Suppose the amount of a radioactive substance is cut in half every 25 years. If there was originally 500 grams of the substance, could you write a function representing the amount of the substance after years? How much of the substance would there be after 100 years? Will the amount of the substance ever reach 0 grams? After completing this Concept, you'll be able to answer questions like these regarding exponential decay.
General Form of an Exponential Function: , where initial value and
In exponential decay situations, the growth factor must be a fraction between zero and one.
For her fifth birthday, Nadia’s grandmother gave her a full bag of candy. Nadia counted her candy and found out that there were 160 pieces in the bag. Nadia loves candy, so she ate half the bag on the first day. Her mother told her that if she continues to eat at that rate, it will be gone the next day and she will not have any more until her next birthday. Nadia devised a clever plan. She will always eat half of the candy that is left in the bag each day. She thinks that she will get candy every day and her candy will never run out. How much candy does Nadia have at the end of the week? Would the candy really last forever?
Solution: Make a table of values for this problem.
|# of Candies||160||80||40||20||10||5||2.5||1.25|
You can see that if Nadia eats half the candies each day, then by the end of the week she has only 1.25 candies left in her bag.
Write an equation for this exponential function. Nadia began with 160 pieces of candy. In order to get the amount of candy left at the end of each day, we keep multiplying by . Because it is an exponential function, the equation is:
Graphing Exponential Decay Functions
Graph the exponential function .
Solution: Start by making a table of values. Remember when you have a number to the negative power, you are simply taking the reciprocal of that number and taking it to the positive power. Example: .
Now graph the function.
Using the Property of Negative Exponents, the equation can also be written as .
Graph the functions and on the same coordinate axes.
Here is the table of values and the graph of the two functions.
Looking at the values in the table, we see that the two functions are “reverse images” of each other in the sense that the values for the two functions are reciprocals.
Here is the graph of the two functions. Notice that these two functions are mirror images if the mirror is placed vertically on the axis.
If a person takes 125 milligrams of a drug, and after the full dose is absorbed into the bloodstream, there is only 70% left after every hour, write a function that gives the concentration left in the bloodstream after hours. What is the concentration of the drug in the bloodstream after 3 hours?
This will be a decay function in the form . We know the initial value is 125 milligrams. After one hour we multiply that by 0.70 to find 70% of 125. After the second hour, we multiply by 0.7 again and so on:
Since we multiply by 0.7 to find the 70% that is left after each hour, the decay factor is 0.7. The function will be:
We also found that after three hours the amount of the drug in the bloodstream will be 42.875 milligrams.
Sample explanations for some of the practice exercises below are available by viewing the following video. Note that there is not always a match between the number of the practice exercise in the video and the number of the practice exercise listed in the following exercise set. However, the practice exercise is the same in both. CK-12 Basic Algebra: Exponential Decay Functions (10:51)
- Define exponential decay.
- What is true about “b” in an exponential decay function?
- Suppose . What is ? What does this mean in terms of the intercept of an exponential function?
Graph the following exponential decay functions.
The percentage of light visible at
meters is given by the function
- What is the growth factor?
- What is the initial value?
- Find the percentage of light visible at 65 meters.
A person is infected by a certain bacterial infection. When he goes to the doctor, the population of bacteria is 2 million. The doctor prescribes an antibiotic that reduces the bacteria population to
of its size each day.
- Draw a graph of the size of the bacteria population against time in days.
- Find the formula that gives the size of the bacteria population in terms of time.
- Find the size of the bacteria population ten days after the drug was first taken.
- Find the size of the bacteria population after two weeks (14 days).
The population of Kindly, USA is increasing at a rate of 2.14% each year. The population in the year 2010 is 14,578.
- Write an equation to model this situation.
- What would the population of Kindly be in the year 2015?
- When will the population be 45,000?