"The total electric flux through any closed surface surrounding charges is equal to the amount oflcharge enclosed".The above statement is associated with

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

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Electrostatic and Capacitance
For a good 0.05 uF capacitor ohmmeter reading should

go quickly to 50 ohm approximately and remain there

not move at all

show high resistance momentarily and then a very low resistance

show low resistance momentarily and back off to a very high resistance

go quickly to 50 ohm approximately and remain there

not move at all

show high resistance momentarily and then a very low resistance

show low resistance momentarily and back off to a very high resistance

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Electrostatic and Capacitance
A capacitor consists of two

None of the listed here

Insulators separated by a dielectric

Conductors separated by an insulator

Ceramic plates and one mica disc

None of the listed here

Insulators separated by a dielectric

Conductors separated by an insulator

Ceramic plates and one mica disc

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Electrostatic and Capacitance
Which capacitor will be physically smaller for the same ratings ?

Both will be of equal size

Ceramic capacitor

Paper capacitor

None of these

Both will be of equal size

Ceramic capacitor

Paper capacitor

None of these

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Electrostatic and Capacitance
A 0.47 µF capacitor is across a 2 kHz sine wave signal source. The capacitive reactance is

1.7 Ω

170 Ω

0.000169 Ω

17 Ω

1.7 Ω

170 Ω

0.000169 Ω

17 Ω

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Electrostatic and Capacitance
Two plates of a parallel plate capacitor after being charged from a constant voltage source are separated apart by means of insulated handles, then the

Voltage across the plates increases

Charge on the capacitor decreases

Charge on the capacitor increases

Voltage across the plates decreases

Voltage across the plates increases

Charge on the capacitor decreases

Charge on the capacitor increases

Voltage across the plates decreases

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Electrostatic and Capacitance

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

Electrostatic and Capacitance For a good 0.05 uF capacitor ohmmeter reading should

Electrostatic and Capacitance A capacitor consists of two

Electrostatic and Capacitance Which capacitor will be physically smaller for the same ratings ?

Electrostatic and Capacitance A 0.47 µF capacitor is across a 2 kHz sine wave signal source. The capacitive reactance is

Electrostatic and Capacitance Two plates of a parallel plate capacitor after being charged from a constant voltage source are separated apart by means of insulated handles, then the

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

Electrostatic and Capacitance
For a good 0.05 uF capacitor ohmmeter reading should

Electrostatic and Capacitance
A capacitor consists of two

Electrostatic and Capacitance
Which capacitor will be physically smaller for the same ratings ?

Electrostatic and Capacitance
A 0.47 µF capacitor is across a 2 kHz sine wave signal source. The capacitive reactance is

Electrostatic and Capacitance
Two plates of a parallel plate capacitor after being charged from a constant voltage source are separated apart by means of insulated handles, then the