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.
The net charge is the sum of all individual charges. If one charge is slightly positive and the other charge is slightly negative, the overall charge will be neutral.
The net charge of DNA is negative.
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
A sodium atom has a net charge of zero. A sodium ion has a net charge of 1+.
To find the charge to mass ratio (specific charge) of an atom, you have to find both the charge of the nucleus and the mass of the nucleus charge of nucleus = proton number x charge of 1 proton (1.6x10^-19) mass of nucleus = nucleon number x mass of 1 proton (1.67x10^-27) the you have to divide the charge of the nucleus by he mass of nucleus e.g Q/M the answer should be in C/kg or Ckg^-1
Current is the flow of electric charge, not the total charge itself. It is called a net charge because in a circuit the movement of charge is a result of the difference in charges between different points, creating a flow of net charge.
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.
To find the net electric charge, we need to calculate the vector sum of the charges. In this case, we need to add the charges that are directed downwards (5500) and to the right (2200). Since charge is a scalar quantity, the net electric charge would simply be the algebraic sum of the two charges: 5500 down - 2200 right = 3300 down. So, the net electric charge is 3300 downwards.
The net charge of an ionic compound is equivalent to zero.