Do you want BuboFlash to help you learning these things? Or do you want to add or correct something? Click here to log in or create user.



Question
There are many ways to express Gauss’s law, and although notation differs among textbooks, the integral form is generally written like this: I S ~ E ^ nda ¼ q enc e 0 Gauss’s law for electric fields (integral form). The left side of this equation is no more than a mathematical description of [...], whereas the right side is the total amount of charge contained within that surface divided by a constant called the permittivity of free space
Answer
the electric flux – the number of electric field lines – passing through a closed surface S

Question
There are many ways to express Gauss’s law, and although notation differs among textbooks, the integral form is generally written like this: I S ~ E ^ nda ¼ q enc e 0 Gauss’s law for electric fields (integral form). The left side of this equation is no more than a mathematical description of [...], whereas the right side is the total amount of charge contained within that surface divided by a constant called the permittivity of free space
Answer
?

Question
There are many ways to express Gauss’s law, and although notation differs among textbooks, the integral form is generally written like this: I S ~ E ^ nda ¼ q enc e 0 Gauss’s law for electric fields (integral form). The left side of this equation is no more than a mathematical description of [...], whereas the right side is the total amount of charge contained within that surface divided by a constant called the permittivity of free space
Answer
the electric flux – the number of electric field lines – passing through a closed surface S
If you want to change selection, open original toplevel document below and click on "Move attachment"

Parent (intermediate) annotation

Open it
ough notation differs among textbooks, the integral form is generally written like this: I S ~ E ^ nda ¼ q enc e 0 Gauss’s law for electric fields (integral form). The left side of this equation is no more than a mathematical description of <span>the electric flux – the number of electric field lines – passing through a closed surface S, whereas the right side is the total amount of charge contained within that surface divided by a constant called the permittivity of free space<span><body><html>

Original toplevel document (pdf)

owner: shihabdider - (no access) - A Student's Guide To Maxwell's Equations, p13

Summary

statusnot learnedmeasured difficulty37% [default]last interval [days]               
repetition number in this series0memorised on               scheduled repetition               
scheduled repetition interval               last repetition or drill

Details

No repetitions


Discussion

Do you want to join discussion? Click here to log in or create user.