The net charge of an atom is always zero, because if an atom gains or loses electrons, causing it to acquire a net charge, we then call it an ion, rather than an atom.
nucleus has a positive charge. net charge of an atom (not an ion!) is 0.
Electrons are equal to atomic number to have no net charge on an atom
All atoms of any element are electrically neutral as they will have the same number of positively charged protons and negatively charged electrons in order to maintain electrical neutrality.
The protons and neutrons are always the same.answer 2 (The above is true much of the time, but doesn't help.) continue.The charged components of an atom are the protons, and the electrons. These will normally be balanced.In addition there may be neutrons, but these are of neutral charge, so do not contribute to the charge.If you tear off completely an electron or a proton, the atom will now be ionized.An unnatural state.
Zero
Neutral atoms always have a net charge of 0(zero).
A sodium atom has a net charge of zero. A sodium ion has a net charge of 1+.
There is no net electrical charge on an "unreacted" atom.
Zero. The net charge of a compound is always zero.
nucleus has a positive charge. net charge of an atom (not an ion!) is 0.
zero .. such an atom is neutral. No net charge
That gives you the net charge of the atom. If there is the same amount of protons and electrons, the net charge is zero, and the atom is said to be neutral.
A proton and an electron possess equal amount of charge (about 1.6e-19 C), except that a proton carries a positive charge and an electron, negative. Hence, the net charge is nil -- the atom is electrically neutral.
because the charge of two protons and two neutrons and two electrons it = 0yes all atoms have a net charge of zerothere is an equal amount of electrons and proton, which have an equal but opposite charge.
Simple, it is a neutral atom, having an equal number of protons and electrons.
Electrons are equal to atomic number to have no net charge on an atom
Equal no. of +ive protons and -ive electrons .