## You are here

Homesquare root of 3

## Primary tabs

# square root of 3

The *square root of 3*, also known as *Theodorus’s constant*, is the number the square of which is equal to the integer 3. It is an irrational number, one of the first few to have been proved irrational. Theodorus of Cyrene proved that the square roots of the integers 3, 5 to 8, 10 to 15 and 17 are all irrational. The decimal expansion of $\sqrt{3}$ is 1.7320508075688772935… (sequence A002194 in Sloane’s OEIS). Its simple continued fraction is

$1+\frac{1}{1+\frac{1}{2+\frac{1}{1+\frac{1}{2+\ldots}}}},$ |

repeating 1 and 2 periodically (Sloane’s A040001).

Given a unit cube, the diagonal from the vertex joining three sides to the other vertex joining the three other sides is $\sqrt{3}$. Given a unit hexagon, the distance from one side to the parallel opposite side is $\sqrt{3}$. More generally, the ratio of the length of a side of a hexagon to the distance from that side to the opposing parallel side is $1:\sqrt{3}$, and the same ratio applies to the length of the side of a cube to the diagonal of that cube.

# References

- 1 M. F. Jones, “22900D approximations to the square roots of the primes less than 100”, Math. Comp 22 (1968): 234 - 235.
- 2 H. S. Uhler, “Approximations exceeding 1300 decimals for $\sqrt{3}$, $\frac{1}{\sqrt{3}}$, $\sin(\frac{\pi}{3})$ and distribution of digits in them” Proc. Nat. Acad. Sci. U. S. A. 37 (1951): 443 - 447.

## Mathematics Subject Classification

11A25*no label found*

- Forums
- Planetary Bugs
- HS/Secondary
- University/Tertiary
- Graduate/Advanced
- Industry/Practice
- Research Topics
- LaTeX help
- Math Comptetitions
- Math History
- Math Humor
- PlanetMath Comments
- PlanetMath System Updates and News
- PlanetMath help
- PlanetMath.ORG
- Strategic Communications Development
- The Math Pub
- Testing messages (ignore)

- Other useful stuff
- Corrections