a+b+c
2+2+2
or 6 inches total
The fact that it has a 30 perimeter tells you nothing about the triangle's angles and very little about the lengths of its sides. The name, if it has any, is indeterminate.
Well, strictly and technically, I guess you can, although it's a weird triangle. Its angles are 0, 0, and 180 degrees, its height and area are both zero, and to look at it you'd never know it's a triangle unless someone tells you, because it looks just like a 25-inch line segment.
The legend tells you the number of inches on a map.
Divide by 36. That tells you how many yards. Divide the remainder by 12. That tells you how many feet. The final remainder tells you the number of inches.
Sure, that is exactly what the triangle inequality tells us!
The fact that it has a 30 perimeter tells you nothing about the triangle's angles and very little about the lengths of its sides. The name, if it has any, is indeterminate.
If ten is the hypotenuse of a right triangle, the Pythagorean theorem tells us that the other side has to be 6.
if one leg is 10-2=8 then Pythagoras tells us 10^2 = 8^2 + leg^2 so second leg squared = 100-64 = 36 so legs are 6 and 8 inches
You can't. The perimeter doesn't reveal the side lengths. It tells you what you get when you add up the three lengths, but there are an infinite number of possible sets of three sides that add up to the same total. For example, a triangle with a perimeter of 22 could have sides of 2, 10, 10 4, 9, 9 5, 7, 10 6, 7, 9 7, 7, 8 . . etc.
Well, strictly and technically, I guess you can, although it's a weird triangle. Its angles are 0, 0, and 180 degrees, its height and area are both zero, and to look at it you'd never know it's a triangle unless someone tells you, because it looks just like a 25-inch line segment.
The legend tells you the number of inches on a map.
Depends on the size of the triangle. Triangle only tells the shape, not the size.
Divide by 36. That tells you how many yards. Divide the remainder by 12. That tells you how many feet. The final remainder tells you the number of inches.
To find the height of an equilateral triangle, you can use the formula: height = (√3/2) * side length. For an equilateral triangle with side lengths of 8 inches, the height would be (√3/2) * 8 inches, which simplifies to approximately 6.93 inches. This height represents the perpendicular distance from any vertex to the opposite side in an equilateral triangle.
Answer: Right Triangle Note that 25+144=169 which is 13 squared. This tells us it is a right triangle.
A formula is an expression that tells how the numbers in a determined set of cells are to be calculated in a spreadsheet program like Microsoft Excel or Google Sheets.
You use the Pythagorean Theorem, which says that the square of the hypotenuse of a right triangle is the sum of the squares of the other two sides. Two adjacent sides of a square (or any rectangle) together with a diagonal form a right triangle. In the case of a square, the triangle is isosceles. Calling the length of a side of the square (17 inches) one unit, the theorem tells us that the hypotenuse is the square root of 2 units. Therefore the diagonal of the square is 17 times the square root of 2 inches, which is about 24 inches.