it will become a negative ion due to the negative charge of electron
When an electron is added to a unipositive ion, the resulting atom gains a negative charge and becomes a neutral atom. The electron neutralizes the positive charge of the ion, balancing the overall charge of the atom.
When an atom loses an electron, it becomes a positively charged ion.
A positive ion can become a neutral atom by gaining electrons. When a positive ion gains one or more electrons, it becomes neutral because the negative charge of the electron(s) cancels out the positive charge of the ion.
Ionization energy is an expression linked to extraction of an electron.
When an electron is gained, the atom becomes a negatively charged ion called an anion. When an electron is lost, the atom becomes a positively charged ion called a cation.
It becomes an anion.
the atom becomes negatively charged
When an electron is added to a unipositive ion, the resulting atom gains a negative charge and becomes a neutral atom. The electron neutralizes the positive charge of the ion, balancing the overall charge of the atom.
It will become negative by electron addition, because electrons are negatively charged, -1. It is then called an ion.
With the loss of electron a neutral atom becomes positive ion and loss of electron is known as oxidation.
When an atom loses an electron, it becomes a positively charged ion.
A neutral atom, it only becomes an ion after it loses or gains an electron.
A neutral atom becomes a positive atom by losing an electron.
A positive ion can become a neutral atom by gaining electrons. When a positive ion gains one or more electrons, it becomes neutral because the negative charge of the electron(s) cancels out the positive charge of the ion.
The loss of an electron would cause an overall electrically neutral atom to become a positively charged ion.
Ionization energy is an expression linked to extraction of an electron.
When a neutral atom loses an electron, it becomes a positive ion. The loss of an electron reduces the electron-electron repulsion, causing the remaining electrons to be more strongly attracted to the nucleus. This contraction in electron cloud typically results in a smaller ionic size compared to the neutral atom.