<< Chapter < Page Chapter >> Page >
  • Let b = 1. Then f ( x ) = 1 x = 1 for any value of x .

To evaluate an exponential function with the form f ( x ) = b x , we simply substitute x with the given value, and calculate the resulting power. For example:

Let f ( x ) = 2 x . What is f ( 3 ) ?

f ( x ) = 2 x f ( 3 ) = 2 3   Substitute  x = 3. = 8   Evaluate the power .

To evaluate an exponential function with a form other than the basic form, it is important to follow the order of operations. For example:

Let f ( x ) = 30 ( 2 ) x . What is f ( 3 ) ?

f ( x ) = 30 ( 2 ) x f ( 3 ) = 30 ( 2 ) 3 Substitute  x = 3. = 30 ( 8 )   Simplify the power first . = 240 Multiply .

Note that if the order of operations were not followed, the result would be incorrect:

f ( 3 ) = 30 ( 2 ) 3 60 3 = 216,000

Evaluating exponential functions

Let f ( x ) = 5 ( 3 ) x + 1 . Evaluate f ( 2 ) without using a calculator.

Follow the order of operations. Be sure to pay attention to the parentheses.

f ( x ) = 5 ( 3 ) x + 1 f ( 2 ) = 5 ( 3 ) 2 + 1 Substitute  x = 2. = 5 ( 3 ) 3 Add the exponents . = 5 ( 27 ) Simplify the power . = 135 Multiply .
Got questions? Get instant answers now!
Got questions? Get instant answers now!

Let f ( x ) = 8 ( 1.2 ) x 5 . Evaluate f ( 3 ) using a calculator. Round to four decimal places.

5.5556

Got questions? Get instant answers now!

Defining exponential growth

Because the output of exponential functions increases very rapidly, the term “exponential growth” is often used in everyday language to describe anything that grows or increases rapidly. However, exponential growth can be defined more precisely in a mathematical sense. If the growth rate is proportional to the amount present, the function models exponential growth.

Exponential growth

A function that models exponential growth    grows by a rate proportional to the amount present. For any real number x and any positive real numbers a   and b such that b 1 , an exponential growth function has the form

  f ( x ) = a b x

where

  • a is the initial or starting value of the function.
  • b is the growth factor or growth multiplier per unit x .

In more general terms, we have an exponential function , in which a constant base is raised to a variable exponent. To differentiate between linear and exponential functions, let’s consider two companies, A and B. Company A has 100 stores and expands by opening 50 new stores a year, so its growth can be represented by the function A ( x ) = 100 + 50 x . Company B has 100 stores and expands by increasing the number of stores by 50% each year, so its growth can be represented by the function B ( x ) = 100 ( 1 + 0.5 ) x .

A few years of growth for these companies are illustrated in [link] .

Year, x Stores, Company A Stores, Company B
0 100 + 50 ( 0 ) = 100 100 ( 1 + 0.5 ) 0 = 100
1 100 + 50 ( 1 ) = 150 100 ( 1 + 0.5 ) 1 = 150
2 100 + 50 ( 2 ) = 200 100 ( 1 + 0.5 ) 2 = 225
3 100 + 50 ( 3 ) = 250 100 ( 1 + 0.5 ) 3 = 337.5
x A ( x ) = 100 + 50 x B ( x ) = 100 ( 1 + 0.5 ) x

The graphs comparing the number of stores for each company over a five-year period are shown in [link] . We can see that, with exponential growth, the number of stores increases much more rapidly than with linear growth.

Graph of Companies A and B’s functions, which values are found in the previous table.
The graph shows the numbers of stores Companies A and B opened over a five-year period.

Notice that the domain for both functions is [ 0 , ) , and the range for both functions is [ 100 , ) . After year 1, Company B always has more stores than Company A.

Now we will turn our attention to the function representing the number of stores for Company B, B ( x ) = 100 ( 1 + 0.5 ) x . In this exponential function, 100 represents the initial number of stores, 0.50 represents the growth rate, and 1 + 0.5 = 1.5 represents the growth factor. Generalizing further, we can write this function as B ( x ) = 100 ( 1.5 ) x , where 100 is the initial value, 1.5 is called the base , and x is called the exponent .

Questions & Answers

what's atoms
Achol Reply
discuss how the following factors such as predation risk, competition and habitat structure influence animal's foraging behavior in essay form
Burnet Reply
location of cervical vertebra
KENNEDY Reply
What are acid
Sheriff Reply
define biology infour way
Happiness Reply
What are types of cell
Nansoh Reply
how can I get this book
Gatyin Reply
what is lump
Chineye Reply
what is cell
Maluak Reply
what is biology
Maluak
what's cornea?
Majak Reply
what are cell
Achol
Explain the following terms . (1) Abiotic factors in an ecosystem
Nomai Reply
Abiotic factors are non living components of ecosystem.These include physical and chemical elements like temperature,light,water,soil,air quality and oxygen etc
Qasim
Define the term Abiotic
Marial
what is biology
daniel Reply
what is diffusion
Emmanuel Reply
passive process of transport of low-molecular weight material according to its concentration gradient
AI-Robot
what is production?
Catherine
hello
Marial
Pathogens and diseases
how did the oxygen help a human being
Achol Reply
Got questions? Join the online conversation and get instant answers!
Jobilize.com Reply
Practice Key Terms 4

Get Jobilize Job Search Mobile App in your pocket Now!

Get it on Google Play Download on the App Store Now




Source:  OpenStax, Precalculus. OpenStax CNX. Jan 19, 2016 Download for free at https://legacy.cnx.org/content/col11667/1.6
Google Play and the Google Play logo are trademarks of Google Inc.

Notification Switch

Would you like to follow the 'Precalculus' conversation and receive update notifications?

Ask