This would be, by definition, antimatter. It would equal the total energy output of regular matter.
A beta particle is a high energy electron. An alpha particle is a helium nucleus. A gamma ray is a high energy photon.
The charge on an electron is negative (it's -1), and electrons in an atom are found in orbitals (or Fermi energy levels) in the electron cloud far from the nucleus.
The h in the hc stands for plancks constant which is 6.63 x10^-34, which is negative. :)
An electron beam fires electrons at an atomic structure, where the negative charge of the electron becomes electrostatically attracted to the positive charge of the protons in sn atom's nucleus. The electron begins orbiting the atomic nucleus on an energy level with other electrons, the total number of which determines the electrical charge of the resulting ion. Simply put, adding 1 electron to a neutrally charged particle (an atom) will add 1 negative charge to the overall structure. So, by firing electrons at an atom, you will only ever create positive ions.
No. The greater distance from the nucleus the more energy an electron has.
A beta particle is a high energy electron. An alpha particle is a helium nucleus. A gamma ray is a high energy photon.
there is a force of attraction between the positive nucleus and each negative electrons, and this force is counterbalanced by one that is determined by the orbital motion of the electron.
yes it is
They are located in the electron cloud of an atom. ---------- Electrons (very low mass particles with negative electrical charge) are placed around the nucleus of an atom in electron shells, with different energy levels; because the nucleus contain protons the electrical charge is positive. The electron cloud is a model of quantum mechanics.
A fundamental law of electrostatics is that opposite charges attract. Electrons carry a negative charge, and protons carry a positive one. The positive charge on the nucleus "captures" the electron and they take up station in an orbital. The electron has too much energy to give it up and collapse into the nucleus, so it hangs out in the electron cloud with other electrons.
The charge on an electron is negative (it's -1), and electrons in an atom are found in orbitals (or Fermi energy levels) in the electron cloud far from the nucleus.
nuclear energythe energy is mostly electric and can be charged with the loss or gain of an electron to make it negative or positive. All atoms begin electrically neutral.
nuclear energythe energy is mostly electric and can be charged with the loss or gain of an electron to make it negative or positive. All atoms begin electrically neutral.
The electromagnetic force (protons are positive and electrons are negative, so they attract), which is manifested into Coulomb's force of attraction. The reason that electrons will not fall into the nucleus is due to the electron's energy; it is moving fast enough to not collide with the nucleus.
The farther an electron is from the nucleus, the greater its energy.
The h in the hc stands for plancks constant which is 6.63 x10^-34, which is negative. :)
it gains or acquires a charge either positive or negative so when it gains energy, it aquires a negative charge then when it loses energy, it aquires a positive charge