Understanding Trigonometric Functions, Study notes of Trigonometry

A comprehensive overview of trigonometric functions, including sine, cosine, tangent, cotangent, secant, and cosecant. It explains the formulas and identities for these functions, their derivation, and their relationships with the sides of a right-angled triangle. The document also includes a table of trigonometric ratios for different angles and discusses the graphs of these functions. It is a valuable resource for students and learners interested in mathematics, particularly those studying trigonometry.

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2017/2018

Uploaded on 04/19/2024

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TRIGONOMETRIC FUNCTIONS
Trigonometric functions are also known as Circular Functions can be simply
defined as the functions of an angle of a triangle. It means that the relationship
between the angles and sides of a triangle are given by these trig functions. The basic
trigonometric functions are sine, cosine, tangent, cotangent, secant and
cosecant. Also, read trigonometric identities here.
There are a number of trigonometric formulas and identities that denotes the
relation between the functions and help to find the angles of the triangle. All these
trigonometric functions with their formula are explained here elaborately, to make
them understand to the readers.
Also, you will come across the table where the value of these ratios is
mentioned for some particular degrees. And based on this table you will be able to
solve many trigonometric examples and problems.
Six Trigonometric Functions
The angles of sine, cosine, and tangent are the primary classification of
functions of trigonometry. And the three functions which are cotangent, secant and
cosecant can be derived from the primary functions. Basically, the other three
functions are often used as compared to the primary trigonometric functions. Consider
the following diagram as a reference for an explanation of these three primary
functions. This diagram can be referred to as the sin-cos-tan triangle. We usually
define trigonometry with the help of the ‘right-angled triangle’.
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TRIGONOMETRIC FUNCTIONS

Trigonometric functions are also known as Circular Functions can be simply defined as the functions of an angle of a triangle. It means that the relationship between the angles and sides of a triangle are given by these trig functions. The basic trigonometric functions are sine, cosine, tangent, cotangent, secant and cosecant. Also, read trigonometric identities here. There are a number of trigonometric formulas and identities that denotes the relation between the functions and help to find the angles of the triangle. All these trigonometric functions with their formula are explained here elaborately, to make them understand to the readers. Also, you will come across the table where the value of these ratios is mentioned for some particular degrees. And based on this table you will be able to solve many trigonometric examples and problems.

Six Trigonometric Functions

The angles of sine, cosine, and tangent are the primary classification of functions of trigonometry. And the three functions which are cotangent, secant and cosecant can be derived from the primary functions. Basically, the other three functions are often used as compared to the primary trigonometric functions. Consider the following diagram as a reference for an explanation of these three primary functions. This diagram can be referred to as the sin-cos-tan triangle. We usually define trigonometry with the help of the ‘right-angled triangle’.

 Sine Function Sine function of an angle is the ratio between the opposite side length to that of the hypotenuse. From the above diagram, the value of sin will be: Sin a =Opposite/Hypotenuse = CB/CA  Cos Function Cos of an angle is the ratio of the length of the adjacent side to the length of the hypotenuse. From the above diagram, the cos function will be derived as follows. Cos a = Adjacent/Hypotenuse = AB/CA  Tan Function The tangent function is the ratio of the length of the opposite side to that of the adjacent side. It should be noted that the tan can also be represented in terms of sine and cos as their ratio. From the diagram taken above, the tan function will be the following. Tan a = Opposite/Adjacent = CB/BA Also, in terms of sine and cos, tan can be represented as: Tan a = sin a/cos a  Secant, Cosecant and Cotangent Functions Secant, cosecant (csc) and cotangent are the three additional functions which are derived from the primary functions of sine, cos, and tan. The reciprocal of sine, cos, and tan are cosecant (csc), secant (sec), and cotangent (cot) respectively. The formula of each of these functions are given as:  Sec a = 1/(cos a) = Hypotenuse/Adjacent = CA/AB  Cosec a = 1/(sin a) = Hypotenuse/Opposite = CA/CB  cot a = 1/(tan a) = Adjacent/Opposite = BA/CB Note: Inverse trigonometric functions are used to obtain an angle from any of the angle’s trigonometric ratios. Basically, inverses of the sine, cosine, tangent, cotangent, secant, and cosecant functions are represented as arcsine, arccosine, arctangent, arc cotangent, arc secant, and arc cosecant.

 cot(x+nπ) = cot x  csc(x+2nπ) = csc x  sec(x+2nπ) = sec x Where n is any integer.

Pythagorean Identities

When the Pythagoras theorem is expressed in the form of trigonometry functions, it is said to be Pythagorean identity. There are majorly three identities:  sin^2 x + cos^2 x = 1 [Very Important]  1+tan^2 x = sec^2 x  cosec^2 x = 1 + cot^2 x These three identities are of great importance in Mathematics, as most of the trigonometry questions are prepared in exams based on them. Therefore, students should memorise these identities to solve such problems easily. Sum and Difference Identities  sin(x+y) = sin(x).cos(y)+cos(x).sin(y)  sin(x–y) = sin(x).cos(y)–cos(x).sin(y)  cos(x+y) = cosx.cosy–sinx.siny  cos(x–y) = cosx.cosy+sinx.siny  tan(x+y) = [tan(x)+tan(y)]/[1-tan(x)tan(y)]  tan(x-y) = [tan(x)-tan(y)]/[1+tan(x)tan(y)]

Table

The trigonometric ratio table for six functions like Sin, Cos, Tan, Cosec, Sec, Cot, are: Trigonometric Ratios/ angle= θ in degrees

Sin θ 0 1/2 1/√2 √3/2 1 Cos θ 1 √3/2 1/√2 1/2 0 Tan θ 0 1/√3 1 √3 ∞

Cosec θ ∞ 2 √2 2/√3 1 Sec θ 1 2/√3 √2 2 ∞ Cot θ ∞ √3 1 1/√3 0

Graphs

By now we have known the formulas and values for different angles for all the trigonometric functions. Let us see here the graphs of all the six trigonometric functions to understand the alteration with respect to a time interval. Before we see the graph, let us see the domain and range of each function, which is to be graphed in XY plane. Function Definition Domain Range Sine Function y=sin x x ∈ R − 1 ≤ sin x ≤ 1 Cosine Function y = cos x (^) x ∈ R − 1 ≤ cos x ≤ 1 Tangent Function y = tan x x ∈ R , x≠(2k+1)π/2, − ∞ < tan x < ∞ Cotangent Function y = cot x x ∈ R , x ≠ k π − ∞ < cot x < ∞ Secant Function y = sec x x ∈ R , x ≠ ( 2 k + 1 ) π / 2 sec x ∈ ( − ∞ , − 1 ] ∪ [ 1 , ∞ ) Cosecant Function y = csc x x ∈ R , x ≠ k π csc x ∈ ( − ∞ , − 1 ] ∪ [ 1 , ∞ )