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.
Yes
The set of Pythagorean triple is three dimensional and infinitely large.
Yes because the given dimensions concur with Pythagoras' theorem for right angle triangles.
No. 7*7 = 49 12*12 = 144 14*14 = 196 49 + 144 = 193, which does not equal 196
No, the multiple of any random triple is not a Pythagorean triple.
Nearly but not quite a Pythagorean triple
If you mean 3, 4 and 5 then yes it is a Pythagorean triple
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.
What is the value of x if (13, 84, x) is a Pythagorean triple?
If p and q are integers, then a = p2 - q2 b = 2pq, and c = p2 + q2 form a Pythagorean triple. Furthermore, if p and q are co-prime then the triple is primitive Pythagorean.
A Pythagorean triple is three positive integers a, b, and c, such that a^2 + b^2 = c^2. A well known Pythagorean triplet is (3,4,5). If (a, b, c) is a Pythagorean triplet, then so is (ka, kb, kc) for any positive integer k.
34
No.
No
Let's try it out: 152 + 362 = 392 225 + 1296 = 1521 1521 = 1521 That is a pythagorean triple.
The triple is: 20, 21 and 29