1.1 Functions and function notation  (Page 6/21)

Evaluating a function given in tabular form

As we saw above, we can represent functions in tables. Conversely, we can use information in tables to write functions, and we can evaluate functions using the tables. For example, how well do our pets recall the fond memories we share with them? There is an urban legend that a goldfish has a memory of 3 seconds, but this is just a myth. Goldfish can remember up to 3 months, while the beta fish has a memory of up to 5 months. And while a puppy’s memory span is no longer than 30 seconds, the adult dog can remember for 5 minutes. This is meager compared to a cat, whose memory span lasts for 16 hours.

The function that relates the type of pet to the duration of its memory span is more easily visualized with the use of a table. See [link] . http://www.kgbanswers.com/how-long-is-a-dogs-memory-span/4221590. Accessed 3/24/2014.

At times, evaluating a function in table form may be more useful than using equations. Here let us call the function $P.$ The domain    of the function is the type of pet and the range is a real number representing the number of hours the pet’s memory span lasts. We can evaluate the function $P$ at the input value of “goldfish.” We would write $P(\text{goldfish})=2160.$ Notice that, to evaluate the function in table form, we identify the input value and the corresponding output value from the pertinent row of the table. The tabular form for function $P$ seems ideally suited to this function, more so than writing it in paragraph or function form.

Finding function values from a graph

Evaluating a function using a graph also requires finding the corresponding output value for a given input value, only in this case, we find the output value by looking at the graph. Solving a function equation using a graph requires finding all instances of the given output value on the graph and observing the corresponding input value(s).

Reading function values from a graph

Given the graph in [link] ,

1. Evaluate $f\left(2\right).$
2. Solve $f\left(x\right)=4.$

1. To evaluate $f\left(2\right),$ locate the point on the curve where $x=2,$ then read the y -coordinate of that point. The point has coordinates $(2,1),$ so $f\left(2\right)=1.$ See [link] .

   

2. To solve $f\left(x\right)=\mathrm{4,}$ we find the output value $4$ on the vertical axis. Moving horizontally along the line $y=4,$ we locate two points of the curve with output value $\mathrm{4:}$ $(\mathrm{-1},4)$ and $(3,4).$ These points represent the two solutions to $f\left(x\right)=\mathrm{4:}$ $\mathrm{-1}$ or $3.$ This means $f\left(\mathrm{-1}\right)=4$ and $f\left(3\right)=4,$ or when the input is $\mathrm{-1}$ or $\text{3,}$ the output is $\text{4}\text{.}$ See [link] .

   

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