Consider the line segment between the points of (6, 8) and (3, 4)
Using Pythagoras' theorem its length is: (6-3)squared+(8-4)squared = 25
So the square root of 25 is 5 which is the length of the line
By using Pythagoras' theorem.
Use Pythagoras' theorem
It is Pythagoras' theorem
For the right angle triangle to comply with Pythagoras' theorem then c, which will be the hypotenuse, must be 10 units in length. Pythagoras' theorem: 82+62 = 100 and the square root of this is 10 which is the length of the hypotenuse.
If it's a right angle triangle then use Pythagoras' theorem.
Pythagoras' theorem can be used for right-angled triangles. Using the theorem, you are able to calculate what the length of one side of a triangle is.
It is Pythagoras' theorem.
They can measure height and length from a distance using Pythagoras' theorem
Pythagoras' theorem states that for any right angled triangle the length of the hypotenuse when squared is equal to the sum of the length of the base plus the length of the height when both are squared: base2+height2 = hypotenuse2
By using Pythagoras' theorem.
Use Pythagoras' theorem
Pythagoras' theorem is only a theory because when the sides of a right angle triangle are equal then the length of its hypotenuse will be an irrational number which can't be finally determined.
It is Pythagoras' theorem
For the right angle triangle to comply with Pythagoras' theorem then c, which will be the hypotenuse, must be 10 units in length. Pythagoras' theorem: 82+62 = 100 and the square root of this is 10 which is the length of the hypotenuse.
If it's a right angle triangle then use Pythagoras' theorem.
Using Pythagoras' theorem the length of the hypotenuse is 37
With Pythagoras' theorem: diagonal2- length2 = width2