Theorem 8.11 in what book?
I will give a link that explains and proves the theorem.
in this theorem we will neglect the given resistance and in next step mean as second step we will solve
Well, this will depend on the length of the sides of the triangle for what postulate or theorem you will be using.
SAS
There's a theorem to the effect that every group of prime order is cyclic. Since 5 is prime, the assertion in the question follows from the said theorem.
Yes, the corollary to one theorem can be used to prove another theorem.
You cannot solve a theorem: you can prove the theorem or you can solve a question based on the remainder theorem.
asa theorem
A theorem to prove. A series of logical statements. A series of reasons for the statements. answer theorem to prove
A segment need not be a bisector. No theorem can be used to prove something that may not be true!
HL congruence theorem
I will give a link that explains and proves the theorem.
Q.e.d.
I have to prove http://s5.tinypic.com/19ldma.jpg http://img22.imageshack.us/img22/9263/mathhlproofou4.jpg without using pythagorean theorem
..?
defenition and postualte
in this theorem we will neglect the given resistance and in next step mean as second step we will solve