The triangle is a right triangle so the hypotenuse, c, can be found using the Pythagorean theorem.

We have found that c=50.

We can use the Pythagorean theorem to solve for missing leg lengths as well.

Notice that in this example, 2500 is a perfect square so our answer for c is an integer. This means \left\{ 14, 48, 50\right\} is a Pythagorean triple.

We want to use the converse of the Pythagorean theorem to determine if the triangle is a right triangle.

Let a and b represent the two shorter side lengths. The hypotenuse will be c.

Once we have labeled the sides, we want to find the value of a^2+b^2 and the value of c^2.

If a^2+b^2=c^2 then the triangle is a right triangle by the converse of the Pythagorean theorem.

If a^2+b^2 \neq c^2 then the triangle is not a right triangle for the same reason.

Let a=9, b=16, and c=18. Now we can calculate the following:

And

This is not a right triangle because 337 \neq 324 so a^2+b^2 \neq c^2

We know the length of the diagonal of the monitor is 19 inches. We also know that the lengths of the width and height are in a ratio of 4:3, but we don't know the exact length of either the width or height.

We can use this information by letting the width be 4x inches and the height be 3x inches, and draw a diagram as follows:

From the diagram we have drawn, we can use the Pythagorean theorem to find x, and then determine the dimensions of the monitor from there:

So we have that x = \dfrac{19}{5} = 3.8 inches. We can now use this to determine the width and height of the monitor:

• \text{Width}\, = 4x = 4\left(3.8\right) = 15.2\, \text{in}
• \text{Height}\, = 3x = 3\left(3.8\right) = 11.4\, \text{in}