**Which Exponential Function Is Represented By The Graph**. The following graph of the basic exponential function y=a x will provide. Write the exponential function represented by the graph.

Solution to example 2 reading the graph, we note that for x = 2, y = 1 and for x = 3, y = 2. Here is the table of values that are used to graph the exponential function g (x) = (1/2) x. Which exponential function is represented by the graph?

Contents

- 1 We'll Just Try Out Some Values For X And See What We Get For Y.
- 2 The Graph Of The Exponential Decaying Function Is A Decreasing One.
- 3 In Fact, For Any Exponential.
- 4 • The Point (1, B) Is Always On The Graph Of The Exponential Function Of The Form $Latex Y={{B}^X}$.
- 5 This Is Because Any Number B Raised To The Power Of 1 Equals B.

### We'll Just Try Out Some Values For X And See What We Get For Y.

Create a table in order to. Common examples of exponential functions. The initial value of the function is 7.

### The Graph Of The Exponential Decaying Function Is A Decreasing One.

An exponential function can describe growth or decay. The graph in red is representative of exponential functions; Which exponential function is represented by the graph?

### In Fact, For Any Exponential.

Find the exponential function of the form y = bx − c whose graph is shown below. Create a table of points. Each output value is the product of the previous output and the base, \displaystyle 2.

### • The Point (1, B) Is Always On The Graph Of The Exponential Function Of The Form $Latex Y={{B}^X}$.

Graph an exponential function of the form f(x) = bx + c + d draw the horizontal asymptote y = d. Horizontal asymptote (y = 0, unless the function has been. G ( x) = ( 1 2) x.

### This Is Because Any Number B Raised To The Power Of 1 Equals B.

The following graph of the basic exponential function y=a x will provide. To graph an exponential function, the best way is to use these pieces of information: The range of an exponential function can be determined by the horizontal asymptote of the graph, for example, \ (y = d\), and by seeing whether the graph is above \ (y.