MHB Eigenfunction of \frac{d^2}{dx}-x^2: e^{-0.5x^2} with eigenvalue x^2-1

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The discussion focuses on determining whether the function e^{-0.5x^2} is an eigenfunction of the operator defined by the expression (d^2/dx^2) - x^2. The calculation shows that applying the operator results in e^{-0.5x^2}(x^2 - 1) - x^2, indicating that it does not satisfy the eigenfunction condition. Participants clarify the operator's definition and explore the implications of the calculations. The conclusion drawn is that e^{-0.5x^2} is not an eigenfunction of the specified operator. The discussion emphasizes the importance of verifying eigenfunction criteria in mathematical analysis.
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show that $$e^{-0.5x^2}$$ is an eigenfunction of the operator $$\frac{d^2}{dx}-x^2$$ and finds it's eigenvalue. I get $$e^{-0.5x^2}(x^2-1)-x^2$$ so it doesn't seem like its an eigenfunction.
 
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Re: eigenfunction

The operator is defined as follows.

\[
\left(\frac{d^2}{dx^2}-x^2\right)f(x)=\frac{d^2f(x)}{dx^2}-x^2f(x).
\]
 
Thread 'How to define a vector field?'

Thread 'How to define a vector field?'

Hello! In one book I saw that function ##V## of 3 variables ##V_x, V_y, V_z## (vector field in 3D) can be decomposed in a Taylor series without higher-order terms (partial derivative of second power and higher) at point ##(0,0,0)## such way: I think so: higher-order terms can be neglected because partial derivative of second power and higher are equal to 0. Is this true? And how to define vector field correctly for this case? (In the book I found nothing and my attempt was wrong...
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