Ellipse Circumference Calculator

Q: What is the circumference of an ellipse?

The circumference (perimeter) of an ellipse is the total length of its boundary. Unlike a circle, there is no simple exact formula for an ellipse's circumference. It requires either infinite series calculations or approximation formulas like those developed by mathematician Ramanujan.

Q: Why is there no exact formula for ellipse circumference?

The ellipse circumference involves an elliptic integral, which cannot be expressed using elementary functions. This is why mathematicians have developed various approximation formulas. The Ramanujan II approximation provides accuracy better than 0.0001% for most practical applications.

Q: What is the most accurate formula for ellipse circumference?

The Ramanujan II approximation formula C = pi(a+b)(1 + 3h/(10 + sqrt(4-3h))) where h = ((a-b)/(a+b))^2 provides excellent accuracy with errors less than 0.0001% for most ellipses. For even higher precision, an infinite series expansion using elliptic integrals can be computed.

Q: What is the eccentricity of an ellipse?

Eccentricity (e) measures how elongated an ellipse is. It ranges from 0 (a perfect circle) to almost 1 (a very elongated ellipse). It is calculated as e = sqrt(1 - (b/a)^2), where a is the semi-major axis and b is the semi-minor axis. Higher eccentricity means a more stretched ellipse.

Q: What are the semi-major and semi-minor axes of an ellipse?

The semi-major axis (a) is half the longest diameter of the ellipse, while the semi-minor axis (b) is half the shortest diameter. Together they define the size and shape of the ellipse. By convention, a is always greater than or equal to b.

Calculate the circumference (perimeter) of an ellipse using multiple approximation formulas including Ramanujan, exact series, and visualize results with an interactive SVG diagram.

Ellipse Circumference Calculator

Embed Ellipse Circumference Calculator Widget

Ellipse Circumference Results

Note: Values swapped so that a (1.0) is greater than or equal to b (0.5).

Ellipse Circumference

4.8442241081

Using Ramanujan II approximation (highest accuracy)

Ellipse Visualization

Semi-major axis (a)

1.0

Semi-minor axis (b)

0.5

Area

1.5707963268

Eccentricity

0.8660254038

Aspect Ratio (a/b)

Flattening

0.5

Formula Comparison

Compare results from different approximation methods. All methods should give similar values for nearly circular ellipses, but may diverge for highly elongated ones.

Ramanujan II Approximation Best Accuracy

4.8442241081

$$C \approx \pi(a + b)\left(1 + \frac{3h}{10 + \sqrt{4 - 3h}}\right)$$

Accuracy: Excellent (error < 0.0001% for most ellipses)

Ramanujan I Approximation

4.8442105488

$$C \approx \pi\left[3(a + b) - \sqrt{(3a + b)(a + 3b)}\right]$$

Accuracy: Good (error < 0.01% for most ellipses)

Infinite Series (15 terms)

4.8443453828

$$C = 2\pi a \sum_{n=0}^{\infty} \left(\frac{(2n-1)!!}{(2n)!!}\right)^2 \cdot \frac{e^{2n}}{1-2n}$$

Accuracy: Very High (numerical precision)

Simple Approximation

4.9672941329

$$C = 2\pi\sqrt{\frac{a^2 + b^2}{2}}$$

Accuracy: Low (up to 5% error for elongated ellipses)

Alternative Simple Formula

8.1681408993

$$C \approx \pi\left(\frac{6a}{5} + \frac{4b}{5} + \sqrt{2ab}\right)$$

Accuracy: Moderate (educational/comparison)

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About Ellipse Circumference Calculator

Welcome to the Ellipse Circumference Calculator, an advanced free online tool that calculates the perimeter of an ellipse using multiple approximation formulas. Unlike a circle, there is no simple closed-form formula for an ellipse's circumference, making this calculator especially valuable for engineers, architects, students, and anyone working with elliptical shapes.

What is the Circumference of an Ellipse?

The circumference (also called perimeter) of an ellipse is the total length of its curved boundary. While a circle's circumference has the simple formula C = 2πr, an ellipse requires more complex calculations because its curvature varies continuously around its perimeter.

An ellipse is defined by two key measurements:

Semi-major axis (a): Half of the longest diameter, extending from the center to the farthest point on the ellipse
Semi-minor axis (b): Half of the shortest diameter, extending from the center to the nearest point on the ellipse

When a = b, the ellipse becomes a circle, and the circumference simplifies to 2πa.

Why is There No Exact Formula for Ellipse Circumference?

The circumference of an ellipse involves calculating an elliptic integral, a type of integral that cannot be expressed using elementary functions (polynomials, trigonometric functions, exponentials, etc.). This mathematical reality means we must use either:

Numerical integration methods
Infinite series expansions
Approximation formulas

The famous mathematician Srinivasa Ramanujan developed some of the most elegant and accurate approximation formulas, which this calculator implements.

Ellipse Circumference Formulas

Ramanujan II Approximation (Most Accurate)

This is the most accurate simple approximation, with errors typically less than 0.0001%:

Ramanujan II Formula

$$C \approx \pi(a + b)\left(1 + \frac{3h}{10 + \sqrt{4 - 3h}}\right)$$

Where $h = \frac{(a-b)^2}{(a+b)^2}$

Ramanujan I Approximation

A simpler formula that still provides excellent accuracy for most practical applications:

Ramanujan I Formula

$$C \approx \pi\left[3(a + b) - \sqrt{(3a + b)(a + 3b)}\right]$$

Simple Approximation

A basic formula that works reasonably well for nearly circular ellipses:

Simple Formula

$$C \approx 2\pi\sqrt{\frac{a^2 + b^2}{2}}$$

Infinite Series (Exact)

For maximum precision, the circumference can be computed using an infinite series involving the eccentricity:

Infinite Series

$$C = 2\pi a \left[1 - \sum_{n=1}^{\infty} \left(\frac{(2n-1)!!}{(2n)!!}\right)^2 \cdot \frac{e^{2n}}{2n-1}\right]$$

Where $e = \sqrt{1 - \frac{b^2}{a^2}}$ is the eccentricity

How to Calculate Ellipse Circumference

Measure semi-major axis: Determine the semi-major axis (a), which is half of the longest diameter of the ellipse. This is the distance from the center to the farthest point on the boundary.
Measure semi-minor axis: Determine the semi-minor axis (b), which is half of the shortest diameter. This is the distance from the center to the nearest point on the boundary.
Enter values into calculator: Input both measurements into the calculator. The calculator will automatically ensure a is the larger value.
Calculate and analyze results: Click "Calculate Circumference" to see results from multiple formulas, along with an interactive diagram and additional properties like eccentricity and area.

Understanding Eccentricity

The eccentricity (e) of an ellipse measures how elongated it is:

e = 0: A perfect circle (a = b)
0 < e < 1: An ellipse (the larger e is, the more elongated)
e approaching 1: A very elongated ellipse approaching a line segment

Eccentricity is calculated as: $e = \sqrt{1 - \frac{b^2}{a^2}}$

Earth's orbit around the Sun is an ellipse with eccentricity of about 0.017, making it nearly circular. In contrast, Halley's Comet has an orbital eccentricity of about 0.967, making it highly elongated.

Frequently Asked Questions

What is the circumference of an ellipse?

The circumference (perimeter) of an ellipse is the total length of its boundary. Unlike a circle, there is no simple exact formula for an ellipse's circumference. It requires either infinite series calculations or approximation formulas like those developed by mathematician Ramanujan.

Why is there no exact formula for ellipse circumference?

The ellipse circumference involves an elliptic integral, which cannot be expressed using elementary functions. This is why mathematicians have developed various approximation formulas. The Ramanujan II approximation provides accuracy better than 0.0001% for most practical applications.

What is the most accurate formula for ellipse circumference?

The Ramanujan II approximation formula provides excellent accuracy with errors less than 0.0001% for most ellipses. For even higher precision, an infinite series expansion using elliptic integrals can be computed with as many terms as needed.

What is the eccentricity of an ellipse?

Eccentricity (e) measures how elongated an ellipse is. It ranges from 0 (a perfect circle) to almost 1 (a very elongated ellipse). It is calculated as e = sqrt(1 - (b/a)^2), where a is the semi-major axis and b is the semi-minor axis. Higher eccentricity means a more stretched ellipse.

What are the semi-major and semi-minor axes of an ellipse?

The semi-major axis (a) is half the longest diameter of the ellipse, while the semi-minor axis (b) is half the shortest diameter. Together they define the size and shape of the ellipse. By convention, a is always greater than or equal to b.

Real-World Applications

Astronomy and Space Science

Planetary orbits are elliptical. Calculating orbital circumferences helps determine the total distance traveled in one orbit and is essential for mission planning and satellite deployment.

Architecture and Construction

Elliptical arches, domes, and windows require precise perimeter calculations for material estimation, molding, and trim work.

Engineering and Manufacturing

Elliptical pipes, tanks, and mechanical components need accurate circumference calculations for gaskets, seals, and manufacturing specifications.

Sports and Athletics

Running tracks, velodrome circuits, and skating rinks often feature elliptical or oval shapes where perimeter calculations determine lap distances.

Additional Resources

Reference this content, page, or tool as:

"Ellipse Circumference Calculator" at https://MiniWebtool.com/ellipse-circumference-calculator/ from MiniWebtool, https://MiniWebtool.com/

by miniwebtool team. Updated: Jan 08, 2026

You can also try our AI Math Solver GPT to solve your math problems through natural language question and answer.

Ellipse Circumference Calculator

Ellipse Circumference Results

Formula Comparison

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Related MiniWebtools:

About Ellipse Circumference Calculator

What is the Circumference of an Ellipse?

Why is There No Exact Formula for Ellipse Circumference?

Ellipse Circumference Formulas

Ramanujan II Approximation (Most Accurate)

Ramanujan I Approximation

Simple Approximation

Infinite Series (Exact)

How to Calculate Ellipse Circumference

Understanding Eccentricity

Frequently Asked Questions

What is the circumference of an ellipse?

Why is there no exact formula for ellipse circumference?

What is the most accurate formula for ellipse circumference?

What is the eccentricity of an ellipse?

What are the semi-major and semi-minor axes of an ellipse?

Real-World Applications

Astronomy and Space Science

Architecture and Construction

Engineering and Manufacturing

Sports and Athletics

Additional Resources

Geometry Calculators:

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Semi-major axis (a):	Half of the longest diameter
Semi-minor axis (b):	Half of the shortest diameter