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A negatively charged atom is a electron.

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What is the energy level of an atom occupied by?

The energy level of an atom is occupied by electrons, which are negatively charged particles that orbit around the nucleus. The energy of these electrons depends on their distance from the nucleus and the specific quantum energy levels they occupy.


Principal energy level 1 of an atom contains an electron with the lowest energy why?

The principal energy level 1 is the closest energy level to the nucleus, resulting in the electron being held most tightly by the nucleus, thus having the lowest energy. This electron is in the lowest energy state possible due to the electrostatic attraction between the negatively charged electron and the positively charged nucleus.


What Another name for electron?

I don't know the answer to that, SORRY!


How is the energy of a electron related to the energy level it is in?

The electrons and energy level are inversely related. Electrons are positively charged while the energy level is negatively charged which will result into a direct effect in the energy level when electrons move. .


The negatively charged particles in an atom?

In most conventional atoms there are three particles, which individually break down into quantum particles. Unbroken-down, those three are the negatively charged electron, the positively changed Proton, and the uncharged Neutron. However, there is another type of matter which has characteristics almost nearly opposite. Its name is Antimatter, and its fundamental components are the positively charged Positron, the negatively charged Antiproton (sometimes written Anti-Proton) and the uncharged Antineutron (sometimes written Anti-Neutron). Neutrons and Antineutrons are almost indistinguishable, except at the quantum level (they have opposite quarks -- 1 up and two downs versus 1 down and two ups), but they still annihilate each other on contact, the same way that electrons and positrons annihilate each other, and the way that Protons and Antiprotons do.


What happens to a van de graaff generator on a sub-atomic level?

Positively charged and negatively charged electrons are exchanged.


Where are electrons located in the structure of an atom?

Electrons move in a random manner around the nucleus. hence do not follow a fixed path. Yet electrons do have a fixed energy level due to which the probable path traced by them is predictable. Over all, electrons are found in the form of clouds.


How can acquiring charge be described at a microscopic level?

At the microscopic level, acquiring charge involves the transfer of electrons between atoms or molecules. This transfer can result in an object becoming positively charged (by losing electrons) or negatively charged (by gaining electrons). Charged particles, such as protons and electrons, interact through electromagnetic forces, leading to the creation of electric fields.


What process changes atom into irons?

Ions are electrically charged particles formed when atoms lose or gain electrons. This loss or gain leaves a complete highest energy level, so the electronic structure of an ion is the same as that of a noble gas - such as a helium, neon or argon.Metal atoms and non-metal atoms go in opposite directions when they ionise:Metal atoms lose the electron, or electrons, in their highest energy level and become positively charged ions.Non-metal atoms gain an electron, or electrons, from another atom to become negatively charged ions.


How photons are produced?

Photons are particles of light that are produced when an electron moves from a higher energy level to a lower one in an atom, releasing energy in the form of a photon. They can also be produced through other processes such as nuclear reactions or when charged particles are accelerated.


What happened when an atoms gains an electron?

It becomes a negative ion.


What statement accurately represents the arrangement of electrons in bohr's?

In Bohr's model, electrons orbit the nucleus in specific energy levels or shells. Electrons can only exist in these quantized energy levels, and they move between them by absorbing or emitting energy. The energy of an electron is lower when it is closer to the nucleus and higher when it is farther away.