How is the Conjugate of Real Trigonometric Functions Handled?

AI Thread Summary
The discussion centers on the handling of the conjugate of real trigonometric functions, specifically sine and cosine. It raises the question of how to find the conjugate when both functions are real in the given problem. The suggestion is made to convert sine and cosine into their exponential forms, leading to the expression e^(2j) + e^(-2j). A key point highlighted is that the complex conjugate of a real quantity is the quantity itself, reinforcing that real numbers are their own conjugates. Understanding these properties is essential for correctly applying conjugates in trigonometric contexts.
kolycholy
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okay, so this particular equation involves me writing conjugate of either sin or cos, but hows that possible considering they both are real in the given problem?

maybe i should convert sin and cos into their exponential form first?

but then wt would be the conjugate of this expression-----> e^2j +e^(-2j)?
 
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kolycholy said:
okay, so this particular equation involves me writing conjugate of either sin or cos, but hows that possible considering they both are real in the given problem?

maybe i should convert sin and cos into their exponential form first?

but then wt would be the conjugate of this expression-----> e^2j +e^(-2j)?

If you have to take the complex conjugate of a real quantity, say z, then z is its own complex conjugate, i.e. z=z^{\ast}. This follows from the fact that the real part of a complex number and the real part of its conjugate are always the same by definition:

<br /> z = x + iy<br />
<br /> z^{\ast} = x - iy<br />

where x\,,y are real.
 

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