FG should be 12.2²-12²(half of 24)=4.84 then square root it which equals 2.2 and then you double it so the answer is 4.4
The longer diagonal bisects the shorter diagonal.
The diagonal line of a rectangle for example is greater than its length.
A kite need not have any right angles.It can have no right angles (the most common type of kite);It can have 1 right angle (where the two shorter sides, or the two longer sides meet); orIt can have 2 right angles (one between the two shorter sides, and one between the two longer sides)If it has 4 right angles it degenerates into a Rhombus as all four sides must be equal in length; but this rhombus with all four angles equal (at 90°) is called a Square.
Subtract the squared longer leg's squared length from the hypotenuse's square to obtain the squared shorter leg length. Then find the square root of that answer for your final answer. In other words: 53 squared minus 45 squared equals your squared answer.
The shorter leg is 6 feet long
310
On squares and rectangles, yes. But on parallelograms and rhombus the one diagonal can be shorter than one of the sides.
The longer diagonal bisects the shorter diagonal.
Kites, arrowheads.
The diagonals are perpendicular to one another. The shorter diagonal is bisected by the longer diagonal. The kite is symmetrical about the longer diagonal. The longer diagonal bisects the angles at each end of the diagonal.
Diagonals of a rhombus are perpendicular so the product is the area. If x is the smaller diagonal, the longer is 4x, and the area if 4x2.
No, they do not. Only the longer diagonal bisects the shorter diagonal.
Yes, the length of a pendulum affects its swing. The oscillation will be longer with a longer length and shorter with a shorter length.
Either of the longer and shorter sides, but the length is usually the longer side and width is usually the shorter side.
The diagonal line of a rectangle for example is greater than its length.
Shorter.
shorter