• Circle Area
• Square and Rectangle Area
• Triangle Area
• Triangular Prisms
• Cylinders

Area		Volume
Circle	πr2	Sphere	(4/3)πr3
Square	s2	Cube	s3
Rectangle	lw	Rectanglar Prism	lwh
Triangle	(1/2)bh	Triangular Prism	(1/2)bhl
		Cylinder	πr2h

    r   radius
    s   side
    l   length
    w   width
    h   height
    b   base

Example 1: Area

Find the area of the following shapes after the transformations have been made.
A circle has an area of 11. If the radius is increased by a factor of 3, what is the new area of the circle?  

Original area
    original Area = 11 = π (original radius)²
New area
    new Area = π (new radius)²
From the statement the radius is increased by a factor of 3, we get
    new radius = 3 × original radius

new Area	=	π (new radius)2
	=	π (3 × original radius)2
	=	9 × π (original radius)2
	=	9 × original Area
	=	9 × 11
	=	99

Alternate solution:
The radius increased by 3. In the circle area equation, the radius is squared so we can square the factor 3 and multiply that by the original area to get 3² × 11 = 99.

The answer is

Example 2: Volume

Find the volume of the following shapes after the transformations have been made.
A triangular prism has a volume of 20. If the base height is increased by a factor of 4, what is the new volume of the triangular prism?

Original volume
    original Volume = 20 = (1/2)(base)(original height)(length)
New volume
    new Volume = (1/2)(base)(new height)(length)
From the statement the base height is increased by a factor of 4, we get
    new height = 4 × old height

new Volume	=	(1/2)(base)(new height)(length)
	=	(1/2)(base)(4 × old height)(length)
	=	4 × (1/2)(base)(old height)(length)
	=	4 × original Volume
	=	4 × 20
	=	80

Alternate solution:
The base height increased by 4. In the triangular prism volume formula, the base height is linear so we can multiply the increased factor by the original volume to get 4 × 20 = 80.

The answer is