How to find the area of a right triangle without the height?
To find the area of a right triangle without the height, you need to use some Pythagorean Theorem rules. The Pythagorean Theorem is a relationship between the length of two sides of a right triangle and the hypotenuse. It’s named after pythagoras a famous ancient Greek mathematician. There are two Pythagorean Theorem rules you can use to find the area of a right triangle without the height.
How to find area of a triangle without the height and base?
Any right triangle has three sides which when added together form the total area of the triangle. If a right triangle has no height, then it is a isosceles triangle. The two legs or base are equal in length. In case you don’t know the length of the base, then you can divide the total area of the triangle by two. This assumption will help you to find the area without the height.
How to find the area of a triangle without the height and base?
This is a bit trickier than the previous method as you have to use your calculator. First, you need to know the base, which is the length of the other leg. If you know the length of the legs of a right triangle, you can calculate the area of the triangle with a calculator. To find the area of a right triangle without the height, you will need to use the Pythagorean Theorem. All you need to do is plug in the length of the legs in the
How to find the area of a triangle
The area of an isosceles triangle is equal to half the base times the height. A right triangle has base length equal to either one or two legs, so to find the area of a right triangle, you need to know how long each leg is. In any right triangle, a leg is the side opposite the right angle, so if the hypotenuse is the opposite leg, then the leg opposite the adjacent leg is the remaining leg.
How to find the area of a triangle without the base and height?
This is another trick that can be very confusing to learn. If you’ve ever tried to find the area of a right triangle using the Pythagorean Theorem (a2 = b2 + c2), you’ve undoubtedly run into some errors. The Pythagorean Theorem is great for right triangles with a 90-degree angle, but if you have a 60-90-or 60-135-degree angle, you’ll need to use the Pythagorean