Write the Faraday’s Law. mathematical expressions (integral form
only). Explain each symbol, each detail in each...
Write the Faraday’s Law. mathematical expressions (integral form
only). Explain each symbol, each detail in each of these equations
– by words. Draw sketches when they are necessary for your
explanation.
Write the Gauss’s Law for magnetic fields, in details.
mathematical expressions (integral form only) and steps. Explain
each symbol, each detail in each of these equations – by words.
Draw sketches when they are necessary for your explanation.
Write down Maxwell’s equations in differential and integral form
and explain the physics behind each one of them. Modify one of them
to account for the existence of magnetic monopoles.
Explain each of them in 10 lines:
1-Faraday’s Law of Induction and relevance
2- Direct and Alternating Current Generators
3- Lenz’s Law and the differences with Faraday’s Law
4- the process of Inducing Voltage by Moving a Wire in a
Magnetic Field
Using Faraday’s Law and Lenz’s Law, explain why a change of
current in a conducting wire loop will induce an electrical
potential difference which will oppose this change. Use relevant
equations and/or diagram(s).
a) Define a law of electrostatics in integral form that is used
to compute the electrostatic field E due to a symmetric
distribution of charge within a given volume. State the meaning of
the terms in the defining equation.
b) A uniformly charged long cylinder of radius a and length L
has total charge q inside its volume. What is the direction of the
electric field at points outside the cylinder? Find the electric
field inside and outside the cylinder....
Write a program to check the mathematical expressions containing
the following parentheses for validity:
(
[
{
Hint: {(6 – 2) * 8} is a valid expression. [3 +
(6 * 7) } is an invalid expression.