In the figure (Figure 1), C1C1 = C5C5 = 8.1 μFμF and C2C2= C3C3 = C4C4 = 5.0 μFμF . The applied potential is VabVab = 200 VV .Calculate the charge on capacitor C2C2.Calculate the potential difference across capacitor C2C2.Calculate the charge on capacitor C3C3.Calculate the potential difference across capacitor C3C3
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Water constitutes about 70% of earth. Some important distinguishing properties of water are high molar concentration, small dissociation constant and high dielectric constant.
Electrostatic Potential and Capacitance
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.
In the figure (Figure 1), C1C1 = C5C5 = 8.1 μFμF and C2C2= C3C3 = C4C4 = 5.0 μFμF . The applied potential is VabVab = 200 VV .Calculate the charge on capacitor C2C2.Calculate the potential difference across capacitor C2C2.Calculate the charge on capacitor C3C3.Calculate the potential difference across capacitor C3C3.Calculate the charge on capacitor C4C4.Calculate the potential difference across capacitor C4C4.Calculate the charge on capacitor C5C5.Calculate the potential difference across capacitor C5C5.
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