If you mean the three numbers, 12, 16, and 18 - try it out! Use a calculator to check whether 122 + 162 = 182 or not.
Pythagorean triplets
Since there are an infinite amount of whole numbers to make Pythagorean triples, there would be an infinite amount of Pythagorean triples to make.
If you mean 3, 4 and 5 then yes it is a Pythagorean triple
the sides of a triangle on which the Pythagorean theorem can be applied is called Pythagorean triplet
There are several types of Pythagorean theorems, primarily categorized into three main types: the standard Pythagorean theorem for right triangles, the generalized Pythagorean theorem for n-dimensional spaces, and the Pythagorean theorem in different number systems, like the Pythagorean triples in integers. Additionally, there are variations such as the converse Pythagorean theorem and applications in various geometric contexts. Each type maintains the core principle of the relationship between the sides of a right triangle or its generalized forms.
The GCF of one number is itself.
The denominator for any whole number is 1.
usually Pythagorean is named after pythagoras
Pythagorean triplets
3,4,5 1,2,3 these are sets of pythagorean triples
The numbers of 3, 4 and 5 are an example of a Pythagorean triplet
The Pythagorean theorem uses the right triangle.
Pythagoras was well known for the Pythagorean Theorem.
Oh yes, the Pythagorean Theorem has been proven.
Since there are an infinite amount of whole numbers to make Pythagorean triples, there would be an infinite amount of Pythagorean triples to make.
There are infinitely many Pythagorean triples. To find a Pythagorean triple take two positive integers x, y with x > y. A Pythagorean triple is of the form x2 - y2, 2xy, x2 + y2.
Nearly but not quite a Pythagorean triple