What is the differentiability of f(z) using Cauchy-Riemann equations?

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In summary, Cauchy-Riemann equations are a set of partial differential equations that determine the differentiability of a complex-valued function. They are important in complex analysis and have various applications in physics and engineering. They are also closely related to the concept of analyticity and have generalizations for higher dimensions and more complex functions.
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Homework Statement


Using Cauchy-Riemann equations show that f(z)=Re(z)Im(z)+i Im(z) is differentiable at only one point in C and find this point

Homework Equations





The Attempt at a Solution


no idea about this question , can i set Re(z)=u Im(z)=v
then U=uv V=v
and the point is o ?
 
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  • #2
If z = x + iy, then Re(z) = x and Im(z) = y.
 

1. What are Cauchy-Riemann equations?

Cauchy-Riemann equations are a set of partial differential equations that describe the necessary and sufficient conditions for a complex-valued function to be differentiable. They are named after Augustin-Louis Cauchy and Bernhard Riemann, who developed them in the 19th century.

2. What is the importance of Cauchy-Riemann equations in complex analysis?

Cauchy-Riemann equations are fundamental in complex analysis as they provide a way to determine if a function is holomorphic, meaning it is differentiable in a certain region. This is crucial in solving problems related to complex functions and their properties.

3. What is the relationship between Cauchy-Riemann equations and the concept of analyticity?

Analyticity is a property of a function that means it can be represented by a convergent power series. Cauchy-Riemann equations are necessary and sufficient conditions for a complex function to be analytic, which means it is differentiable at every point in its domain.

4. Can Cauchy-Riemann equations be used to solve real-world problems?

Yes, Cauchy-Riemann equations have various applications in physics, engineering, and other fields. They can be used to solve problems related to fluid dynamics, electromagnetism, and signal processing, among others.

5. Are there any generalizations of Cauchy-Riemann equations?

Yes, there are generalizations of Cauchy-Riemann equations for higher dimensions and more complex functions. Some examples include the Cauchy-Riemann-Fueter equations for quaternions and the Cauchy-Riemann equations for Clifford algebras.

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