Yes!
Because it is a large poopy
Area of any rectangle in square units = base*width
The answer depends on what your criterion for deciding what is "largest". Any rectangle will have an area of 47916 square feet. Its perimeter can be infinitely large.
It is not. The perimeter of a 1 cm square is 4 cm. The perimeter of a 5 km * 15 km rectangle is 4000000 cm: a million times as large!
You cannot make a rectangle without using squares. In fact, you cannot make a rectangle even using squares if you're also required to use at least one non-square block. But it's easy to make shapes that have provably the same area as large squares and rectanges if you combine the 15 degree angle of the white rhombus with any 60 degree angled shape - the equilateral triangle for example - to make right angles. The white rhombus is necessary - without it, the remainder of the shapes have only 60 and/or 120 degree angles.
Area of rectangle is lenth by breath.So mm by mm will give area of mm square.
For a parallelogram that is NOT a rectangle or square (i.e. a rhombus or rhomboid), multiply the base times the height. Draw a line through the parallelogram so that it is a large rectangle in the middle, and two small triangles to each side.Now you can see that the area of the parallelogram is the same as a rectangle of the same height and width. You must use the "height" (distance between top and bottom), not the length of the slanted sides.Area = base times height. (A=bh)Area = base*heightBase x height
No. You could, for example, have a square and a rhombus with sides twice as large.
Sometimes. Experiment with a small square and with a large square (though any shape rectangle will do). A square of 4 x 4 has a perimeter of 16, and an area of 16. A smaller square has more perimeter than area. A larger square has more area than perimeter.
Minimum is when the figure is a square, in this case the perimeters 4 times the square root of 48. There is no maximum, i.e., you can make the perimeter as large as you like.
Maybe... the fraction of the rectangle and the large rectangle makes both of them to represent so that they can connect back together again.
The area of any rectangle, large or small, is calculated by multiplying length times width.