“The surface integral of the normal component of the electric displacement D over any closed surface equals the charge enclosed by the surface”.The above statement is associated with

Electrostatic and Capacitance
“The surface integral of the normal component of the electric displacement D over any closed surface equals the charge enclosed by the surface”.The above statement is associated with

Gauss’s law

Kirchhoff's law

Lenz’s law

Faraday’s law

Gauss’s law

Kirchhoff's law

Lenz’s law

Faraday’s law

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Electrostatic and Capacitance
Acharge which when placed in vacuum from an equal and similar charge repels with a force of 9 x 10 N, is known as

micro-coulomb

pico-coulomb

milli-coulomb

coulomb

micro-coulomb

pico-coulomb

milli-coulomb

coulomb

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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
An electrolytic capacitor can be used for

None of the listed here

DC only

AC only

Both DC and AC

None of the listed here

DC only

AC only

Both DC and AC

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Electrostatic and Capacitance
At a point is equal to the negative potential gradient at that point.

Electric intensity

Magnetic flux

Magnetic flux density

Electric flux

Electric intensity

Magnetic flux

Magnetic flux density

Electric flux

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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

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Electrostatic and Capacitance

Electrostatic and Capacitance “The surface integral of the normal component of the electric displacement D over any closed surface equals the charge enclosed by the surface”.The above statement is associated with

Electrostatic and Capacitance Acharge which when placed in vacuum from an equal and similar charge repels with a force of 9 x 10 N, is known as

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

Electrostatic and Capacitance An electrolytic capacitor can be used for

Electrostatic and Capacitance At a point is equal to the negative potential gradient at that point.

Electrostatic and Capacitance The capacitance between two plates increases with

Electrostatic and Capacitance
“The surface integral of the normal component of the electric displacement D over any closed surface equals the charge enclosed by the surface”.The above statement is associated with

Electrostatic and Capacitance
Acharge which when placed in vacuum from an equal and similar charge repels with a force of 9 x 10 N, is known as

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

Electrostatic and Capacitance
An electrolytic capacitor can be used for

Electrostatic and Capacitance
At a point is equal to the negative potential gradient at that point.

Electrostatic and Capacitance
The capacitance between two plates increases with