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Electric flux – Electric flux is the measure of number of electric field lines passing through any surface . It is a scalar quantity. It’s S.I unit is volt meters.

## Is the SI unit of electric flux?

The SI unit of electric flux is volt meters (V-m), this is also equal to newton-meters squared per coulomb (N m^{2} C^{–}^{1}).

## What is the SI unit of electric flux in physics?

Electric flux has SI units of volt metres (V m), or, equivalently, newton metres squared per coulomb (N m^{2} C^{−}^{1}). Thus, the SI base units of electric flux are kg·m^{3}·s^{−}^{3}·A^{−}^{1}.

## What is electric flux and its SI unit and dimension?

Electric flux is defined as the measure of count of number of electric field lines crossing an area. Electric flux ϕ=EAcosθ SI unit of electric flux is Nm2/C.

## Is electric flux a vector quantity?

Electric flux is a scalar quantity, because it’s the dot product of two vector quantities, electric field and the perpendicular differential area.

## Which of the following is the unit of electric flux?

Electric flux is a scalar quantity and has an SI unit of newton-meters squared per coulomb ( N · m 2 /C N · m 2 /C ).

## What is the s1 unit of electric flux?

Electric flux has SI units of volt metres (V m), or, equivalently, newton metres squared per coulomb (N m^{2} C^{−}^{1}).

## What is electric flux Ncert?

Electric flux is the measure of flow of the electric field through a given area. Electric flux is proportional to the number of electric field lines going through a normally perpendicular surface.

## What is SI and CGS unit of electric flux?

Answer: the SI base unit of electric flux is volt meters (V m) which is also equal to newton-meters squared per coulomb (N m² C-1). Besides, the base units of electric flux are kg·m3·s-3·A-1. ahlukileoi and 5 more users found this answer helpful. Thanks 3.

## Which quantity is the vector quantity among the following?

For example, displacement, velocity, and acceleration are vector quantities, while speed (the magnitude of velocity), time, and mass are scalars. To qualify as a vector, a quantity having magnitude and direction must also obey certain rules of combination.