Understanding Gauss's Law and Electric Flux

To make learning science stressful

To focus solely on mathematics

To take the stress out of learning science

To provide entertainment

The sound waves passing through a surface

The gravitational field passing through a surface

The electric field passing through a surface

The magnetic field passing through a surface

Theta is the angle from the perpendicular to the surface

Theta is the angle of the surface itself

Theta is the angle between the electric field and the surface

Theta is irrelevant in calculating electric flux

As negative electric flux

As neutral electric flux

As positive electric flux

As irrelevant to electric flux

The net electric flux is zero

The net electric flux is negative

The net electric flux is infinite

The net electric flux is positive

Coulomb's constant is equal to 4 Pi times the permittivity of free space

Coulomb's constant is equal to 1 over 4 Pi times the permittivity of free space

Coulomb's constant is unrelated to the permittivity of free space

Coulomb's constant is equal to the permittivity of free space

Electric flux = E * A * sin(theta)

Electric flux = Q inside / Epsilon KN

Electric flux = Q inside * Epsilon KN

Electric flux = B * A * cos(theta)

The material of the sphere

The total enclosed charge

The temperature of the sphere

The color of the sphere

Newtons per Coulomb

Joules per meter

Newtons meter squared per Coulomb

Coulombs per meter squared

The electric field increases

The electric field remains constant

The electric field decreases

The electric field becomes zero