Why It Matters: Exponential and Logarithmic Equations and Models

Where are applications of exponential and logarithmic functions found?

Image shows a man’s hand holding a fossil outside near water.
You’ve gotten a job assisting an archeologist who has just discovered a fossil that appears to be an animal bone.  She assigns you the task of determining how old the bone is.  Where do you start?

Fortunately, you know that living things contain a radioactive form of carbon called carbon-14.  And like all radioactive elements, carbon-14 decays at a predictable rate known as the half-life.  The half-life of a radioactive element is the amount of time required for half of a sample to decay.  The half-life of carbon-14 is 5,730 years.  Given an original sample of carbon-14 is 100g, the table shows the mass remaining after each half-life.

Amount of sample (g) 100 50 25 12.5 6.25
Time (years) 0 5730 11,460 17,190 22,920

 

But, what if the bone started with a different mass of carbon-14 or a different number of years has passed?  To better study the bone, you need to know that the rate of decay of a radioactive element can be modeled with an exponential function.  Given a couple of data points, you can build a model that represents the decay of carbon over time for your specimen.

As you complete this module, keep the following questions in mind.  Then at the end of the module, we’ll return to the develop a model for the decay of carbon-14.

  • How do you develop a model for the decay of carbon-14?
  • How can you use the model to determine the amount of carbon-14 that remains after any number of years?
  • What would a graph of the decay of carbon-14 look like?

 

Learning Objectives

Logarithmic Properties

  • Use power, product, and quotient rules to expand and condense logarithms
  • Use the change-of-base formula for logarithms

Exponential and Logarithmic Equations

  • Use like bases to solve exponential equations
  • Use logarithms to solve exponential equations
  • Use the definition of a logarithm to solve logarithmic equations
  • Use the one-to-one property of logarithms to solve logarithmic equations
  • Solve applied problems involving exponential and logarithmic equations

Exponential and Logarithmic Models

  • Model exponential growth and decay
  • Use Newton’s Law of Cooling
  • Use logistic-growth models
  • Choose an appropriate model for data
  • Express an exponential model in base e
    e

  • Build an exponential model from data