The idea is to divide this charge (60 x 10 to the power -6) by the charge of an electron.Please note that an electron has a negative charge.
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.
It takes 6.25E18 electrons to produce 1 coulomb of charge.
To calculate the number of electrons in 80 μC of charge, you can use the formula (Q = Ne), where (Q) is the charge in coulombs, (N) is the number of electrons, and (e) is the elementary charge ((1.6 \times 10^{-19}) Coulombs). First, convert 80 μC to coulombs (1 μC = (10^{-6}) C), then divide the charge by the elementary charge to find the number of electrons.
1.25 x 1019 give or take a few
To calculate the number of electrons removed, we first determine the charge of a single electron (approximately -1.6 x 10^-19 C). Next, we divide the total desired charge (0.1 μC) by the charge of a single electron and take the absolute value to determine the number of electrons removed. This calculation gives us around 6.25 x 10^11 electrons.
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.
It takes 6.25E18 electrons to produce 1 coulomb of charge.
6.242 x 1018
To calculate the number of electrons in 80 μC of charge, you can use the formula (Q = Ne), where (Q) is the charge in coulombs, (N) is the number of electrons, and (e) is the elementary charge ((1.6 \times 10^{-19}) Coulombs). First, convert 80 μC to coulombs (1 μC = (10^{-6}) C), then divide the charge by the elementary charge to find the number of electrons.
Two
1.25 x 1019 give or take a few
Electrons contain or maintain or have or are a negative charge. They do not contain anything physical that you can take out.
it will have a negative charge. Neutrons are neutral, protons are positive and electrons are negative. an atom will have the same amount of protons and electrons to make the whole thing neutral. adding more electrons if give the atom a negative charge as there isn't enough protons in the atom to counteract the electrons. it do this an atom must already have 5-7 electrons in its outer shell as they are looking to fill there outer shell with 8 electrons. atoms with 1-3 electrons in its outer shell will get rid of them. group 4 doesn't make ions very well as 4 electrons would take too much energy to lose or gain, however there are exceptions. group 8 or 0 doesn't make ions either as they already have filled there outer shell and are stable.
The number of electrons must be eight.
All atoms have a neutral charge until they lose or gain electrons. Once they lose/gain electrons then they are considered ions. Gaining electrons- If atoms gain electrons then they are getting negatively charged particles making them have a negative charge. Losing electrons- If atoms lose electrons then they are losing a negative charge and they become a positively charged ion. Oxygen- Oxygen will have a negative charge before a positive charge because it needs only two electrons to have a stable valence level. For example, Oxygen will take the electrons from two Hydrogen atoms and make H20.
To calculate the number of electrons removed, we first determine the charge of a single electron (approximately -1.6 x 10^-19 C). Next, we divide the total desired charge (0.1 μC) by the charge of a single electron and take the absolute value to determine the number of electrons removed. This calculation gives us around 6.25 x 10^11 electrons.
Look up the charge of an electron, then divide 80 microcoulombs by that charge. Note that "micro" means a millionth. Also note that a coulomb is a positive charge, whereas the electron has a negative charge.