Cbarker1 said:I need some help find some continuous intervals for $f(x)=tan(2x)$. I know there are vertical asympotes when x=pi/4+2*pi*n for positive integers. Thank you for your help.
CBarker1
The purpose of finding the continuous intervals for a function is to determine the portions of the function where it is continuous, meaning there are no breaks or jumps in the graph. This can help in understanding the behavior of the function and making accurate predictions.
To find the continuous intervals algebraically, you need to first find the points where the function is undefined (discontinuous). Then, use these points to create intervals and test the function within each interval. If the function remains continuous within the interval, then it is a continuous interval.
Yes, there are graphical methods for finding the continuous intervals. One way is to graph the function and visually identify any breaks or jumps in the graph. Another method is to use the "connect the dots" approach, where you draw a line through the points on the graph and see if there are any breaks or gaps in the line.
Yes, a function can have more than one continuous interval. In fact, most functions have multiple continuous intervals. This is because functions can have different behaviors in different regions, causing them to be continuous in some intervals and discontinuous in others.
Finding the continuous intervals can help in solving real-world problems by providing a better understanding of the behavior of the function. This can be useful in making predictions and analyzing data. For example, in economics, finding the continuous intervals of a demand curve can help in determining the optimal price for a product.