12.1: Inverse Variation Models
Suppose a greeting card company has found that the number of greeting cards it sells is inversely proportional to the price of each card. If it sells 500 cards per month when the price of each card is $2, how many cards would it sell per month if the price of each card were $3? How would you go about calculating this number? In this Concept, you'll learn about inverse variation models so that you can solve problems like this one.
Guidance
In a previous Concept, you learned how to write direct variation models. In direct variation, the variables changed in the same way and the graph contained the origin. But what happens when the variables change in different ways? Consider the following situation.
A group of friends rent a beach house and decide to split the cost of the rent and food. Four friends pay $170 each. Five friends pay $162 each. Six friends pay $157. If nine people were to share the expense, how much would each pay?
Let’s look at this in a table.



4  170 
5  162 
6  157 
9  ??? 
As the number of friends gets larger, the cost per person gets smaller. This is an example of inverse variation.
An inverse variation function has the form
To show an inverse variation relationship, use either of the phrases:
 Is inversely proportional to
 Varies inversely as
Example A
Find the constant of variation of the beach house situation.
Solution:
Use the inverse variation equation to find
You can use this information to determine the amount of expense per person if nine people split the cost.
If nine people split the expense, each would pay $75.56.
Using a graphing calculator, look at a graph of this situation.
The graph of an inverse variation function
If
If
The graph appears to not cross the axes. In fact, this is true of any inverse variation equation of the form
You will investigate these excluded values in later Concepts of this chapter.
Example B
The frequency,
Solution:
Use the inverse variation equation to find
Example C
Determine which of the following is an example of inverse variation:
a. A student spends $4 a day for snacks at school. The total amount she spends each week depends on the number of days school was in session.
b. A school has $200 to spend on prizes for an event. The number of prizes that can be bought depends on the price of each prize.
Solution:
a. The student can attend school 15 days a week, since school is never in session for more than 5 days a week. If school is in session 1 day, she spends $4. If school is in session 2 days, she spends $8. The amount of money she spends is increasing as the number of days increases. This is not an inverse variation function. Another way to think of this problem is to see that there is a constant rate involved: the student spends $4 per day on snacks. This would be a linear function, with a slope of 4. This is not an example of inverse variation.
b. The number of prizes that can be bought is determined by dividing by the cost of each prize. If each prize costs $10, then
Guided Practice
If
Solution:
Since all functions of inverse variation look like:
simply substitute in
Now, use the function to find
Practice
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. CK12 Basic Algebra: Proportionality (17:03)
 Define inverse variation.
 Explain three main differences between direct variation and inverse variation.
Read each statement and decide if the relationship is direct, inverse, or neither.
 The weight of a book __________________ as the number of pages it contains.
 The temperature outside __________________ as the time of day.
 The amount of prize money you receive from winning the lottery __________ as the number of people who split the ticket cost.
 The cost of a ferry ride ___________________ as the number of times you ride.
 The area of a square _______________________ as the length of its side.
 The height from the ground ___________________ as the number of seconds you have been on a roller coaster.
 The time it takes to wash a car ___________________ as the number of people helping.
 The number of tiles it takes to tile a floor ___________________ as the size of each tile.
Graph each inverse equation. State the domain and range.

y=3x 
y=1x2 
f(x)=−4x 
y=10x 
h(x)=−1x 
y=14x 
g(x)=−2x2 
y=4x2 
y=56x
In 20–25, model each situation with an inverse variation equation, finding

y varies inversely asx . Ify=24 whenx=3 , findy whenx=−1.5 . 
d varies inversely as the cube of \begin{align*}t\end{align*}. If \begin{align*}d=23.5\end{align*} when \begin{align*}t=3\end{align*}, find \begin{align*}d\end{align*} when \begin{align*}x=\frac{1}{4}\end{align*}.  If \begin{align*}z\end{align*} is inversely proportional to \begin{align*}w\end{align*} and \begin{align*}z=81\end{align*} when \begin{align*}w=9\end{align*}, find \begin{align*}w\end{align*} when \begin{align*}z=24\end{align*}.
 If \begin{align*}y\end{align*} is inversely proportional to \begin{align*}x\end{align*} and \begin{align*}y=2\end{align*} when \begin{align*}x=8\end{align*}, find \begin{align*}y\end{align*} when \begin{align*}x=12\end{align*}.
 If \begin{align*}a\end{align*} is inversely proportional to the square root of \begin{align*}b\end{align*}, and \begin{align*}a=32\end{align*} when \begin{align*}b=9\end{align*}, find \begin{align*}b\end{align*} when \begin{align*}a=6\end{align*}.
 If \begin{align*}w\end{align*} is inversely proportional to the square of \begin{align*}u\end{align*} and \begin{align*}w=4\end{align*} when \begin{align*}u=2\end{align*}, find \begin{align*}w\end{align*} when \begin{align*}u=8\end{align*}.
 The law of the fulcrum states the distance from the fulcrum varies inversely as the weight of the object. Joey and Josh are on a seesaw. If Joey weighs 40 pounds and sits six feet from the fulcrum, how far would Josh have to sit to balance the seesaw? (Josh weighs 65 pounds.)
 The intensity of light is inversely proportional to the square of the distance between the light source and the object being illuminated. A light meter that is 10 meters from a light source registers 35 lux. What intensity would it register 25 meters from the light source?
 Ohm’s Law states that current flowing in a wire is inversely proportional to the resistance of the wire. If the current is 2.5 amperes when the resistance is 20 ohms, find the resistance when the current is 5 amperes.
 The number of tiles it takes to tile a bathroom floor varies inversely as the square of the side of the tile. If it takes 112 sixinch tiles to cover a floor, how many eightinches tiles are needed?
Mixed Review
 Solve and graph the solutions on a number line: \begin{align*}16 \ge 3x+5\end{align*}.
 Graph on a coordinate plane: \begin{align*}x=\frac{7}{14}\end{align*}.
 Simplify \begin{align*}\sqrt[3]{320}\end{align*}.
 State the Commutative Property of Multiplication.
 Draw the real number hierarchy and provide an example for each category.
 Find 17.5% of 96.
asymptote
An asymptote is a straight line to which, as the distance from the origin gets larger, a curve gets closer and closer but never intersects. The line is often shown with a dashed or dotted line.hyperbola
A hyperbola is a curve with two distinct and similar branches. Geometrically, the curve's two branches are formed by cutting a right circular cone with a plane. Algebraically, hyperbolas come from equations of the form .Inverse Variation
Inverse variation is a relationship between two variables in which the product of the two variables is equal to a constant. As one variable increases the second variable decreases proportionally.Constant of Proportionality
The constant of proportionality, commonly represented as is the constant ratio of two proportional quantities such as and .Direct Variation
When the dependent variable grows large or small as the independent variable does.Joint Variation
Variables exhibit joint variation if one variable varies directly as the product of two or more other variables.Image Attributions
Here you'll learn to use inverse variation to find solutions to problems.