The legs of a right triangle have the same length and the hypotenuse is 30 ft, each leg would be of length 21.21 ft.
To find the length of the hypotenuse of a right triangle, use the Pythagorean Theorem: A2 + B2 =C2Where A and B are the lengths of the legs, and C is the length of the hypotenuse.(16)2+(30)2=C2C=sqrt(256+900)C=34
If the hypotenuse (c) on a 30-60-90 triangle is six units, the lengths of the two legs are:a = 3b = 5.196
If it is a right angle isosceles triangle then by using Pythagoras' theorem its hypotenuse is 30 times the square root of 2
The hypotenuse is 30.
The legs of a right triangle have the same length and the hypotenuse is 30 ft, each leg would be of length 21.21 ft.
To find the length of the hypotenuse of a right triangle, use the Pythagorean Theorem: A2 + B2 =C2Where A and B are the lengths of the legs, and C is the length of the hypotenuse.(16)2+(30)2=C2C=sqrt(256+900)C=34
Using Pythagoras' theorem for a right angle triangle its hypotenuse length is 78 in.
7.44 - 7.45
There's no such thing as the "length of a 30-60-90". The ratios of the lengths of the legs of such a triangle to the length of the hypotenuse are 1/2 and 1/2(sqrt(3).
If the hypotenuse (c) on a 30-60-90 triangle is six units, the lengths of the two legs are:a = 3b = 5.196
If it is a right angle isosceles triangle then by using Pythagoras' theorem its hypotenuse is 30 times the square root of 2
-- The side opposite the 90° angle, known as the hypotenuse, is the longest of the three sides. The other two sides are called the "legs". -- The length of the leg opposite the 30° angle is 1/2 of the hypotenuse. -- The length of the leg opposite the 60° angle is 1/2 of the hypotenuse times sqrt(3). -- The sum of the squares of the lengths of the legs is the square of the length of the hypotenuse.
The hypotenuse is 30.
Use the sine ratio: sine 30 = opposite/12 opposite = 12*sine 30 opposite = 6 inches
Hypotenuse = 24
H = sqrt (324 + 576) = sqrt 900 = 30 in