Question
Download Solution PDFFor a positive integer p, consider the holomorphic function
\(f(z)=\frac{\sin z}{z^p}\) for \(z β \mathbb{C} \backslash\{0\}\)
For which values of p does there exist a holomorphic function g βΆ \(\mathbb{C}\) \{0} → \(\mathbb{C}\) such that f(z) = g'(z) for z ∈ \(\mathbb{C}\) \{0}?
Answer (Detailed Solution Below)
Detailed Solution
Download Solution PDFConcept:
A function f(z) is said to be holomorphic in a domain D if f(z) has no singularities in D.
Explanation:
g'(z) =\(f(z)=\frac{\sin z}{z^p}\) z ∈ \(\mathbb{C}\) \{0}
⇒ g'(z) = \(\frac{1}{z^p}(z-\frac{z^3}{3!}+\frac{z^5}{5!}-...)\)
⇒ g'(z) = \((\frac{z^{1-p}}{1!}-\frac{z^{3-p}}{3!}+\frac{z^{5-p}}{5!}-...)\)
Integrating both sides we get
g(z) = \((\frac{z^{2-p}}{1!(2-p)}-\frac{z^{4-p}}{3!(4-p)}+\frac{z^{6-p}}{5!(6-p)}-...)\)
So g(z) can not be holomorphic if p is a multiple of 2, 3 and 4.
∴ Options (1), (3) and (4) are not correct.
Hence option (2) is correct
Last updated on Jun 5, 2025
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