It is decreased by half. If you decrease the width by half and leave the length alone, you get the same result.
Equally.
1
The width decrease according to the inverse relationship, W = 300/Length
If you increase the length then the width must decrease by the same amount if the perimeter is to remain the same.
This length (diagonal) = sq.rt ( l2 + b2 ) where 'l' is length of the rectangle and 'b' is the breadth of the rectangle.
Equally.
The width of the rectangle will decrease as the length increases .
1
The width decrease according to the inverse relationship, W = 300/Length
If you increase the length then the width must decrease by the same amount if the perimeter is to remain the same.
The length of the rectangle is 18cm. The width of the rectangle is 9cm.
The length is the longest side in the rectangle.
If the length and width of a rectangle are both multiplied by K, then the originalperimeter is multiplied by K, and the area is multiplied by K2 .
if the length is 36 on a rectangle then what is the width of the rectangle
it decrease the wave length
The width and length of a rectangle will vary depending on the size of the rectangle. The width is the shortest side of the rectangle while the length is the longest side.
This length (diagonal) = sq.rt ( l2 + b2 ) where 'l' is length of the rectangle and 'b' is the breadth of the rectangle.