If \(\vec{V} = a\hat{i} + b\hat{j} + c\hat{k}\), identify the INVALID operation on \(\vec{V}\).
Show Hint
- \(\nabla \cdot \nabla \times (\vec{V})\)
- \(\nabla \times \nabla \cdot (\vec{V})\)
- \(\nabla(\nabla \cdot (\vec{V}))\)
- \(\nabla \times \vec{V}\)
The Correct Option is B
Solution and Explanation
- \(\nabla \cdot \vec{V}\) gives a scalar.
- \(\nabla \times \vec{V}\) gives a vector.
- \(\nabla (\text{scalar})\) gives a vector.
- \(\nabla \cdot (\text{vector})\) gives a scalar.
- \(\nabla \times (\text{vector})\) gives a vector.
Step 2: Check validity of each option.
(A) \(\nabla \cdot (\nabla \times \vec{V})\) is valid and always equals 0.
(B) \(\nabla \times (\nabla \cdot \vec{V})\) is the INVALID operation because the curl of a scalar (\(\nabla \cdot \vec{V}\)) does not make sense. The curl requires a vector.
(C) \(\nabla (\nabla \cdot \vec{V})\) is valid — gradient of divergence.
(D) \(\nabla \times \vec{V}\) is valid — curl of a vector.
Step 3: Conclusion.
The invalid operation is (B), as curl of a scalar is not a valid operation. Thus, the correct answer is (B).
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