Triangle Inequality states that for any real numbers a and b,
|a| + |b| ≥ |a + b|.
In proving this theorem, we use the definition of absolute value of a number. The absolute value of a number is x if x > 0 (*), –x if x < 0 (**) and 0 if x = 0 (**). For instance, the absolute value of 5 is 5 since 5 > 0. On the other hand, the absolute value of -3 is -(-3) = 3. Clearly, the absolute value of 0 is 0. The geometric representation of triangle inequality is shown above (see Demystifying Triangle Inequality). It states that a triangle can only be formed if the combined length of any two sides is greater than that of the third sides. Using the definition of absolute value, we now prove the theorem. Continue reading