Question:
The value of the integral
\[ \oint_C \left( y^3 \mathbf{i} - x^3 \mathbf{j} \right) \cdot \left( i \, dx + j \, dy \right) \] where \(C\) is the closed curve, is:
The value of the integral
\[ \oint_C \left( y^3 \mathbf{i} - x^3 \mathbf{j} \right) \cdot \left( i \, dx + j \, dy \right) \] where \(C\) is the closed curve, is:
\[ \oint_C \left( y^3 \mathbf{i} - x^3 \mathbf{j} \right) \cdot \left( i \, dx + j \, dy \right) \] where \(C\) is the closed curve, is:
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For closed line integrals use Green’s Theorem to convert the line integral into a double integral over the region enclosed by the curve
Updated On: Jan 17, 2026
- \(-\frac{3}{2} \pi a^3\)
- \(-\frac{3}{5} \pi a^4\)
- \(-\frac{5}{3} \pi a^4\)
- \(-\frac{3}{2} \pi a^3\)
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The Correct Option is A
Solution and Explanation
Using Green's Theorem, we convert the line integral into a double integral over the region enclosed by the curve \(C\). The integral simplifies to the value:
\[ -\frac{3}{2} \pi a^3, \]
considering the given components of the vector field.
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