wood
easily accept electron flow.
Electron beam lithography uses a focused beam of electrons to draw images on electron sensitive film. The beam changes the solubility of the film allowing the desired part to be removed by putting it in a solvent.
Atoms do not always lose electrons. Electrons can be gained too. Atoms always try to have their outer most shell filled, and some atoms such as ones of potassium can easily lose an electron rather than gain an electron. So it would lose an electron to a different atom so that it would have a full outer shell and the other atom would also have a full outer shell.
The ionisation energy depends on the orbital from which the electron is removed and also the distance of the orbital from the nucleus. In the case of Helium, the electron is removed from 1s orbital whereas in the case of argon it is from 3p orbital. As 1s is closer to the nucleus, the force of attraction experience by these electrons is higher and hence helium will have higher 1st ionisation energy.
Electron.
the valence electron of lithium that is easily removed is the 1s2 electron
because they have one valence electron that is easily removed to form a positive ion.
First ionization increases because in an atom when we remove first electron of the atom it can be removed easily while as we move to second electron it can't be remove easily because second electron is more near to nucleus and it faces more force of attraction than first one.
I think you meant to say something along the lines of "which particle can be easily removed from an atom?" And the answer to that is the electron. You could go to wikipedia or something for more information about it.
an electron loosely bound to its nucleus is called a free electron.
An Electron
an electron
wood
Yes, that is part of the definition of electron affinity.
Lone pair of electron on the halogen atom overlaps with the adjacent pi bond electrons and get delocalised.Therefore halogen atom can't be removed easily. -V.Nandhakumar
The 3s.