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Day 4: Right Angle Triangle Word Problems

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Presentation on theme: "Day 4: Right Angle Triangle Word Problems"— Presentation transcript:

1 Day 4: Right Angle Triangle Word Problems
Unit 8: Trigonometry

2 Learning Goals To be able to solve word problems involving right triangles

3 A radio dish sits on top of a 100 m tower, with the vertex of the dish 9 m above the top of the tower. The radar shows an approaching plane to be 50 km away, along a 20° angle of elevation. Find the plane’s altitude and ground distance from the tower.

4 Angle of Elevation The angle created from the horizontal looking up

5 Angle of Depression The angle created from the horizontal looking down

6 50 km 20° 9 m Ground distance Altitude 100 m
A radio dish sits on top of a 100 m tower, with the vertex of the dish 9 m above the top of the tower. The radar shows an approaching plane to be 50 km away, along a 20° angle of elevation. Find the plane’s altitude and ground distance from the tower. 50 km 20° 9 m Ground distance Altitude 100 m

7 Ground distance is 46,984.6 m or 46.98 km.
A radio dish sits on top of a 100 m tower, with the vertex of the dish 9 m above the top of the tower. The radar shows an approaching plane to be 50 km away, along a 20° angle of elevation. Find the plane’s altitude and ground distance from the tower. cos 20 = 𝑥 50000 𝑥=50000 cos 20 𝑥= m Ground distance is 46,984.6 m or km. 100 m 9 m 50 km Altitude Ground distance 20°

8 sin 20 = 𝑦 50000 𝑦=50000 sin 20 𝑦=17101 m Altitude =100+9+17101
A radio dish sits on top of a 100 m tower, with the vertex of the dish 9 m above the top of the tower. The radar shows an approaching plane to be 50 km away, along a 20° angle of elevation. Find the plane’s altitude and ground distance from the tower. sin 20 = 𝑦 50000 𝑦=50000 sin 20 𝑦=17101 m Altitude = Altitude =17,210 m Altitude is 17,210 m or km. 100 m 9 m 50 km Altitude Ground distance 20°

9 A searchlight is mounted at the front of a helicopter
A searchlight is mounted at the front of a helicopter. It is 150 m above the ground and the top of the beam is angled at 70° from horizontal. The beam spreads out at an angle of 5°. How wide is the ground that the beam illuminates?

10 A searchlight is mounted at the front of a helicopter
A searchlight is mounted at the front of a helicopter. It is 150 m above the ground and the top of the beam is angled at 70° from horizontal. The beam spreads out at an angle of 5°. How wide is the ground that the beam illuminates? 70° 15° 150 m x y

11 A searchlight is mounted at the front of a helicopter
A searchlight is mounted at the front of a helicopter. It is 150 m above the ground and the top of the beam is angled at 70° from horizontal. The beam spreads out at an angle of 5°. How wide is the ground that the beam illuminates? tan 15 = 𝑥 150 𝑥=150 tan 15 𝑥=40.2 m 150 m 70° 15° x y

12 A searchlight is mounted at the front of a helicopter
A searchlight is mounted at the front of a helicopter. It is 150 m above the ground and the top of the beam is angled at 70° from horizontal. The beam spreads out at an angle of 5°. How wide is the ground that the beam illuminates? tan 20 = 𝑧 150 𝑧=150 tan 20 𝑧=54.6 m 150 m 70° 15° x y

13 Therefore the beam of light covers a width of 14.4 m.
A searchlight is mounted at the front of a helicopter. It is 150 m above the ground and the top of the beam is angled at 70° from horizontal. The beam spreads out at an angle of 5°. How wide is the ground that the beam illuminates? 𝑦=𝑧−𝑥 𝑦=54.6−40.2 𝑦=14.4 m Therefore the beam of light covers a width of 14.4 m. 150 m 70° 15° x y

14 Holly bought a new house with a triangular shaped lawn
Holly bought a new house with a triangular shaped lawn. She wants to cover the lawn with sod. How much will it cost to sod the lawn at $1.50/ m 2 ? 120 m h 40° 100 m

15 Holly bought a new house with a triangular shaped lawn
Holly bought a new house with a triangular shaped lawn. She wants to cover the lawn with sod. How much will it cost to sod the lawn at $1.50/ m 2 ? sin 40 = ℎ 120 ℎ=120 sin 40 ℎ=77.1 m 120 m 100 m 40° h

16 It would cost $5,782.50 to sod her lawn.
Holly bought a new house with a triangular shaped lawn. She wants to cover the lawn with sod. How much will it cost to sod the lawn at $1.50/ m 2 ? 𝐴= 1 2 𝑏ℎ 𝐴= 1 2 (100)(77.1) 𝐴=3855 m2 Cost =3855×1.50 = It would cost $5, to sod her lawn. 120 m 100 m 40° h

17 Success Criteria I CAN solve word problems involving right triangles using: Sum of angles Pythagorean Theorem SOHCAHTOA

18 To Do… Worksheet Check the website daily for updates, missed notes, assignment solutions

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