# 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. ,

## 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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you have 200 pens, 125 markers and 175 pencils. they are to be divided into several packets such that each packet contains the same number of writing tools of similar type. what is the minimum number of packets required for this arrangement if each packet can have less than ten writing tools of the same kind?

it refers to a diagram or a model of a function; it shows that every input must generate one output.

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