The volume of a solid formed by rotating the curve x = g(y) about the y-axis is given by which integral?

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Boost your skills in A Level Further Mathematics Core Pure. Study with flashcards and multiple choice questions, each question is followed by hints and explanations. Get prepared for your exam with confidence!

Multiple Choice

The volume of a solid formed by rotating the curve x = g(y) about the y-axis is given by which integral?

Explanation:
Rotating a region about a vertical axis and using discs means each cross-section perpendicular to the axis is a circle whose radius is the distance to the axis. Here that distance is x, and since x = g(y), the radius of a disk at height y is g(y). A thin slice at height y contributes a volume dV = area × thickness = π[g(y)]^2 dy. Integrating over the y-range of the region gives V = π ∫ g(y)^2 dy. Because x is the radius, you can also write this as π ∫ x^2 dy, with x understood as the function g(y). That matches the intended form. The other forms don’t align with using discs around the y-axis or with the radius being the x-value.

Rotating a region about a vertical axis and using discs means each cross-section perpendicular to the axis is a circle whose radius is the distance to the axis. Here that distance is x, and since x = g(y), the radius of a disk at height y is g(y).

A thin slice at height y contributes a volume dV = area × thickness = π[g(y)]^2 dy. Integrating over the y-range of the region gives V = π ∫ g(y)^2 dy. Because x is the radius, you can also write this as π ∫ x^2 dy, with x understood as the function g(y). That matches the intended form. The other forms don’t align with using discs around the y-axis or with the radius being the x-value.

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