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There is no simple answer - otherwise it would not be a complex shape!
You need to "break up" the complex shape into simple components for which there are formulae and sum the results. If the shape can be shape described by a well-behaved function, you may be able to integrate it to get the answers. Otherwise, you will have to use approximations and/or analogies.
There is no simple answer - otherwise it would not be a complex shape!
You need to "break up" the complex shape into simple components for which there are formulae and sum the results. If the shape can be shape described by a well-behaved function, you may be able to integrate it to get the answers. Otherwise, you will have to use approximations and/or analogies.
There is no simple answer - otherwise it would not be a complex shape!
You need to "break up" the complex shape into simple components for which there are formulae and sum the results. If the shape can be shape described by a well-behaved function, you may be able to integrate it to get the answers. Otherwise, you will have to use approximations and/or analogies.
There is no simple answer - otherwise it would not be a complex shape!
You need to "break up" the complex shape into simple components for which there are formulae and sum the results. If the shape can be shape described by a well-behaved function, you may be able to integrate it to get the answers. Otherwise, you will have to use approximations and/or analogies.
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JordanThere is no simple answer - otherwise it would not be a complex shape!
You need to "break up" the complex shape into simple components for which there are formulae and sum the results. If the shape can be shape described by a well-behaved function, you may be able to integrate it to get the answers. Otherwise, you will have to use approximations and/or analogies.
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Why would you need to separate a figure into parts to calculate perimeter and area?
You don't need to if you can manage to work out the perimeter and area of complex shapes. Most people cannot work easily with shapes other than triangles, quadrilaterals, circles and semicircles. For them (us) it is easier to partition the shape.
Can two shapes have the same perimeter?
Yes - even shapes with different area.
Can a shape have the same area but not perimeter?
Most shapes have different perimeter than area, as far as value.
How do you find the perimeter and area for complex shapes without a grid?
To find the perimeter and areas of complex shape without a grid you should divide the shape into simple shapes and find the area of each shape alone and then add up the areas all together to get the area of the whole shape. Example: If there is a shape that can be divided into 2 triangles and 1 rectangle then you will find the area of each triangle alone and then the area of the rectangle then add up all the areas together.
What is the area and perimeter of a cylinder?
There is no perimeter of a circle. Only flat shapes have perimeters. You can however, find the circumference, surface area, and volume.
