Electrostatic and Capacitance This mention statement is associated with "The surface integral of the normal component of the electric displacement D over any closed surface equals the charge enclosed by the surface". Lenz's law Gauss's law Faraday's law Kirchhoff's law Lenz's law Gauss's law Faraday's law Kirchhoff's law ANSWER DOWNLOAD EXAMIANS APP
Electrostatic and Capacitance The presence of an uncharged conductor near a charged one increases the Potential of the charged conductor Charge of the charged conductor Capacity of the charged conductor All of the listed here Potential of the charged conductor Charge of the charged conductor Capacity of the charged conductor All of the listed here ANSWER DOWNLOAD EXAMIANS APP
Electrostatic and Capacitance At a point is equal to the negative potential gradient at that point. Magnetic flux density Electric intensity Electric flux Magnetic flux Magnetic flux density Electric intensity Electric flux Magnetic flux ANSWER DOWNLOAD EXAMIANS APP
Electrostatic and Capacitance The units of capacitance are Hennry Hennry/wb Volt/coulomb Coulomb/volt Hennry Hennry/wb Volt/coulomb Coulomb/volt ANSWER DOWNLOAD EXAMIANS APP
Electrostatic and Capacitance Four 0.15 µF capacitors are in parallel. The total capacitance is 0.6 µF 0.30 µF 0.8 µF 0.15 µF 0.6 µF 0.30 µF 0.8 µF 0.15 µF ANSWER DOWNLOAD EXAMIANS APP
Electrostatic and Capacitance Dielectric strength ______ with increasing thickness decreases increases remains unaltered None of these decreases increases remains unaltered None of these ANSWER DOWNLOAD EXAMIANS APP
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