You can get 2 triangles by cutting a parallelogram in half
you do it because the triangle is half the size of the parallelogram
There is no record of a parallelogram going on a pilgrimage. Ever!
It is a rhombus because its diagonals meet at right angles.
No, the diagonals of a parallelogram do not necessarily bisect the angles. The diagonals of a parallelogram divide it into four congruent triangles, but they do not necessarily bisect the angles of those triangles.
You can get 2 triangles by cutting a parallelogram in half
you do it because the triangle is half the size of the parallelogram
There is no record of a parallelogram going on a pilgrimage. Ever!
It is a rhombus because its diagonals meet at right angles.
If you know its area then divide its height into the area which will give the length of the base of the parallelogram
No, the diagonals of a parallelogram do not necessarily bisect the angles. The diagonals of a parallelogram divide it into four congruent triangles, but they do not necessarily bisect the angles of those triangles.
Too many dimensions have been given because the area of a parallelogram is length times perpendicular height.
Select any side. Divide its length into 8 equal sections using 7 points. From each division point, draw a line parallel to to the adjacent side across the parallelogram. The seven lines will divide the parallelogram into 8 pieces.
An infinite number of times.
The formula for area of a parallelogram is bh. Base times height.
The Area of a parallelogram is Area=base times height.
For a parallelogram, take the base times the height. For a trapezoid, take the smaller base and times it by the height.