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In an electrical system, work is done when a charge moves through a voltage difference. The relationship between work, charge, and voltage can be described by the equation W QV, where W is the work done, Q is the charge, and V is the voltage. This equation shows that the work done is equal to the product of the charge and the voltage.
Protons have an electrical charge of +1. Neutrons have an electrical charge of 0. Electrons have an electrical charge of -1.
The capacitance of a wire is directly related to its ability to store electrical charge. A wire with higher capacitance can store more charge, while a wire with lower capacitance can store less charge. This relationship is important in understanding how electrical systems work and how they can be optimized for different applications.
Electrical potential energy depends on the amount of charge involved, the voltage across the system, and the distance between the charged objects. These factors determine the ability of the system to do work on a charge.
When a positive charge moves due to a force, its electrical potential energy associated with its position in the system changes. If the charge moves in the direction of the force, its potential energy decreases. Conversely, if the charge moves against the force, its potential energy increases. This change in electrical potential energy is related to the work done by the force on the charge.
In an electrical system, work is done when a charge moves through a voltage difference. The relationship between work, charge, and voltage can be described by the equation W QV, where W is the work done, Q is the charge, and V is the voltage. This equation shows that the work done is equal to the product of the charge and the voltage.
If you are not licenced or qualified to do electrical work then you should not be doing electrical work let alone charging someone for it. If something goes wrong with your installation and your work starts a fire you will be held responsible
Protons have an electrical charge of +1. Neutrons have an electrical charge of 0. Electrons have an electrical charge of -1.
The Electrons and the Protons.
A neutron carries no electrical charge
The capacitance of a wire is directly related to its ability to store electrical charge. A wire with higher capacitance can store more charge, while a wire with lower capacitance can store less charge. This relationship is important in understanding how electrical systems work and how they can be optimized for different applications.
Protons have a positive charge, neutrons have no charge, and electrons have negative charge.Neutrons do not carry an electrical charge:)A proton has a positive charge. Remember, NEUTRon = NEUTRal. Proton = Positive. The electrical charge of a proton is 1.6x10^-19 which is equal and opposite to the electrical charge of an electron which is -1.6x10^-19.
A neutron does not have an electrical charge. It is electrically neutral, hence its name.
An electrical charge is the result of the flow of electrons.
current is the flow of charge.
Yes, some objects have an electrical charge.
Electrical potential energy depends on the amount of charge involved, the voltage across the system, and the distance between the charged objects. These factors determine the ability of the system to do work on a charge.