Lys is basic and has a + charge, glu is acidic and - charged = net charge 0
No an electron does not have a net charge of 0, in fact it has a net charge of -1.
A net charge results when an atom gains or loses electrons. If it loses electrons, it gains a positive charge, if it gains them, it gains a net negative charge.
By losing electrons.
Over all Charge
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.
pK1 = 2.3, pKr = 6, pK2 = 9.7 (all approximate) at physiological pH, histidine has no net charge. at pH 1, below all pKas and charge is +2 at pH 3, amine group proton pops off, so +1 charge at pH 5, still below 6 and above 2.3 so +1 charge if had pH above 6, for instance... at pH of 8 net charge is zero, or neutral... such that it is neutral at physiological pH (a bit above a pH of 7) at pH 11, exceeds all pKas of amine, acid group, and R group. So net charge of -1 amine deprotonation, carboxylic acid deprotonation, and R group deprotonation happen pH 11 because it exceeds all pKs
The net charge is the total amount of charge that the ion will have. So you will find out the charge of each group and add them all together for the net charge.
A sodium atom has a net charge of zero. A sodium ion has a net charge of 1+.
No an electron does not have a net charge of 0, in fact it has a net charge of -1.
The MAJORITY of matter has a net charge of ZERO.
A crystal of salt consists of electrons and positive ions. How does the net charge of the electrons compare with the net charge of the ions
There is no net electrical charge on an "unreacted" atom.
No, h2 does not have a net charge. It is a neutral molecule.
there is no net charge on the capacitor because nomber of positive and negative charge and negetive are equal.
no charge / neutral
The net charge of an ionic compound is equivalent to zero.
because it flows on the direction where the net charge flows. :D