Batteries do work to separate electric charge across its terminals (that's why one terminal is labeled "+" and the other is labeled "-"). The resulting charge separation creates an electric field that free charges follow to minimize the charge separation created by the battery. An ideal battery is able to separate charges by an amount of 7.91 Volts (in other words, the battery maintains a potential difference of 7.91 Volts), how much work does the battery do on a 23.3 mC (milliCoulomb) charge?
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An electrostatic force is a force caused by stationary electric charges /fields. The electrostatic force is caused by the transfer of electrons in conducting materials. Coulomb’s law determines the amount of force between two stationary, charged particles. The electric force is the force which acts between two stationary charges. It is also called Coulomb force.
Batteries do work to separate electric charge across its terminals (that's why one terminal is labeled "+" and the other is labeled "-"). The resulting charge separation creates an electric field that free charges follow to minimize the charge separation created by the battery. An ideal battery is able to separate charges by an amount of 7.91 Volts (in other words, the battery maintains a potential difference of 7.91 Volts), how much work does the battery do on a 23.3 mC (milliCoulomb) charge?
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