Find the X-Intercepts of y=tan(x) and Understand the Y-Intercept in Real Numbers

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The x-intercepts of the function y=tan(x) occur at x=nπ, where n is an integer, indicating multiple intercepts within the real number set. The y-intercept is at y=0, confirming that the function intersects the y-axis at this point. The period of the tangent function is π, meaning it repeats every π units. The domain of y=tan(x) excludes values where cos(x)=0, leading to vertical asymptotes at x=a+nπ, where a is the location of a specific asymptote. Understanding these properties is crucial for analyzing the behavior of the tangent function.
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What is the x-intercept of y=tan(x)?

there are multiple x-intercepts, how should i write it correctly?

and the y-intercept is : y | where y is a set of real numbers right?
 
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ok is it:

n(pi) where n is the set of integers?
 
xLaser: That sounds right to me.

- Warren
 
lol i have some more questions.

what is the domain and asymptotes of the tan graph?

and btw, is the peroid of tan graph PI?
 
how do u write the asymptotes, there are so many! is there a general way to write it?
 
xLaser said:
lol i have some more questions.

what is the domain and asymptotes of the tan graph?

and btw, is the peroid of tan graph PI?

Hi.
Do you have a graph of this function? You can get a lot of information from it.
For example: it's clear there is only one intercept with the x-axis every period.
Since you already know the intercepts occur at x=n\pi, the period must be \pi.

As for the domain and asymptotes. Use the definition of tanx:
\tan x=\frac{\sin x}{\cos x}.

Since the period is pi, if you have an asymptote, there's another one pi units to the left and right of it. From the graph it's clear there are only vertical asymptotes and precisely one every period.
So you can write x=a+n\pi, where x=a is an asymptote.
 
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