Explanation Given: The polar curve is as below. r = 1 + 2 cos θ . Calculation: Horizontal tangents is obtained when d y d θ = 0 and the vertical tangents is obtained by d x d θ = 0 . Differentiate the curve equation ( r = 3 cos θ ) with respect to θ . r = 3 cos θ d r d θ = − 3 sin θ Write the chain rule for d y d x . d y d x = d y d θ d x d θ = d r d θ sin θ + r cos θ d r d θ cos θ − r sin θ For horizontal tangents, d y d θ = 0 Substitute ( − 3 sin θ ) for ( d r d θ ) and ( 3 cos θ ) for ( r ) in equation ( d r d θ cos θ − r sin θ ) . d x d θ = d r d θ cos θ − r sin θ = ( − 3 sin θ ) cos θ − 3 cos θ sin θ = − 3 ( 2 sin θ cos θ ) = − 3 sin θ d y d θ = d r d θ sin θ − r cos θ Substitute ( − 3 sin θ ) for ( d r d θ ) and ( 3 cos θ ) for ( r ) in equation ( d r d θ sin θ − r cos θ ) . d y d θ = d r d θ sin θ − r cos θ d y d θ = − 3 sin θ sin θ − 3 cos θ cos θ = 3 ( cos 2 θ − sin 2 θ ) = 3 cos 2 θ Horizontal tangents is obtained by condition d y d θ = 0 . Substitute ( 3 cos 2 θ ) for ( d y d θ )

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Chapter 10.3, Problem 61E

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To find: The tangent line is horizontal or vertical and the point for the curve r=3cosθ .

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Chapter 10.3, Problem 60E

Chapter 10.3, Problem 62E

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The tangent line is horizontal or vertical and the point for the curve r = 3 cos θ .

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To find: The tangent line is horizontal or vertical and the point for the curve r=3cosθ .

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