Simplest method - apply a voltage to a conductor.
electrons are taken off the outer band (valence level) and put on to the atom with the greatest amount of electrons until there are 2 full atoms.
hope it helped, from a grade 9 nerd
The valence electrons can be removed by supplying energy.
You dont remove an electron from an atom. Its kept there by the bonds of the atom. However, you can split an atom from an atom.
Ionization energy is more commonly used to remove the topmost electron in the atom very important information if you are getting ready for a test.
This is an electron situated on the outermost level.
How much energy is required to move the electron of the hydrogen atom from the 1s to the 2s orbital
The energy required to remove an electron from an atom
You dont remove an electron from an atom. Its kept there by the bonds of the atom. However, you can split an atom from an atom.
The energy needed to remove an electron from an atom (in the gaseous state) is called the IONIZATION ENERGY.
Ionization Energy or electron energy
remove either a proton or electron OR add a proton or electron...
There is an attraction of the nucleus for electrons. This attractive force must be overcome to remove an electron. The energy to overcome this attraction and remove an electron from the atom is 'ionization energy'.
The electron
Ionization energy is more commonly used to remove the topmost electron in the atom very important information if you are getting ready for a test.
This is an electron situated on the outermost level.
Electron affinity is the amount of energy required to remove an electron from an atom. Or an energy released by adding an electron to a gaseous atom ( ie, negative quantity). In this case, if an element has a negative Electron Affinity, its indicating that this element is stable than the neutral ones.
How much energy is required to move the electron of the hydrogen atom from the 1s to the 2s orbital
Yes.
Energy to remove a 3rd electron from an atom.