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MATH1013 Calculus I
Introduction to Functions1
Edmund Y. M. Chiang
Department of MathematicsHong Kong University of Science & Technology
February 19, 2013
Trigonometric Functions (Chapter 1)
1Based on Briggs, Cochran and Gillett: Calculus for Scientists and Engineers: Early Transcendentals, Pearson
2013
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Trigonometric functions
Similar triangles
Some identities
Circular Functions
Inverse trigonometric functions
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Recalling trigonometric functions
• Trigonometric ratios have been known to us as ancient asBabylonians’ time because of the need of astronomicalobservation. The Greeks turns the subject into an exactscience.
• There are many ways that these ratios appear from everydaylife applications to the most advanced scientific pursues, thatare generally connected with circular symmetry or with circles.
• Earliest definitions Given an angle A with 0 < A < π/2.Then one can form a right angle triangle 4ABC with the sidea opposite to the angle A called the opposite side, the sidenext to the angle A called the adjacent side, and the sideopposite to the right angle, the hypotenuse.
• One can certainly include the consideration that A = 0 orA = π/2 by accommodating a straight line section as ageneralized triangle, which will be useful when we discusstrigonometry ratios for arbitrary triangles later.
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Six trigonometric ratios
Figure: (Right angle triangle 4ABC : from Maxime Bocher, 1914)
sinA =opposite side
hypotenuse=
a
c, cosA =
adjacent side
hypotenuse=
b
c
tanA =opposite side
adjacent side=
a
b.
The other three are
cscA =1
sinA, secA =
1
cosA, cotA =
1
tanA
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Maxime Bocher’s book
Figure: (Bocher’s book (1914))
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Maxime Bocher’s bookMaxime Bocher (1867-1918) was an American mathematicianstudied in Gottingen, Germany, in late nineteenth century, then theworld centre of mathematics. He later became a professor inmathematics at the Harvard university.
Figure: (M. Bocher) Courtesy of Harvard University Archives
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Similar triangles
Figure: (Chapter One)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Trigonometric Tables
Figure: (Chapter One)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
It really is about circles !!The crux of the matter of why any of the trigonometric ratios onlydepends on the angle and not the size of the triangle really meanswe are looking at a circle.
Figure: (Source: Wiki)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Trigonometric identities• The size of the right angle triangle (circle) does not matter.
One immediately obtain the famous Pythagoras theorem
sin2 θ + cos2 θ = 1
where 0 ≤ θ ≤ π/2.• Dividing both sides by sin2 θ and cos2 θ yield, respectively
1 + cot2 θ = csc2 θ and tan2 θ + 1 = sec2 θ.
• Double angle formulae:
sin 2θ = 2 cos θ sin θ, cos 2θ = cos2 θ − sin2 θ
• Half angle formulae:
cos θ = 2 cos2θ
2− 1, sin θ = 1− 2 sin2 θ
2.
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Ratios beyond π2
• The question is now how to extend the angle beyond π2 , as
the unit circle clearly indicates such possibility.
Figure: (Source: Bocher, page 34)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Ratios as circular functions: 0 ≤ θ ≤ 2π• Due to the propertiy of similar triangles, it is sufficient that
we consider unit circle in extending to 0 ≤ θ ≤ 2π with theratios augmunted with appropriate signs from thexy−coordinate axes.
Figure: (Source: Bocher, page 38)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Illustration of 0 ≤ θ ≤ π
Figure: 1.59 (Publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Ratios beyond 2π
• For sine and cosine functions, if θ is an angle beyond 2π, thenθ = φ+ k 2π for some 0 ≤ φ ≤ 2π. Thus one can write downtheir meanings from the definitions
sin(θ) = sin(φ+k 2π) = sinφ, cos(θ) = cos(φ+k 2π) = cosφ
where 0 ≤ φ ≤ 2π, and k is any integer.
• The case for tangent ratio is slightly different, with the firstextension to −π
2 ≤ θ ≤π2 , and then to arbitrary θ. Thus one
can write down
tan(θ) = tan(φ+ k π) = tanφ
where θ = φ+ kπ for some k and −π2 ≤ φ ≤
π2 .
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Illustration of 2π ≤ θ ≤ 4π
Figure: 1.61 (Publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Illustration of −4π ≤ θ ≤ −2π
Figure: 1.62 (Publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Periodic sine and cosine functions
Figure: (Source:Upper: sine, page 45; Lower: cosine, page 46)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Periodic sine/cosec functions (publisher)
Figure: 1.63a (publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Periodic cos/sec functions (publisher)
Figure: 1.63b (publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Periodic tangent function
Figure: (Source: tangent, Borcher page 46)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Periodic tangent functions (publisher)
Figure: 1.64a (publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Periodic cotangent functions (publisher)
Figure: 1.64b (publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Graphs of −4π ≤ θ ≤ −2π
Figure: 1.62 (Publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Inverse trigonometric functions• The sine and cosine functions map the [k 2π, (k + 1) 2π] onto
the range [−1, 1] for each integer k . So it is
many −→ one
so an inverse would be possible only if we suitably restrict thedomain of either sine and cosine functions. We note that eventhe image of [0, 2π] “covers” the [−1, 1] more than once.
• In fact, for the sine function, only the subset [π2 ,3π2 ] of [0, 2π]
would be mapped onto [−1, 1] exactly once. That is the sinefunction is one-one on [π2 ,
3π2 ].
• However, it’s more convenient to define the inverse sin−1 x on[−π
2 ,π2 ].
sin−1 x : [−1, 1] −→[− π
2,π
2
].
•cos−1 x : [−1, 1] −→
[0, π
].
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Inverse sine (publisher)
Figure: 1.71a (publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Inverse cosine (publisher)
Figure: 1.71b (publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Inverse trigonometric functions II
• The tangent has
tan−1 x : (−∞, ∞) −→[− π
2,π
2
]or the whole real axis.
• (p. 44) Find (a) cos−1(−√
3/2), (b) cos−1(cos 3π),(c) sin(sin−1 1/2).
• (p. 45) Given θ = sin−1 2/5. Find cos θ and tan θ.
• (p. 45) Find alternative form of cot(cos−1(x/4)) in terms ofx .
• (p. 48, Q. 58) Find cos(sin−1(x/3)).
• (p. 45) Why sin−1 x + cos−1 x = π/2?
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Inverse tangent (publisher)
Figure: 1.77 (publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Inverse cotangent (publisher)
Figure: 1.78 (publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Inverse secant (publisher)
Figure: 1.79 (publisher)
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Trigonometric functions Similar triangles Some identities Circular Functions Inverse trigonometric functions
Inverse cosec (publisher)
Figure: 1.80 (publisher)