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What’s Floyd’s Triangle?

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Floyd’s triangle is a right triangle of numbers used to teach computer programming. It requires mastery of loops and integer mathematics. It also defines triangular numbers and the lazy restaurateur sequence, and is often taught with Pascal’s triangle.

Floyd’s triangle is a series of numbers distributed sequentially across a series of lines. It is used to teach the basics of computer programming. The first row contains a 1 by itself and the second row contains 2 and 3. The next row contains 4, 5 and 6 and the numbers continue in this pattern indefinitely. The result is a right triangle, with numbers spaced at even intervals.

The shape of Floyd’s triangle is not complicated. Most of the trick is designing a program to generate the numbers in order and with the correct spacing, with only minimal commands. Computer programming instructors who teach both Java and C++ frequently assign Floyd’s triangle problems to students to teach fundamental programming principles.

Building the triangle formula involves complex math and integer solving skills that are essential in larger programming projects. Each running row of the triangle builds on the previous one, but is not a total sum. To generate a computer program that systematically builds the triangle to a certain specified size, students must understand integer mathematics and apply it to the language of scripts and the unique lexicon of computer coding.

Properly coding Floyd’s triangle requires a mastery of loops. In C++ and Java coding, loops are code structures that depend on statements or groups of statements being executed multiple times. The instruction must contain an undefined integer that is uniquely defined on each cycle.

The Floyd triangle also contains mathematical meaning outside the programming industry. In addition to being a perfect exponentially expanding right triangle, it also defines both the triangular numbers and the numbers that make up the “lazy restaurateur sequence.” Both are aspects of polynomials and geometric calculations.
Triangular numbers are the numbers that result when sequential numbers are added in series. The calculation starts with 1, which is the first triangular number. Thus, 1+2=3, making 3 the second triangular number; the entire calculation is then added to the next number, resulting in (1+2)+3=6. From there, (1+2+3)+4=10 and so on. Not surprisingly, the numbers 1, 3, 6 and 10 are found on the right edge of Floyd’s triangle.
The left edge contains the numbers of the lazy restaurateur sequence. That sequence describes the maximum number of pieces that can result when straight lines are used to bisect a circle. The pieces don’t have to be equal, because the lines don’t have to go directly through the center circle. The possible numbers can be generated with the formula (n2 + n + 2)/2, which produces a list starting with 1, 2, 4, 7 and 11 — the numbers at the beginning of the first five rows of the Floyd triangle.
Math instructors often teach Floyd’s triangle in conjunction with Pascal’s triangle, which is another collection of ordered numbers that sheds light on various mathematical patterns and formulas. Pascal’s triangle is an equilateral triangle formed by the construction of binomial coefficients. This triangle can also be hard coded into computer programming, although the programming required is usually more advanced than the programming required for Floyd’s model.

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