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functions can be represented by this form—the given values of x are plugged in to a certain equation in order to get the y-values. ,

## functions can be represented by this form—the given values of x are plugged in to a certain equation in order to get the y-values.

Functions can be represented by this form—the given values of x are plugged in to a certain equation in order to get the y-values. This is known as an algebraic representation of a function. In many cases, the algebraic representation of a function is very helpful in understanding the behavior of the function. For example, consider the function f(x) = x2 + 3x + 5. The algebraic representation of this function is very simple: for any value of x that we plug into the equation, we will get the corresponding y-value for the function. So, if we plug in x = 2, then we will get f(2) = 4 + 6 + 5 = 15. Similarly, if we plug in x = 3, then we will get f(3) = 9 + 9 + 5 = 23. We can see from this that as x increases by 1, the corresponding y-value also increases by 8. This pattern will continue no matte

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