In This Lesson 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 Circle Basics Arcs, Sectors & Segments Inscribed Angles Area Formulas Volume & Surface Area 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 Circle Basics A circle is the set of all points equidistant from a center point. This distance is the radius r.
Circumference: C = 2πr
The circle equation is a conic section — one of the four curves obtained by slicing a cone. The constant π ≈ 3.14159 appears throughout mathematics; see the formula sheet for its properties.
Arcs, Sectors & Segments
Arc length: s = rθ (θ in radians)
These formulas use radians — the natural angle measure for trigonometry and calculus . One full revolution = 2π radians = 360°.
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 Example: Arc length for θ = π/3 on r = 6 s = 6 · π/3 = 2π ≈ 6.28
Inscribed Angles b5qzFyVz9o6kByC0w7no+cxqG3whysxd8ZpE3lrBh6PGAo5bcAdQdjco3lFAc/YFuerATm3pEqFT8A4weUQIXHLwj2UKM1nALEZUw/Piyo3fc2aSdZYA9u96RN8SE4r6bg03mHtHPto6aA/ZcUL6DSVEOstHHMylCJXV7hH2aCNuI5GyUZGmlpNcRqFrfD5luC4X/GFqyQCku2JLGmJ8MXQ4NXet1N03RPpMdY8XnjJx2e9WyRKRwZD8uicDeGjjrrYe1wDqukwhc/soxgF3UqY+MUDVY4mybTcnVGqDhaFartlagm5zzXVC41ifCM0W7P8t3XMO4qiK5x+KgmOLFYbcS3YA958aR9HhmKPWfQ2arijrcy11p8NItZI0zy+DkEjJ8VBMlBf5X4yqrEQXohZiUssBSri/U8QYP/umtX4cEZANkotRYmDRZ6VH9/GBtm0bTrCRKPiro2CF6pOgg5sWXN9k0uITmGuj1KU8bq6XuQSZRKrVzyczEQuqFnBtwsU4lnW3nFVHQgMW9SQN9MKBgfmaZZQpq5OYZErqmzFvRjjXwKBeN0LsPak+S+UeO8exnt+IryOIdkHwmTKZlXM9CDSXl78X9VtgrkxKZuNqMWd1JVZgmsChWL+MU6WzC8kzY1EmqEIaaH5bPSQd9Aq/3TEAoqHHUz6Yj6 An angle inscribed in a circle (vertex on the circumference) is half the central angle that subtends the same arc:
Inscribed angle = ½ × central angle
Special case: An inscribed angle that subtends a semicircle is always 90° — Thales' theorem . This ancient result connects circles to right triangles .
A comprehensive reference for all 2D shapes (also on the formula sheet ):
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
The area of a circle can be derived using
integration : A = ∫₋ᵣ ʳ 2√(r² − x²) dx = πr². This is one of the first applications of integral calculus to geometry.
Volume & Surface Area 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
Rectangular prism: V = lwh, SA = 2(lw + lh + wh)
The volume formulas for cones and pyramids (with the ⅓ factor) can be proved rigorously using integral calculus . Archimedes originally derived the sphere volume using a brilliant geometric argument — one of the greatest achievements of ancient mathematics.
In
linear algebra , the
determinant of a matrix gives the volume scaling factor of the associated linear transformation. A 3×3 matrix with determinant 2 doubles all volumes. This connects geometric volume to algebraic structure.