Year 9, Term 2 REVSION

Linear Equations

Pythagoras' Theorem

Perimeter/Area

Surface Area

Volume

100

Solve:

x-8=7

x=15

100

Which is the correct rule for Pythagoras' Theorem for the triangle shown below.

100

(a) Convert 3.5 m into cm

(b) Convert 5.6 cm² into mm²

(a) 350 cm

(b) 560 mm²

100

Use the rectangular prism to state the side lengths indicated on the net diagram shown below.

(a) 2 cm

(b) 6 cm

100

(a) Convert 25 cm³ into mL

(b) Convert 520 m³ into L

(a) 25 mL

(b) 520 000 L

200

Solve:

5x+3=28

x=5

200

Is the triangle below a right-angled triangle? Use the converse of Pythagoras' Theorem to find out.

200

Calculate the perimeter of the following shape. Write your answer to 2 decimal places.

177.12 cm

200

Use the triangular prism to state the value of each side indicated in the net diagram shown below.

(a) 10 cm

(b) 7 cm

200

Calculate the volume of the cube shown below.

512 m³

300

Solve:

5d-4=2d+17

d=7

300

Calculate the value of the y in the right-angled triangle below, to 2 decimal places.

y=7.34

300

Calculate the area of the shape below, to 1 decimal place.

17 cm²

300

(a) Calculate the surface area of the rectangular prism shown below.

(b) If 1 tin of paint covers 30 m², how many whole tins of paint would you need to cover the shape?

(a)52 m²

(b) 2 tins

300

Calculate the volume of the triangular prism shown below.

210 cm³

400

Solve:

3(x-2)=2(x+1)

x=8

400

Calculate the value of y in the right-angle triangle below, to 1 decimal place.

y=118.8

400

Calculate the arc length for the shape below, to the nearest cm.

152 cm

400

Calculate the surface area of the cylinder shown below, to the nearest whole.

32 m²

400

Calculate the volume of the cylinder shown below, to 1 decimal place.

28274.3 cm³

500

Solve:

(2a-1)/5=(a+7)/4

a=13

500

Calculate the area of the shape shown below, to the nearest whole.

12440 cm²

500

Calculate the surface area of the triangular prism shown below, to the nearest whole.

1560 cm²

500

(a) Calculate the capacity of the shape shown below in ML.

(b) If the shape can be filled with water at a rate of 3.5 ML per hour, how long will it take to fill?

(a) 18.2 ML

(b) 5.2 hours