- #1
Edwin
- 162
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Hi, I was playing around with Euler's Identity, and I found something (or at least I think I found something) interesting:
It is a well known identity
sin(z) = [exp(iz) - exp(-iz)]/(2*i), where z is any complex number, exp is the complex exponential function, and i is the imaginary constant.
So if we bring the 2*i upstairs, we get
2*i*sin(z) = exp(iz) - exp(-iz) (2)
From (2), we can see that
-4*sin(z)*sin(w) = [exp(iz) - exp(-iz)]*[exp(iw) - exp(-iw) ]
= exp[i(z+w)] +exp[-i(z+w)] - (exp[i(z-w)] + exp[-i(z-w)] )
Since exp[-i(z+w)] is the complex conjugate of exp[i(z+w)], and exp[-i(z-w)] is the complex conjugate of exp[i(z-w)], we have
exp[i(z+w)] +exp[-i(z+w)] - (exp[i(z-w)] + exp[-i(z-w)] )
=2RealPart{exp[i(z+w)]} - 2RealPart{exp[i(z-w)]}, which is real for every complex w and z.
Is this really true? Am I making some mistake here?
Inquisitively,
Edwin G. Schasteen
It is a well known identity
sin(z) = [exp(iz) - exp(-iz)]/(2*i), where z is any complex number, exp is the complex exponential function, and i is the imaginary constant.
So if we bring the 2*i upstairs, we get
2*i*sin(z) = exp(iz) - exp(-iz) (2)
From (2), we can see that
-4*sin(z)*sin(w) = [exp(iz) - exp(-iz)]*[exp(iw) - exp(-iw) ]
= exp[i(z+w)] +exp[-i(z+w)] - (exp[i(z-w)] + exp[-i(z-w)] )
Since exp[-i(z+w)] is the complex conjugate of exp[i(z+w)], and exp[-i(z-w)] is the complex conjugate of exp[i(z-w)], we have
exp[i(z+w)] +exp[-i(z+w)] - (exp[i(z-w)] + exp[-i(z-w)] )
=2RealPart{exp[i(z+w)]} - 2RealPart{exp[i(z-w)]}, which is real for every complex w and z.
Is this really true? Am I making some mistake here?
Inquisitively,
Edwin G. Schasteen