Measurement

Accuracy in measurement (absolute error)

Accuracy in measurement (percentage error)

Converting Units Very large and small

Significant Figures

Solve contextual problems involving perimeters

Area unit conversion

Area of Rectangles and Squares

Area of triangles

Border battles (Investigation)

Area (Rectangle, Square, Triangle, Parallelogram)

Area of Parallelograms

Area of Composite Shapes I

Exploring the area of special quadrilaterals

Area of trapeziums

Area of rhombuses

Area of Special Quadrilaterals

Area Composite Shapes II

Connecting area and perimeter (Investigation)

Maximising area with a fixed perimeter (Investigation)

Minimising perimeter with a fixed area (Investigation)

Convert units of capacity

Volume of Rectangular Prisms

Volume of composite solids I

Volume of right prisms

Maximising volume (Investigation)

Further volumes of prisms

Volume of Composite Solids II

Volume of Right Pyramids

Volume of Composite Solids III

Surface Area of Prisms

Surface Area of Simple Composite Solids (no circles)

Surface Area Using Nets (Investigation)

Surface Area of the Body (Investigation)

Parts of Circle

Circumference of a circle

Making a circle into a triangle (Investigation)

Area of circles

Area of composite shapes with circles

Areas and perimeters of sectors (degrees)

Areas and perimeters of sectors (radians)

Area of Circles and Sectors - mixed questions

Volume of cylinder I

Volume of cylinder II

How much pasta can fit in the pot? An invesitgation involving volume. (Investigation)

Volume of Right Cones

Volume of Spheres

Surface area of cylinder I

Surface area of cylinder II

Surface area of spheres

Surface Area of Simple Composite Solids - mixed questions

Surface Area of Complex Composite Solids

Surface Area of Prisms - mixed questions

Surface Area of Right Pyramids and Cones - mixed questions

A trip to the pool (Investigation)

Reasonable Units

Quantities, Units and Modelling (Investigation)

United Kingdom United Kingdom

Secondary

Volume of Composite Solids III

Lesson

We have already seen how to find the volume of composite solids of varying shapes and sizes.

We saw that some are formed by putting together a combination of smaller solids, and that some are formed by removing part of a larger solid.

Now we can look at many different composite solids and consider them in terms of all the solids we know.

Volume of Solids Covered So Far

$\text{Volume of Prisms }=\text{Area of Base }\times\text{Height of Prism }$Volume of Prisms =Area of Base ×Height of Prism

$\text{Volume of Cube }=s^3$Volume of Cube =s3

$\text{Volume of Rectangular Prism }=lwh$Volume of Rectangular Prism =lwh

$\text{Volume of Cylinder }=\pi r^2h$Volume of Cylinder =πr2h

$\text{Volume of Right Pyramid }=\frac{1}{3}\times\text{Base Area}\times\text{Height of Pyramid}$Volume of Right Pyramid =13×Base Area×Height of Pyramid

$\text{Volume of Right Cone }=\frac{1}{3}\pi r^2h$Volume of Right Cone =13πr2h

$\text{Volume of Sphere }=\frac{4}{3}\pi r^3$Volume of Sphere =43πr3

Worked Examples

Question 1

Find the volume of the figure shown, correct to two decimal places.

Question 2

Find the volume of the composite figure shown, correct to two decimal places.

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