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Albert1
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Triangle ABC with side lengths a,b,c please prove :
$ \sqrt {ab}+\sqrt {bc}+\sqrt {ca}\leq a+b+c<2\sqrt {ab}+2\sqrt {bc}+2\sqrt {ca}$
$ \sqrt {ab}+\sqrt {bc}+\sqrt {ca}\leq a+b+c<2\sqrt {ab}+2\sqrt {bc}+2\sqrt {ca}$
proof of left side:Albert said:Triangle ABC with side lengths a,b,c please prove :
$ \sqrt {ab}+\sqrt {bc}+\sqrt {ca}\leq a+b+c<2\sqrt {ab}+2\sqrt {bc}+2\sqrt {ca}$
proof of right side:Albert said:proof of left side:
$2\sqrt {ab}\leq a+b----(1)$
$2\sqrt {bc}\leq b+c----(2)$
$2\sqrt {ca}\leq c+a----(3)$
(1)+(2)+(3):$2(\sqrt {ab}+\sqrt {bc}+\sqrt {ca})\leq 2(a+b+c)$
$\therefore \sqrt {ab}+\sqrt {bc}+\sqrt {ca}\leq a+b+c$
The triangle inequality theorem states that the sum of any two sides of a triangle must be greater than the third side.
To prove the triangle inequality theorem, you can use the direct method or the contrapositive method. The direct method involves showing that the sum of any two sides is greater than the third side, while the contrapositive method involves showing that if the sum of any two sides is not greater than the third side, then a triangle cannot be formed.
The triangle inequality theorem is important because it is a fundamental concept in geometry and is used to prove many other theorems and geometric properties. It also helps us determine if a given set of side lengths can form a valid triangle.
No, the triangle inequality theorem only applies to triangles. However, there are similar inequalities for other shapes, such as the polygon inequality for polygons.
Yes, there are a few exceptions to the triangle inequality theorem. In non-Euclidean geometries, such as spherical geometry, the triangle inequality may not hold. Additionally, in degenerate triangles, where one or more sides have length 0, the triangle inequality may not hold.