Yr 10 Unit 8 –Algebra – Higher - Trigonometry
5 lessons
Support Objectives / Grade / Ref1
2
Core Objectives / Grade / Ref
1 / Use sine, cosine and tangent to calculate a side in a right-angled triangle.
AQA Higher book II pages 232 – 234
PPT Trigonometry introduction
FVT Trigonometry
ET Non calculator trigonometry
Trigonometry exam questions / B / H3.2g
2 / Use sine, cosine and tangent to calculate an angle in a right-angled triangle.
AQA Higher book II pages 235 – 237
FVT Trigonometry
Trigonometry exam questions / B / H3.2g
3 / Use trigonometry to find sides and angles in three dimensions.
AQA Higher book II pages 238 – 239
Starter – 3D Trigonometry
3D Problems – exam questions / A / H3.2g
4 / Find the angle between a line and a plane.
AQA Higher book II pages 238 -239 / A / H3.2g
5 / Sketch and draw trigonometric graphs.
AQA Higher book II pages 241 – 243
FVT Trig graphs / A / H2.6f
6 / Use the sine rule to find the missing sides and angles in any triangle.
AQA Higher book II pages 246 – 248
Starter – sine and cosine rule
Sine and cosine rule exam questions / A / H3.2g
7 / Use the cosine rule to find the missing sides and angles in any triangle.
AQA Higher book II pages 251 – 253
Starter – sine and cosine rule
Sine and cosine rule exam questions / A / H3.2g
8 / Use the formula for the area of a non right-angled triangle.
AQA Higher book II pages 255 – 256
Starter – area of a triangle trig / A / H3.2g
Extension Objectives / Grade / Ref
1 / Understand the graphs of trigonometric functions for angles of any size.
AQA Higher book II pages 241 - 243 / A* / H3.2g
Student Self Assessment Sheet
Objectives / Grade / / /
1 / Use sine, cosine and tangent to calculate a side in a right-angled triangle. / B
2 / Use sine, cosine and tangent to calculate an angle in a right-angled triangle. / B
3 / Use trigonometry to find sides and angles in three dimensions. / A
4 / Find the angle between a line and a plane. / A
5 / Sketch and draw trigonometric graphs. / A
6 / Use the sine rule to find the missing sides and angles in any triangle. / A
7 / Use the cosine rule to find the missing sides and angles in any triangle. / A
8 / Use the formula for the area of a non right-angled triangle. / A
9 / Understand the graphs of trigonometric functions for angles of any size. / A*
Vocabulary
TrigonometrySine (sin)Cosine (cos)
Tangent (tan)Opposite sideAngle of depression
Isosceles triangleAdjacent sideBearing
HypotenuseAngle of elevationTrigonometric functions
Ideas for starters
1) Students draw a 6cm by 2cm rectangle and measure the length of the diagonal. Predict the length of a 12cm by 4cm rectangle, a 3cm by 1cm rectangle etc. Draw them to check.
2) Rest a metre rule against a wall and measure the angle of elevation and the height the ruler reaches up the wall. E.g assume the angle is 620 and the height is 0.88m. If you keep the angle at 620, how far up the wall would: a 2m rule reach? A 5 metre ladder reach? A 10cm pencil reach? Etc Establish that 0.88 is linked to 620.
3) Students draw 4 different rectangles where length = 2 x width. Students measure the angle between the length and the diagonal. Discuss why all answers are about 26.50.
4) Identify all the right angles in a cube.
5) Practice squares and square roots. How many Pythagorean triples can you find in 5 minutes?
6) A wheel has a radius of 1m. A spot of paint is on the rim immediately to the right of the centre. What is the height of the spot above the centre when the wheel has turned 100 anticlockwise?
7) When does sin x = cos x? When does sin x = tan x? When does cos x = tan x?
8) Discuss the differences between the sine rule and cosine rule and when they are used.
9) Write definitions for: isosceles, bearing, sine, cosine, tangent, opposite side, adjacent side, hypotenuse, Pythagoras’ Theorem.
10) How do you find the area of a triangle?
HOLS/maths investigations
Use of spaghetti and jelly babies to construct 3D shapes and calculate lengths and angles.
ICT links / citizenship
Use of omnigraph to understand and investigate trigonometric graphs
Ideas for plenaries
1) Why is sin 30 = 0.5? (Consider an equilateral triangle split into two identical halves). Use Pythagoras for sin 60 and sin 45.
2) Invent a pneumonic to help remember the trigonometric ratios.
3) Which is the larger angle? The one between the body diagonal of a cube and its base or the one between the diagonal of a 2 x 1 rectangle and the length?
4) What is the greatest value of sinx, cosx and tanx. Explain your answer. What are the minimum values?
5) Present a display of trig graphs and ask the students what their equations could be.
6) Discuss with the students where sine and cosine functions appear in nature and in real life.
7) Discuss when to use the sine rule and when to use the cosine rule.
8) An equilateral triangle has an area of 20cm2. Find the length of each side.
Ideas for homework
1) AQA Higher homework book II pages 91 – 93 homework 1.
2) AQA Higher homework book II pages 93 - 94 homework 2.
3) AQA Higher homework book II pages 94 - 95 homework 3.
4) AQA Higher homework book II pages 95 - 97 homework 4.
5) AQA Higher homework book II pages 97 - 98 homework 5.
6) AQA Higher homework book II pages 99 - 100 homework 6.
7) AQA Higher homework book II pages 101 - 102 homework 7.
Webmaths – trigonometry angles
Webmaths – trigonometry sides
Ideas for Formative Comments