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How many non-congruent triangles with perimeter have integer side lengths?
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How many non-congruent triangles with perimeter have integer side lengths? '' |
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In a triangle with integer side lengths, one side is three times as long as a second side, and the length of the third side is 15. What is the greatest possible perimeter of the triangle? ' |
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In quadrilateral , , , , , and is an integer. What is ? |
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Let be a triangle with sides and . For , if and and are the points of tangency of the incircle of to the sides and respectively, then is a triangle with side lengths and if it exists. What is the perimeter of the last triangle in the sequence ? ' |
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From the triangle inequality, and . The smallest positive number not possible is , which is . |
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By the triangle inequality, no side may have a length greater than the semiperimeter, which is . Since all sides must be integers, the largest possible length of a side is . Therefore, all such triangles must have all sides of length , , or . Since , at least one side must have a length of . Thus, the remaining two sides have a combined length of . So, the remaining sides must be either and or and . Therefore, the number of triangles is . |
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Let be the length of the first side. The lengths of the sides are: , , and . By the Triangle Inequality, The largest integer satisfing this inequality is . |
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By the triangle inequality we have , and also , hence . We got that , and as we know that is an integer, we must have . |
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By constructing the bisectors of each angle and the perpendicular radii of the incircle the triangle consists of 3 kites. Hence and and . Let and gives three equations: (where for the first triangle.) Solving gives: Subbing in gives that has sides of . can easily be derivied from this as the sides still differ by 1 hence the above solutions still work (now with ). All additional triangles will differ by one as the solutions above differ by one so this process can be repeated indefinately until the side lengths no longer form a triangle. would have sides but these length do not make a |