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Composition with arctangent

The composition tan - 1 tan x evaluates to angle values lying in the interval - π / 2, π / 2 .

tan - 1 tan x = x ; x [ π 2, π 2 ]

Let us consider adjacent intervals such that all tangent values are included once. Such intervals are (π/2, 3π/2), (3π/2, 5π/2) etc on the right side and (-3π/2, -π/2), (-5π/2, -3π/2) etc on the left side of the principal interval.

Tangent function

Additional domains for inversion.

The new interval π / 2, 3 π / 2 represents second and third quadrants. The angle x, corresponding to positive acute angle θ, lies in third quadrant. Then,

Value diagrams

Value diagrams for positive and negative angles

x = π + θ

θ = x π

Hence,

tan - 1 tan x = x π ; x [ π 2 , 3 π 2 ]

In order to find expression corresponding to negative angle interval - 3 π / 2, - π / 2 , we estimate from the tangent plot that an angle corresponding to a positive acute angle, θ, in the principal interval lies in second negative quadrant. Therefore,

x = - π + θ

θ = x + π

Hence,

tan - 1 tan x = x + π ; x [ 3 π 2, π 2 ]

Combining three results,

| x+π; x∈ (-3π/2, -π/2) tan⁻¹ tanx = | x; x∈ (-π/2, π/2)| x-π; x∈ (π/2, 3π/2)

We can similarly find expressions for other intervals.

Graph of tan⁻¹tanx

Using three expressions obtained above, we can draw plot of the composition function. We have extended the plot, using the fact that composition is a periodic function with a period of π. The equation of plot, which is equivalent to plot y=x shifted by π towards right is :

y = x π

The equation of plot, which is equivalent to plot y=x shifted by π towards left is :

y = x + π

These results are same as obtained earlier. It means that nature of plot is same in the adjacent intervals.

Tangent inverse of tangent

The function is periodic with period π.

We see that graph of composition is discontinuous. Its domain is R { 2 n + 1 π / 2 ; n Z } . Its range is [ - π / 2, π / 2 ] . The function is periodic with period π.

Composition with arccosecant

The composition cosec - 1 cosec x evaluates to angle values lying in the interval [ - π / 2, π / 2 ] { 0 } .

cosec - 1 cosec x = x ; x [ π 2, π 2 ] { 0 }

Let us consider adjacent intervals such that all cosine values are included once. Such intervals are [π/2, 3π/2] – {π}, [3π/2, 5π/2]– {2π} etc on the right side and [-3π/2, -π/2] – {-π}, [-5π/2, -3π/2]– {-2π} etc on the left side of the principal interval.

Cosecant function

Additional domains for inversion.

The new interval [ π / 2, 3 π / 2 ] { π } lies in second and third quadrants. The angle x corresponding to positive acute angle θ, lies in second quadrant. Then,

Value diagrams

Value diagrams for positive and negative angles

x = π θ

θ = π x

Hence,

cosec - 1 cosec x = x ; π x [ π 2 , 3 π 2 ] { π }

In order to find expression corresponding to negative angle interval [ - 3 π / 2, - π / 2 ] { - π } , we estimate from the cosecant plot that an angle corresponding to a positive acute angle, θ, in the principal interval lies in third negative quadrant. Therefore,

x = - π - θ

θ = - π - x

Hence,

cosec - 1 cosec x = π - x ; x [ 3 π 2 , π 2 ] { π }

Combining three results,

|- π-x; x∈[-3π/2, -π/2] – {-π}cosec⁻¹ cosecx = | x; x∈[-/2, π/2]-{0}| π- x; x∈[π/2, 3π/2] – {π}

We can similarly find expressions for other intervals.

Graph of cosec⁻¹cosecx

Using three expressions obtained above, we can draw plot of the composition function. We have extended the plot, using the fact that composition is a periodic function with a period of 2π. The equation of plot, which is equivalent to plot y=x shifted by 2π towards right, is :

y = x - 2 π

The equation of plot, which is equivalent to plot y=x shifted by 2π towards left, is :

y = x + 2 π

Cosecant inverse of cosecant

The function is periodic with period 2π.

We see that graph of composition is discontinuous. Its domain is R { n π ; n Z } . Its range is [ - π / 2, π / 2 ] { 0 } . The function is periodic with period 2π.

We can similarly find out expressions for different intervals for arcsecant and arccotangent compositions. We have left out discussion of these two functions as exercise.

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Source:  OpenStax, Functions. OpenStax CNX. Sep 23, 2008 Download for free at http://cnx.org/content/col10464/1.64
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