$\"\"$

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The curve equations are $\"\"$ and $\"\"$ .

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Find intersection points.

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Substitute $\"\"$ in $\"\"$ .

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$\"\"$

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$\"\"$

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Imaginary roots are not considered, Hence $\"\"$ .

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Substitute $\"\"$ in the curve equation $\"\"$ .

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$\"\"$

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The intersection points are $\"\"$ and $\"\"$ .

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$\"\"$

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The curve equation is $\"\"$ .

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Differentiate on each side with respect to $\"image\"$ .

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$\"\"$

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Power rule of derivative : $\"\"$ .

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Constant rule of derivative : $\"\"$ .

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$\"\"$

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At $\"\"$ , slope of the tangent line is $\"\"$ .

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The point-slope form of line equation is $\"\"$ .

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Substitute $\"\"$ and $\"\"$ in the point slope form.

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$\"\"$

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The tangent line is $\"\"$ .

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$\"\"$

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The curve equation is $\"\"$ .

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Differentiate with respect to $\"image\"$ .

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$\"\"$

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Use the power rule of derivative : $\"image\"$

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$\"\"$

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At $\"\"$ , slope of the tangent line is $\"\"$ .

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The slope point form of line equation is $\"\"$ .

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Substitute $\"\"$ and $\"\"$ in point slope form.

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$\"\"$

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The tangent line eqaution is $\"\"$ .

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$\"\"$

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Graph:

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$\"\"$

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Observe from the graph :

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Both the tangents are perpendular to each other.

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Hence the curve is orthogonal to each other.

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$\"\"$

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The two curve equations are orthogonal to each other.