0.99840coloumbs
1.6x10^-19 coulombs/electron x 12.5x10^18 electrons = 20 coulombs
539000 times as much as 1 coulomb.
If a lightening bolt transfers twenty three coulombs to earth how many electrons are transferred?
Electron: -1 [−1.602176487(40)×10−19 Coulombs] Proton: +1 [+1.602176487(40) × 10-19 Coulombs]
The real charge on an electron is -1.60217646 x 10-19 Coulombs. The charge on a proton is +1.60217646 x 10-19 Coulombs. Because these values are cumbersome to work with, and are equal but opposite, the protons were assigned a charge of +1, and electrons were assigned a charge of -1.
1.6x10^-19 coulombs/electron x 12.5x10^18 electrons = 20 coulombs
in one electron there is a charge of 1.60217646 × 10-19 coulombs now to get your answer its going to be 1110 * 1.60217646 × 10-19 coulombs= 1.7784158706 x 10^-16
The electric charge is measured in coulombs.
Charges are quantized. This means that they have quantities. Therefore, q=ne. q is the the charge, n is the number of electrons you are trying to find, and e is the charge on the electron. Remember that your given charge is in micro coulombs, and you'll have to turn that into coulombs. -21x10^-6 c/1.6X10^-19c =n, this will give you the number of extra electrons. hope this helps!
The amount of electrons it takes to make 80CU of charge would come as an equation. CU stands for Coulombs. It would take 4.9932078e+20 electrons for 80 CU of charge.
539000 times as much as 1 coulomb.
If a lightening bolt transfers twenty three coulombs to earth how many electrons are transferred?
Electron: -1 [−1.602176487(40)×10−19 Coulombs] Proton: +1 [+1.602176487(40) × 10-19 Coulombs]
When a material has an excess of electrons, it has a negative charge. When it has a deficiency of electrons, it has a positive charge.
When a material has an excess of electrons, it has a negative charge. When it has a deficiency of electrons, it has a positive charge.
When a material has an excess of electrons, it has a negative charge. When it has a deficiency of electrons, it has a positive charge.
The real charge on an electron is -1.60217646 x 10-19 Coulombs. The charge on a proton is +1.60217646 x 10-19 Coulombs. Because these values are cumbersome to work with, and are equal but opposite, the protons were assigned a charge of +1, and electrons were assigned a charge of -1.