No
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Difference of opinion! I say yes. The base of a portrait page is its width (shorter side) but of a landscape page is its length (longer side).
Area circle: π × radius² Area triangle: ½ × base × height Area Parallelogram: base × height Area: Rectangle: length × width In a triangle, the base is any side between two vertices and the height is the perpendicular distance from this side to the third vertex. In a parallelogram the base is any side. The height is the perpendicular distance between this side and the side parallel to it.
if a base of a rectangle is 0 then it is impossible for it to have 4 sides-it can only have one, because 0 cannot be a side length and therefore two of the sides are eliminated. The result is 2 line segments so close to each other that they are one. however, since by definition a rectangle has 4 sides, if a base or any other side (think about it) has a length of 0 in a rectangle, it is not a rectangle. simply put, there is no rectangle with a side length of 0.byagaboowu
The base of a rectangle is a length and does not have any area. Therefore, the area can not be calculated.
No. "The lengths of adjacent sides can be different." True for a rectangle, not true for a square.
Possibly. The perimeter of a rectangle is the distance around the outside of the rectangle. A rectangle has four sides with opposite sides being congruent. The formula for finding the perimeter is Side A + Side B + Side A + Side B-Devon
Area circle: π × radius² Area triangle: ½ × base × height Area Parallelogram: base × height Area: Rectangle: length × width In a triangle, the base is any side between two vertices and the height is the perpendicular distance from this side to the third vertex. In a parallelogram the base is any side. The height is the perpendicular distance between this side and the side parallel to it.
if a base of a rectangle is 0 then it is impossible for it to have 4 sides-it can only have one, because 0 cannot be a side length and therefore two of the sides are eliminated. The result is 2 line segments so close to each other that they are one. however, since by definition a rectangle has 4 sides, if a base or any other side (think about it) has a length of 0 in a rectangle, it is not a rectangle. simply put, there is no rectangle with a side length of 0.byagaboowu
The base of a rectangle is a length and does not have any area. Therefore, the area can not be calculated.
No. "The lengths of adjacent sides can be different." True for a rectangle, not true for a square.
It is 5!!!! It can be any number
yes, as long as 2 sides are parallel, its a parallelogram.
The question cannot be answered because there is an error in the information provided. If the base of a rectangle is 18m, and the side is 20 m, then the area cannot be 108m. (It cannot be any number of metres since area must be measured in square metres, but that is another matter)
Possibly. The perimeter of a rectangle is the distance around the outside of the rectangle. A rectangle has four sides with opposite sides being congruent. The formula for finding the perimeter is Side A + Side B + Side A + Side B-Devon
Base times height. This gives you the area of a rectangle or any square.
Is rectangle and any parallelogram not square or rhombus
Circle:-- Perimeter ("circumference") = (pi) x (diameter) or (2 pi) x (radius)-- Area = (pi) x (radius)2 or (1/4 pi) x (diameter)2Triangle:-- Perimeter = (length of Side-#1) + (length of Side-#2) + (length of Side-#3)-- Area = 1/2 (length of triangle's base) x (triangle's height)Quadrilateral:Perimeter-- Any quadrilateral:(length of Side-#1) + (length of Side-#2) + (length of Side-#3) + (length of Side-#4)-- Parallelogram, rectangle, or kite: 2 x (length of 1 long side + length of 1 short side)-- Rhombus or square: 4 x (length of any side)Area-- Parallelogram, rhombus, rectangle, square: (length of base) x (height)-- Rectangle, square: (length) x (width)-- Square: (length of any side)2-- Trapezoid: 1/2 (height) x (length of Base-#1 + length of Base-#2)
The answer will depend on the relationship - if any - between the rectangle and the triangle.