Trig Functions

period of y=cos(x)

2pi

period of y=csc(x)

2pi

period of y=sec(x)

2pi

period of y=sin(x)

2pi

domain of y=cos(x)

all real

domain of y=sin(x)

all real

range of y=cot(x)

all real

range of y=tan(x)

all real

domain of y=sec(x)

all real when x is not equal to (pi/2)+-(n*pi)

domain of y=tan(x)

all real when x is not equal to (pi/2)+-npi

domain of y=cot(x)

all real when x is not equal to n*pi

domain of y=csc(x)

all real when x is not equal to n*pi

x-intercepts of y=cot(x)

((x/2)+- (n*pi)

y-intercepts y=tan(x)

(0,0)

y-intercepts of y=cos(x)

(0,1)

y-intercepts of y=sec(x)

(0,1)

range of y=csc(x)

(negative infinity, -1]U[1, infinity)

range of y=cos(x)

(negative infinity, -1]U[1,infinity)

range of y=sec(x)

(negative infinity, -1]U[1,infinity)

range of y=sin(x)

(negitive infinity,1]U[1,infinity)

x-intercepts of y=tan(x)

(npi,0)

vertical asymptotes of y=cos(x)

x=(pi/2)+-(n*pi)

vertical asymptotes of y=sec(x)

x=(pi/2)+-(n*pi)

vertical asymptotes y=tan(x)

x=(pi/2)+-(n*pi)

vertical asymptotes of y=csc(x)

x=+- n*pi

vertical asyptotes of y=sin(x)

x=+- n*pi

vertical asymptotes of y=cot(x)

x=+-(n*pi)

symmetry of y=cos(x)

y-axis symmetry

symmetry of y=sec(x)

y-axis symmetry

symmetry of y=tan(x)

origin symmetry

period of y=cot(x)

pi

y=cos(x) even or odd?

even

y=sec(x) even or odd?

even

x-intercepts of y=cos(x)

none

x-intercepts of y=csc(x)

none

x-intercepts of y=sec(x)

none

x-intercepts of y=sin(x)

none

y-intercepts of y=cot(x)

none

y-intercepts of y=csc(x)

none

y-intercepts of y=sin(x)

none

y=cot(x) even or odd?

odd

y=csc(x) even or odd?

odd

y=tan(x) even or odd?

odd

y=sin(x) even or odd?

odd function

symmetry of y=cot(x)

origin symmetry

symmetry of y=csc(x)

origin symmetry

symmetry of y=sin(x)

origin symmetry