Electrostatic and Capacitance "The total electric flux through any closed surface surrounding charges is equal to the amount oflcharge enclosed".The above statement is associated with Maxwell’s first law Coulomb’s square law Maxwell’s second law Gauss’s law Maxwell’s first law Coulomb’s square law Maxwell’s second law Gauss’s law ANSWER DOWNLOAD EXAMIANS APP
Electrostatic and Capacitance The electric field at a point situated at a distance d from straight charged conductor is None of the listed here Inversely proportional to d Inversely proportional to d proportional to d None of the listed here Inversely proportional to d Inversely proportional to d proportional to d ANSWER DOWNLOAD EXAMIANS APP
Electrostatic and Capacitance In a capacitive circuit A steady value of applied voltage causes discharge None of the listed here An increase in applied voltage makes a capacitor charge Decrease in applied voltage makes a capacitor charge A steady value of applied voltage causes discharge None of the listed here An increase in applied voltage makes a capacitor charge Decrease in applied voltage makes a capacitor charge ANSWER DOWNLOAD EXAMIANS APP
Electrostatic and Capacitance The capacitance between two plates increases with shorter plate area and shorter distance between them larger plate area and shorter distance between plates shorter plate area and higher applied voltage larger plate area, longer distance between plates and higher,applied voltage shorter plate area and shorter distance between them larger plate area and shorter distance between plates shorter plate area and higher applied voltage larger plate area, longer distance between plates and higher,applied voltage ANSWER DOWNLOAD EXAMIANS APP
Electrostatic and Capacitance A capacitor of 0.02 µF is larger than All of these 0.000020 F 200,000 pF 2,000 pF All of these 0.000020 F 200,000 pF 2,000 pF ANSWER DOWNLOAD EXAMIANS APP
Electrostatic and Capacitance XC is inversely proportional to frequency and capacitance. 1 1 ANSWER DOWNLOAD EXAMIANS APP
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