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The Tangent Ratio The Tangent using Angle The Tangent Ratio in Action The Tangent (The Adjacent side) The Tangent (Finding Angle) The Sine of an Angle The Sine Ration In Action The Sine ( Finding the Hypotenuse) The Cosine of an Angle Mixed Problems Angles & Triangles Learning Intention 1. To identify the hypotenuse, opposite and adjacent sides in a right angled triangle. Success Criteria 1. Understand the terms hypotenuse, opposite and adjacent in right angled triangle. 2. Work out Tan Ratio. Trigonometry means “triangle” and “measurement”. We will be using right-angled triangles. Opposite x° Adjacent Mathemagic! Opposite 30° Adjacent Opposite = 0.6 Adjacent Try another! Opposite 45° Adjacent Opposite = 1 Adjacent For an angle of 30°, Opposite = 0.6 Adjacent Opposite is called the tangent of an angle. Adjacent We write tan 30° = 0.6 The ancient Greeks discovered this and repeated this for all possible angles. Tan 25° 0.466 Tan 26° 0.488 Tan 27° 0.510 Tan 28° 0.532 Tan 30° =0.554 0.577 Tan 29° Tan 30° 0.577 Tan 31° 0.601 Tan 32° 0.625 Tan 33° 0.649 Tan 34° 0.675 Accurate to 3 decimal places! Now-a-days we can use calculators instead of tables to find the Tan of an angle. On your calculator press Followed by 30, and press Tan = Notice that your calculator is incredibly accurate!! Accurate to 9 decimal places! What’s the point of all this??? Don’t worry, you’re about to find out! How high is the tower? Opp 60° 12 m Opposite Copy this! 60° 12 m Adjacent Opp Tan x° = Adj Opp Tan 60° = 12 12 x Tan 60° = Opp Opp =12 x Tan 60° = 20.8m (1 d.p.) Copy this! So the tower’s 20.8 m high! 20.8m Don’t worry, you’ll be trying plenty of examples!! Opp Tan x° = Adj Opposite x° Adjacent Example h 65° 8m Opp Find the height h SOH CAH TOA Opp Tan x° = Adj Tan 65° = h 8 8 x Tan 65° = h h = 8 x Tan 65° = 17.2m (1 d.p.) Angles & Triangles Learning Intention 1. To use tan of the angle to solve problems. Success Criteria 1. Write down tan ratio. 2. Use tan of an angle to solve problems. Using Tan to calculate angles Example P SOH CAH TOA Opp 18m R x° 12m Q Calculate the tan xo ratio Opp Tan x° = Adj Tan x° = 18 12 Tan x° = 1.5 Calculate the size of angle xo Tan x° = 1.5 How do we find x°? We need to use Tan ⁻¹on the calculator. Tan ⁻¹is written above To get this press 2nd Tan ⁻¹ Tan Followed by Tan Tan x° = 1.5 Press 2nd Enter 1.5 Tan ⁻¹ Tan = x = Tan ⁻¹1.5 = 56.3° (1 d.p.) Process 1. Identify Hyp, Opp and Adj 2. Write down ratio Tan xo = Opp Adj 3. Calculate xo 2nd Tan ⁻¹ Tan Angles & Triangles Learning Intention 1. To use tan of the angle to solve REAL LIFE problems. Success Criteria 1. Write down tan ratio. 2. Use tan of an angle to solve REAL LIFE problems. Use the tan ratio to find the height h of the tree to 2 decimal places. tan 47o = opp h = adj 8 tan 47o = h 8 SOH CAH TOA rod h = 8 × tan 47o h = 8.58m 47o 8m SOH CAH TOA Example 2 Q1. An aeroplane is preparing to land at Glasgow Airport. It is over Lennoxtown at present which is 15km from the airport. The angle of descent is 6o. What is the height of the plane ? tan 6o = h 15 h = 15 × tan 6o h = 1.58km 24-May-17 Aeroplane c 6o Airport a = 15 Lennoxtown Angles & Triangles Learning Intention 1. To use tan of the angle to find adjacent length. Success Criteria 1. Write down tan ratio. 2. Use tan of an angle to solve find adjacent length. Use the tan ratio to calculate how far the ladder is away from the building. opp 12 tan 45 = = adj d o 12 d= tan 45o d = 12m SOH CAH TOA ladder 45o dm 12m Example 2 Q1. An aeroplane is preparing to land at Glasgow Airport. It is over Lennoxtown at present. It is at a height of 1.58 km above the ground. It ‘s angle of descent is 6o. How far is it from the airport to Lennoxtown? tan 6o = 1.58 d SOH CAH TOA 1.58 d= tan 6o d = 15 km Aeroplane a = 1.58 km 6o Airport Lennoxtown Angles & Triangles Learning Intention 1. To show how to find an angle using tan ratio. Success Criteria 1. Write down tan ratio. 2. Use tan ratio to find an angle. Use the tan ratio to calculate the angle that the support wire makes with the ground. opp 11 tan x = = adj 4 o SOH CAH TOA 11 x = tan 4 o -1 x o = 70o 11m xo 4m Use the tan ratio to find the angle of take-off. SOH CAH TOA opp 88 tan x = = adj 500 o tan x o = 0.176 o -1 o x = tan (0.176) = 10 88m xo 500 m Angles & Triangles Learning Intention 1. Definite the sine ratio and show how to find an angle using this ratio. Success Criteria 1. Write down sine ratio. 2. Use sine ratio to find an angle. The Sine Ratio Sin x° = Opposite x° Opp Hyp Example Find the height h h Opp Opp Sin x° = Hyp Sin 34° = 11cm 34° h 11 SOH CAH TOA 11 x Sin 34° = h h = 11 x Sin 34° = 6.2cm (1 d.p.) Using Sin to calculate angles Example 6m Opp Find the xo 9m Opp Sin x° = Hyp 6 Sin x° = 9 x° SOH CAH TOA Sin x° = 0.667 (3 d.p.) Sin x° =0.667 (3 d.p.) How do we find x°? We need to use Sin ⁻¹on the calculator. Sin ⁻¹is written above To get this press 2nd Sin ⁻¹ Sin Followed by Sin Sin x° = 0.667 (3 d.p.) Press 2nd Enter 0.667 Sin ⁻¹ Sin = x = Sin ⁻¹0.667 = 41.8° (1 d.p.) Angles & Triangles Learning Intention 1. To show how to use the sine ratio to solve Success Criteria 1. Write down sine ratio. REAL-LIFE problems. 2. Use sine ratio to solve REAL-LIFE problems. The support rope is 11.7m long. The angle between the rope and ground is 70o. Use the sine ratio to calculate the height of the flag pole. sin 70o = opp h = hyp 11.7 h = 11.7 sin70o SOH CAH TOA 11.7m h = 11m 70o h Use the sine ratio to find the angle of the ramp. opp 10 sin x = = hyp 20 o SOH CAH TOA 10 sin x = 20 o 10 o x = sin = 30 20 o -1 20 m xo 10m Angles & Triangles Learning Intention 1. To show how to calculate the hypotenuse using the sine ratio. Success Criteria 1. Write down sine ratio. 2. Use sine ratio to find the hypotenuse. Example SOH CAH TOA Opp Sin x° = Hyp Sin 72° = r= 5 r 5 sin 72o r = 5.3 km A road AB is right angled at B. The road BC is 5 km. Calculate the length of the new road AC. B 5km C 72° r A Angles & Triangles Learning Intention 1. Definite the cosine ratio and show how to find an length or angle using this ratio. Success Criteria 1. Write down cosine ratio. 2. Use cosine ratio to find a length or angle. The Cosine Ratio Cos x° = x° Adjacent Adj Hyp Find the adjacent length b Example b b Cos 40° = 35 40° Opp Adj Cos x° = Hyp 35mm SOH CAH TOA 35 x Cos 40° = b b = 35 x Cos 40°= 26.8mm (1 d.p.) Using Cos to calculate angles Example Find the angle xo 34cm Cos x° = 34 45 Opp Adj Cos x° = Hyp x° 45cm SOH CAH TOA Cos x° = 0.756 (3 d.p.) x = Cos ⁻¹0.756 =41° The Three Ratios adjacent opposite Sine Tangent Cosine hypotenuse adjacent Sine adjacent Cosine opposite Cosine Tangent Sine hypotenuse opposite Sine hypotenuse Sin x° = Opp Hyp Cos x° = Adj Hyp O A S HC H Tan x° = O T A Opp Adj Process 1. Write down SOH CAH TOA 2. 3. Identify what you want to find what you know Copy this! Past Paper Type Questions SOH CAH TOA Past Paper Type Questions SOH CAH TOA (4 marks) Past Paper Type Questions SOH CAH TOA Past Paper Type Questions SOH CAH TOA 4 marks Past Paper Type Questions SOH CAH TOA Past Paper Type Questions SOH CAH TOA (4marks) Past Paper Type Questions SOH CAH TOA Past Paper Type Questions SOH CAH TOA (4marks)
