an electron is a positron. Positrons have the same mass as electrons but have a positive charge. When a positron and an electron collide, they annihilate each other, releasing energy in the form of gamma rays.
They aren't 3 they are in fact 12 if you count anti matter as a separate particle from matter. Electron, muon, tau, electron neutrino, muon neutrino and tau neutrino. The same apply to anti matter positron, anti muon, anti tau, postrin neutrino, anti muon neutrino, and anti tau neutrino.
The frequency of the matter wave associated with a 10 electron volt free electron is approximately 2.42 x 10^20 Hz. The wavelength is approximately 1.24 x 10^-10 meters. These values are calculated using the de Broglie wavelength equation: wavelength = h / p, where h is Planck's constant and p is the momentum of the electron.
An electron is a small particle of matter where energy can be stored. It carries a negative charge and plays a fundamental role in electricity and magnetism.
Example sentences for electron Clearly, both men were eager to resume doing what they do best, which is game plan down to the last electron. In order to understand what a particular electron is up to, one takes a sum of all of its possible histories. The electron source needs to be a metal, and the usual choice is aluminium. By 1911, scientists had already measured the charge and mass of an electron. The electron is one of the basic constituents of matter. The first step in atomic research was to recognize the existence of the outer electron shell and to study its laws. Scientists measure that electron accumulation by exposing the grains to light in a lab, releasing the particles. These ions then organize electron flows throughout the cell, bringing power to wherever it is needed. Hydrogen, the simplest atom, consists of a single proton encircled by a single electron. The transit of physical products does not match the ease of electron packets. We are navel gazing but with better electron microscopes. The more precisely you know an electron's position, the less precisely you know its momentum. When a positron encounters its regular opposite, an electron, both are destroyed in a shower of new particles. Sound impelled an electron in an energy well to a second energy well and back. The voltage across a discharge tube will accelerate a free electron up to some maximum kinetic energy. Enjoy!
i dont know people
An electron is a subatomic particle.
In the Standard Model, the quarks are not the smallest unit of matter. The leptons are, specifically the electron neutrino, Ve, with a mass of less than 2.2 eV.
Electron Magnetic Waves will propagate in the absence of matter
Electrons are sub atomic particles and they are matter as they have mass and electric charge.
By electron having low speed, it means when electron travels through a good vacuum with no block of matter nearby thus having less distraction, eg-electron passing through an old fashioned television. But by electron having high speed, it means when electron travels on a rough vacuum and with blocks of matter . So that when they are been extracted from matter, more force are added their by being very fast. Eg-electron comming out of an electron gun. innocent somtoo madonna
Nutron, Electron or Proton
You don't. Calcium is not an electron, calcium is a element
The electron is the sub-atomic particle that orbits the nucleus of an atom of matter. For anti-matter the sub-atomic particle that orbits the nucleus is the anti-electron (positron).
An electron is very small. So small that you cant even see it with an electron microscope (because it uses electron to detect itself). It's mass is tiny. Billions of times less than a kg. It's just one type of matter. Some estimates put the number of electrons in the universes at greater than 10100. So no, the universe is not an electron.
There aren't any. Even the smallest particle of the dark matter theory, the axion, is quadrillions of times more dense than an electron.
An electron is the carrier of the negative electrostatic force, and it has a charge of -1. Also, the electron, along with the proton and neutron, are the "basic building blocks" of atoms, and they make up the matter all around us. The positron, on the other hand, is an anti-electron - it's antimatter! And it is the antiparticle of the electron. It has a charge of +1, which is just the opposite of the electron's. The fact that the electron and positron are matter and anti-matter, and that they have a charge of -1 and +1 respectively are the major differences. A positron is an electron's anti-particle, and when the electron and positron come in contact with each other to combine, they annihilate each other in a process called electron-positron annihilation. There is a link below to that related question and to a couple of others.