Download Questions over 7.1 and 7.2

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
page
5
Document related concepts

Weber problem wikipedia , lookup

Transcript 
Questions over 7.1 and 7.2
Section 7.3
Example: Solve the triangle if A = 43o, b = 25 ft, and c = 20 ft.
Remember the Law of Sines works whenever you are given any two
angles and one side (AAS or ASA)...or...given SSA information (one,
two, or no triangles possible).
What if we are given SAS information?
Oh woe is us...what will we do???
Law of Cosines (SAS)
For the oblique triangle ABC, C
a
b
A
a2 = b2 + c2 ­ 2bc cos A
b2 = a2 + c2 ­ 2ac cos B
c
B
c2 = a2 + b2 ­ 2ab cos C
EXAMPLE: In triangle ABC, if a = 4.2 cm, c = 7.5 cm, and B = 32o, find b. Suppose we are given a = 5 cm, b = 7 cm, and c = 11 cm.
Can we solve the triangle?
If we are given SSS information...
We can use Law of Cosines to solve the triangle in this case.
We must solve for an angle first!
a2 = b2 + c2 ­ 2bc cos A This gives us an alternate statement of the Law of Cosines.
Law of Cosines (SSS)
For the oblique triangle ABC, C
b
A
cos A = b2 + c2 ­ a2 2bc
a
c
B
cos B = a2 + c2 ­ b2 2ac
cos C = a2 + b2 ­ c2 2ab
Always remember...when using cos­1...your calculator is
programmed to give you angles in certain quadrants.
cos­1(positive number between 0 and 1) = acute Q1 angle
cos­1(negative number between ­1 and 0) = obtuse Q2 angle
EXAMPLE: In triangle ABC, if a = 72 m, b = 54 m, and c = 35 m. Solve the triangle. Helpful Hint: In a SSS problem, always find the largest angle FIRST, using the law of cosines. After that you can switch to law of sines.
Interesting Tidbits:
c
a
C
b
a
C
c
b
c
a
C
b
You are on a plane with a heading of 320 degrees, flying at 244 miles per hour. The heading of the wind is 265 degrees at 45 miles per hour. The wind is pushing the plane off course. Luckily you know trigonometry (you're welcome) so you can find the true heading of the plane and its actual speed.
The resultant vector is the black vector. Its length is the actual speed of the plane. It appears to be longer than the blue plane vector, so it appears as though the wind is speeding up the plane. You can find the length by using the law of cosines. The heading angle is θ. If you find angle A first, then you'll be able to find the heading angle. You can find A using the law of sines.
Related documents
first trigonometry exercises
first trigonometry exercises
7.7 solving right triangles to solve a right triangle means to find the
7.7 solving right triangles to solve a right triangle means to find the
Geometry - lovelacehomework
Geometry - lovelacehomework
Algebra II/Trigonometry Honors Unit 9 Day 6: Law of Cosines
Algebra II/Trigonometry Honors Unit 9 Day 6: Law of Cosines
Geometry Honors Trig Test Review
Geometry Honors Trig Test Review
6.5 Law of Cosines
6.5 Law of Cosines
Non-Right Triangle Trig Worksheet
Non-Right Triangle Trig Worksheet
The Cosine Rule
The Cosine Rule
6.1 – 6.2 Quiz Review Know how to make a simple sketch of a
6.1 – 6.2 Quiz Review Know how to make a simple sketch of a
Right Triangle Trigonometry Quiz
Right Triangle Trigonometry Quiz
Sec 9.3
Sec 9.3
8.5 Law of Sines and Cosines
8.5 Law of Sines and Cosines
Heron`s Formula can be used to find the area of a
Heron`s Formula can be used to find the area of a
section 6.2: the law of cosines
section 6.2: the law of cosines
Law of Cosines
Law of Cosines