Possible Rings with Product of Nonzero Elements Equal to 0?

helix999
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for which of the following rings is it possible for the product of two nonzero elements to be 0?



1. ring of complex numbers
2. ring of integers modulo 11
3. the ring of continuous real-valued functions on [0,1]
4. the ring {a+b(sqrt(2)) : a & b are rational numbers}
5. ring of polynomials in x with real coefficients
 
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helix999 said:
for which of the following rings is it possible for the product of two nonzero elements to be 0?



1. ring of complex numbers
2. ring of integers modulo 11
3. the ring of continuous real-valued functions on [0,1]
4. the ring {a+b(sqrt(2)) : a & b are rational numbers}
5. ring of polynomials in x with real coefficients
What have you done on this yourself? Surely you don't want people to just give you the answers!
 
I have just tried to find out some good online tutorials on Rings. When I think of rings, an empty circle comes to my mind...nothing else. I want to know the explanations of each & every points mentioned above otherwise I wouldn't have written them because I have the correct answer.
 
it is 3rd one
 

Thread 'Finding the nth roots of a complex number'

There are two things I don't understand about this problem. First, when finding the nth root of a number, there should in theory be n solutions. However, the formula produces n+1 roots. Here is how. The first root is simply ##\left(r\right)^{\left(\frac{1}{n}\right)}##. Then you multiply this first root by n additional expressions given by the formula, as you go through k=0,1,...n-1. So you end up with n+1 roots, which cannot be correct. Let me illustrate what I mean. For this...
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