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Electrical Fields

Gauss' Law

Electric Flux

Cylindrical and Spherical Charge

Sheets Charge

100

The electric field lines due to a point-like negative charge point...

radially inward

100

if the integral of EdS = 0 inside a surface, this means that the net charge is

zero

100

What is the S.I. unit of electric flux?

Nm²/C

100

What is the surface area of a sphere?

4*Pi*r²

100

For an infinite sheet of charge, the electric field is ________ to the surface.

perpendicular

200

The electric field lines due to a point-like positive charge point...

radially outward

200

A charge is enclosed by a sphere of radius R. If the radius increases to 2R, the electric flux will:

remain the same

200

Which is the correct expression of electric flux?

a) ∫ 𝐸⃗ .𝑑𝑠⃗
b) ∫ 𝐸2→.𝑑𝑠⃗
c) ∫ 𝐸⃗ −1.𝑑𝑠⃗
d) ∫ 𝐸⃗ .𝑑𝑙⃗

a) ∫ 𝐸⃗ .𝑑𝑠⃗

200

What is the total surface area of a cylinder?

(2*Pi*r*h) + (2*Pi*r²)

200

If using a Gaussian cylindrical surface aligned with the axis of an infinite sheet of charge, why, when Gauss' law is applied to the curved sides of the cylinder, is it equal to zero?

The electric field is perpendicular to the sheets, thus the flux through the curved sides of the cylinder is zero.

300

The force on a particle between two infinitely large plates of charge +Q and -Q is

(a) constant

(b) not constant

constant

300

In Gauss' Law, the net electric flux through a surface is equal to the charge inside of the surface divided by:

ε₀

300

A charge q is in the centre of a cube. The electric flux through any face of the cube is:

q/[6*ɛ₀]

300

A sphere of radius 100cm has a charge of 2*Pi/3 uC. The surface density of charge is: (answer in C/m^2)

1.67*10^-7 C/m²

(or 16.67 uC/m)

300

What is the acceleration on a particle of charge q and mass m in the region between two charged sheets with an electric charge E?

a=qE/m

400

The maximum electric flux on a 48.5cm diameter circular loop in an uniform electric field is found to be 5.93*10⁵ Nm²/C. What is the magnitude of the electric field?

3.21*10⁶N/C

400

If the net flux on a cylinder is negative, will there be more electric field lines exiting or entering the surface?

More lines entering

400

The maximum value of electric flux in an uniform electric field is given as:

Φ=|E|*|A|

400

Two charges q and 10q are placed inside two identical spheres. Which sphere will have the greatest flux?

Sphere with 10q

400

The electric field intensity due to an infinitely charged sheet is

σ/2ɛ₀

500

Two small charged spheres have charges 10uC and 40uC. They are 90cm away from each other. At what distance from the sphere with charge 10uC will the electric field intensity be zero?

30cm

500

A cube has a net flux of 3.75 Nm²/C. The length of a side of the cube is 0.5m. What is the net charge (in C) inside of the cube?

3.32*10^-11 C

500

A square surface with sides d=5cm has a uniform electric field E=350N/C at an angle of 60 degrees to the normal of the surface. What is the electric flux through the surface?

0.4375 Nm²/C

500

If we considered an infinite cylinder of uniform charge density causing electric field E using a Gaussian surface in the form of a cylinder of length L (with radius larger than the infinite cylinder), what would the electric flux be equal to in this situation?

E*2*Pi*r*L

500

Two infinite sheets of charge are parallel to one another, one positive and one negative. The electric field outside these plates is:

zero