You need to multiply the number of coulombs by the number of volts. If the two batteries are in series, then you can add the voltage of both batteries.
Coulomb is the basic unit of charge in the MKS system. It is the charge which flows per second in a DC current of 1 ampere, about 6*10^18 electrons. Batteries and capacitors both store charge. They also both store energy. Charge and energy are not equivalent, but are related somewhat like momentum and kinetic energy.
The numerical representation of one coulomb of charge moving past a point in a circuit per second is called an ampere.
That's the coulomb, equal to the quantity of charge moved by a current of 1 ampere during an interval of 1 second.
coulomb ----------------------------------------- Coulomb (symbol C) is a derived unit for electrical charge in SI; the base units are: 1 C = A x s So, the coulomb is the electrical charge transported by an ampere in one second.
The unit of current is the ampere (A), or amp for short. A thousandth of an amp is a milliamp (mA). One amp is equal to one coulomb of charge per second.
The coulomb is the unit of electric charge in the International System of Units (SI). It is defined as the amount of charge that passes a point in a circuit when a current of one ampere flows for one second. The coulomb is used to measure the quantity of electric charge in a system, such as in batteries, capacitors, and electrical circuits.
A coulomb is a unit of electrical charge. It is the charge that passes a point in an electrical circuit in one second when a current of 1 ampere is flowing through the point.
A coulomb is a unit of electric charge. It represents the amount of charge that flows through a circuit in one second when a current of one ampere is present. In the context of electricity, the coulomb is important because it helps measure and quantify the flow of electric charge in a circuit, which is essential for understanding and working with electrical systems.
One coulomb of charge is equivalent to 1 volt in an electric circuit. This relationship between charge and voltage is governed by Ohm's Law, which defines the relationship between voltage, current, and resistance in a circuit.
An ampere is a unit of electric current, representing the rate of flow of electrons in a circuit. A coulomb is a unit of electric charge, representing the quantity of charge passing through a point in a circuit. They are related in that 1 ampere is equal to 1 coulomb per second.
In a 120-volt circuit, each coulomb of charge flowing receives 120 joules of energy. This is calculated using the formula: energy = voltage x charge. So, 120V x 1C = 120 joules.
One coulomb per second is defined as an ampere (A), which is the unit of electric current. It represents the flow of one coulomb of electric charge per second in a circuit.
For Alkaline batteries i recommend putting in great sunlight or buying an electrical battery charger.
119 joules per coulombCharges don't get joules as they flow through a circuit. They lose them.Every coulomb of charge that flows through a circuit ... from one terminal of a119-volt power supply, around the circuit, and back to the other terminal ...loses 119 joules during the trip.
It makes no difference whether the circuit is parallel, series or complex. The number of electrons travelling (or oscillating back and forth for AC) is determined by the current (amps). 1 amp = 1 coulomb/second. 1 coulomb = the charge represented by 6.24150962915265 x 1018 electrons. The current in each leg of a parallel circuit has to be worked out separately.
alkaline charge. batteries are basic, as opposed to acidic.
One Coulomb is the charge of about 6,241,510,000,000,000,000 electrons, so it looks likea Coulomb would probably be bigger than the charge on one electron.