Yes it does
Because they are all have the same amount of outer electron or covalent electron or charge.
Assuming you are referring to only two hydrogen atoms, such as in a sample of hydrogen gas, there is a covalent bond between the hydrogen atoms, as well as a small amount of dispersion forces.
They're somewhat of a covalent bond that occurs only between metals. Each atom of that metals essentialy sheds its electrons off and contributes them to one giant 'sea of electrons' that all the other positive metal cations float in to ensure an equal amount of electron sharing throughout the metal.
N=2 To N=1 The greatest energy change comes between the lower energy levels.
The amount of energy needed to move an electron from one energy level to another is called a quantum.
This is an electron situated on the outermost level.
Because they are all have the same amount of outer electron or covalent electron or charge.
Assuming you are referring to only two hydrogen atoms, such as in a sample of hydrogen gas, there is a covalent bond between the hydrogen atoms, as well as a small amount of dispersion forces.
They're somewhat of a covalent bond that occurs only between metals. Each atom of that metals essentialy sheds its electrons off and contributes them to one giant 'sea of electrons' that all the other positive metal cations float in to ensure an equal amount of electron sharing throughout the metal.
2n2 where n is the electron level
ok, so electron affinity is the amount of energy given off when a particular atom excepts electrons. Essentially, it is the likelihood that an atom will accept an electron, while ionization energy is how much energy is needed to take an electron off of a particular atom
first off neutrons do not have a negative charge, they have a neutral charge what you are talking about is an electron which has a negative charge.and yes if there are the same amounts of protons or electrons then they balance each other out but still hold together because of covalent bonds
Voltaire
N=2 To N=1 The greatest energy change comes between the lower energy levels.
Ionization energy is the energy needed to remove an electron from an element, whereas electron affinity is the amount of attraction a substance has for a electron. One is the amount of energy to remove an electron while the other is the likeliness for it to attract an electron.
No. The electron and proton have the same amount of charge. Its just that the electron's charge is negative and the proton's charge is positive.
The bohr diagram does