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The numbers of 3, 4 and 5 are an example of a Pythagorean triplet

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Since there are an infinite amount of whole numbers to make Pythagorean triples, there would be an infinite amount of Pythagorean triples to make.

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Accept 3 natural numbers and check whether it firms pythagorean triplet

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You seem to have squashed the numbers together but 4, 3 and 5 make up a Pythagorean triple.

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for numbers a,b, and c to be a pythagorean triple, they must obey the rule a^2+b^2=c^2. This is not true of 3 numbers picked at random of course.

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The Pythagorean thereom is a^2+b^2=c^2. So, you can tell if they are a Pythagorean triple by seeing if the two smaller numbers squared equal the largest number squared. Example. Are 3,4, and 5 a Pythagorean triple? 3^2= 9. 4^2= 16. 5^2= 25. 9+16=25, so they are a triple.

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Square them and compare the largest answer with the sum of the other two.

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A "Pythagorean triple" is a set of 3 numbers that fits the Pythagorean Theorem.

So your question is: "Do 2, 6, and 8 form a Pythagorean triple ?", and the answer

is either 'yes' or 'no'.

(2)2 = 4

(6)2 = 36

4 + 36 = 40

(8)2 = 64

40 is not equal to 64.

So the answer is "no".

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If you have two lengths of the triangle, the Pythagorean theorem will help you find the third. As it is, you need to find two numbers whose squares add up to 1296. There are a lot of possibilities.

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They are call Pythagorean triples as for example 3, 4 and 5

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3 whole numbers that are the three sides of a right triangle. 3,4,5; 5,12,13

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The one in which the square of the biggest one is equal to

the sum of the squares of the other two is.

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6, 8, and 10 is simply a scaled up version of a 3,4,5 triangle (simply double each side). Since 3,4,5 is a Pythagorean triple, so is the scaled up triangle.

Alternatively, since 6, 8, and 10 are integers (whole numbers) that fulfill the Pythagorean theorem (62 + 82 = 102 ), they are a Pythagorean triple.

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It need not be. There are infinitely many Pythagorean triangles whose sides are not only rational, but whole numbers. For example, (3, 4, 5), (5, 12, 13), (7, 24, 25).

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If they are a Pythagorean triple then they will form a right angle triangle

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usually Pythagorean is named after pythagoras

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a2 + b2 = c2 a = a leg of the triangle, b = the other leg of the triangle, and c = the hypotenuse

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Hippasus, a Pythagorean philosopher is believed to have proven the existence of numbers that are not rational. However, this is not quite the same as "known for". Many (most?) mathematicians would not know who Hippasus was or what he did.

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A Pythagorean Triple is a set of three numbers that are related like this:

(The square of one of them) = (the square of another one) + ( the square of the third one)

If three numbers are related that way, then they can be the lengths of the sides of

a right triangle. If they're not, then they can't.

They're called a "Pythagorean Triple" because the ancient Greek mathematician Pythagoras

was the one who wrote the famous formula that describes the relationship among the

sides of every right triangle. That's his formula, up in the second line of this answer.

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It was a religous cult founded by Pythagoras that thought everything depended on numbers, and math. They were divided into two groups, the mathematikoi and the akousmatikoi.

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Yes, they are a simple multiple of the Pythagorean Triple 5-12-13

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If you mean the three numbers, 12, 16, and 18 - try it out! Use a calculator to check whether 122 + 162 = 182 or not.

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3,4,5

1,2,3 these are sets of pythagorean triples

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The numbers given make up the dimensions for a right agnle triangle which always contain a 90 degree angle and 2 acute angles.

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It does not.

If you consider a right angled triangle with minor sides of length 1 unit each, then the Pythagorean theorem shows the third side (the hypotenuse) is sqrt(2) units in length. So the theorem proves that a side of such a length does exist. However, it does not prove that the answer is irrational. The same applies for some other irrational numbers.

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Yes.

The square of an odd number is odd.

So, if a, b and c are odd then a2, b2 and c2 are also all odd.

But the sum of two odd numbers must be even. So for these to be Pythagorean, all three squares cannot be odd.

Thus there are no odd triplets.

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Yes because the given numbers complies with Pythagoras' theorem for a right angle triangle

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yes, the shorter sides are 6.6 and 8.8 and the hypotenuse is 11, by Pythagorean theorem

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The Pythagorean theorem uses the right triangle.

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Pythagoras was well known for the Pythagorean Theorem.

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Oh yes, the Pythagorean Theorem has been proven.

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They are 3 numbers that comply with Pythagoras' theorem of a right angle triangle such as 3, 4 and 5.
They are 3 numbers that comply with Pythagoras' theorem for a right angle triangle such as 3, 4 and 5

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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.

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There are infinitely many triplets, and in general, they do not have a name. If all three are integers, then they are known as Pythagorean triplets.

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Nearly but not quite a Pythagorean triple

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If you mean 3, 4 and 5 then yes it is a Pythagorean triple

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No, the multiple of any random triple is not a Pythagorean triple.

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the sides of a triangle on which the Pythagorean theorem can be applied is called Pythagorean triplet

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They were known to the ancient civilisations. Irrational numbers are supposed to have been discovered by Hippassus of Metapontum, a member of the Pythagorean school in ancient Greece (5th Century BC).

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the standard form of the Pythagorean Theorem is :

a2 + b2 = c2

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You can use pythagorean theorem twice to find the diagonal of a cube

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The Pythagorean theorem is a2 + b2 = c2

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