Which of the following is/are eigenvalue(s) of the Sturm–Liouville problem
\[
y'' + \lambda y = 0, \quad 0 \leq x \leq \pi,
\]
with the boundary conditions
\[
y(0) = y'(0), \quad y(\pi) = y'(\pi)?
\]
Show Hint
- \( \lambda = 1 \)
- \( \lambda = 2 \)
- \( \lambda = 3 \)
- \( \lambda = 4 \)
The Correct Option is A
Solution and Explanation
Step 1: General solution of the differential equation. The general solution of \( y'' + \lambda y = 0 \) is \[ y(x) = A \cos(\sqrt{\lambda} x) + B \sin(\sqrt{\lambda} x). \] Step 2: Applying boundary conditions. From \( y(0) = y'(0) \), we get \( A = 0 \) or \( B = 0 \). Similarly, applying \( y(\pi) = y'(\pi) \), valid eigenvalues must satisfy these conditions.
Step 3: Identifying eigenvalues. The eigenvalues that satisfy the conditions are \( \lambda = 1 \) and \( \lambda = 4 \).
Step 4: Conclusion. The eigenvalues are \( {(1) } \lambda = 1 { and (4) } \lambda = 4 \).
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