What is it and how do I know when I see it? Direct Variation What is it and how do I know when I see it?
Vocabulary The terms DIRECT VARIATION and DIRECT PROPORTION will be used interchangeably. They mean the same thing. The terms CONSTANT OF PROPORTIONALITY and CONSTANT OF VARIATION will be used interchangeably. They mean the same thing.
What is a Direct Variation or a Direct Proportion? When one value increases, the other value also increases OR When one value decreases, the other value also decreases When one quantity always changes by the same factor (the constant of proportionality), the two quantities are directly proportional.
Real World Examples of Direct Variation Situations… The more time I drive (at a constant rate), the more miles I go. If I increase a recipe for more people, the more of an ingredient I need. The more hours I work, the more money I make. The more CD’s I purchase, the more money it costs. The less cheese I buy at the deli, the less money I pay. The less water you drink, the less trips to the bathroom you have to make.
Now you come up with a few examples of your own… Raise your hand if you have an example of when both values would increase Raise your hand if you have an example of when both values would decrease Choose one of each to write in your notes
How do we know if we have a direct variation? There are three ways to tell. 1. GRAPHS 2. EQUATIONS 3. TABLES
Direct Variation and Its Graph
Characteristics of Direct Proportion Graph… The graph will always go through the origin The graph will always be in Quadrant I and Quadrant III The graph will always be a straight line As the “x” value increases, the “y” value always increases These things will always occur in DIRECT VARIATIONS… if it doesn’t then it is NOT a DIRECT PROPORTION!
Tell if the following graph is a Direct Variation or not.
Tell if the following graph is a Direct Variation or not. Yes No No Yes
Independent VS. Dependent The x-axis is the independent variable; this means it does NOT depend on the y value The y-axis is the dependent variable; this means it DOES depend on the x variable for its value. independent I can choose any value of x, but once I do, there is only one answer for y. dependent
Example… You went on a hiking trip, and you graphed your distances at various times throughout your trip. As the time you hiked increased, the distance traveled also increased. The time is independent (time still goes on whether or not the distance changes), so it is graphed on the x-axis (horizontal). The distance depends on the time; therefore, the distance is the dependent variable and it is graphed on the y-axis (vertical).
Direct Variation and Its Equation y = kx I love math! Do you see the connection?
We say, “Y varies directly as x” it means that y = kx where k is the constant of variation. Another way of writing this is k = x is the independent variable y is the dependent variable k is the constant of proportionality
Examples of Direct Variation Equations y = kx y = 4x where k = 4 y = x where k = 1 y/x =k y = 0.75 where k = 0.75 x
Direct Variation and Its Table y = kx
Direct Variation & Tables of Values You can make a table of values for “x” and “y” and see how the values behave. You could have a direct variation if… As “x” increases in value, “y” also increases in value OR As “x” decreases in value, “y” also decreases in value
Examples of Direct Variation: Note: As “x” increases “y” also increases What is the constant of variation of this table? Start with the direct variation equation: y = kx Pick one pair of x and y values and substitute into the equation 12 = k · 6 (this is a one-step equation, so solve for k) 12/6 = k → k = 2 Check to see if the constant is true for each (x,y) Now you can write the equation for this direct variation: y = 2x
Examples of Direct Variation: Note: x decreases, And y decreases. What is the constant of variation of the table above? Start with the direct variation equation: y = kx Pick one pair of x and y values and substitute into the equation 10 = k · 30 (this is a one-step equation, so solve for k) 10/30 = k → (simplify 10/30) → k = ⅓ Check to see if the constant is true for each (x,y) Now you can write the equation for this direct variation: y = ⅓ · x
Is this a direct variation Is this a direct variation? If yes, give the constant of variation (k) and the equation.
Is this a direct variation Is this a direct variation? If yes, give the constant of variation (k) and the equation.
Is this a direct variation Is this a direct variation? If yes, give the constant of variation (k) and the equation.
Which is the equation that describes the following table of values? y = -2x y = 2x y = ½ x xy = 200
Using Direct Variation to find unknowns (y = kx) Given y varies directly with x, and y = 28 when x=7, Find x when y = 52 2 step process 1. Find the constant of variation y = kx → 28 = k · 7 (divide both sides by 7) k=4 Therefore: X =13 when Y=52 2. Use y = kx. Find the unknown (x). 52= 4x or 52/4 = x x= 13
Using Direct Variation to find unknowns (y = kx) Given that y varies directly with x, and y = 3 when x=9, Find y when x = 40.5 2 step process 1. Find the constant of variation. Y = kx → 3 = k · 9 (divide both sides by 9) k = 3/9 = 1/3 2. Use y = kx. Find the unknown (x). y= (1/3)40.5 y= 13.5 Therefore: X =40.5 when Y=13.5
Using Direct Variation to solve word problems A car uses 8 gallons of gasoline to travel 290 miles. How much gasoline will the car use to travel 400 miles? Step One: Find points in table Step Three: Use the equation to find the unknown. 400 =36.25x 36.25 36.25 or x = 11.03 Step Two: Find the constant of variation and equation: y = kx → 290 = k · 8 290/8 = k y = 36.25 x
Using Direct Variation to solve word problems Julio’s wages vary directly as the number of hours that he works. If his wages for 5 hours are $29.75, how much will they be for 30 hours Step One: Find points in table. Step Two: Find the constant of variation. y = kx → 29.75 = k · 5 k = 5.95 Step Three: Use the equation to find the unknown. y = kx y = 5.95 ·30 y = 178.50
Direct Variation/Direct Proportion Reminder… When you have word problems, you can also set up proportions to solve for the given situation if you prefer. If you’re going to set up a proportion, it’s best to put the y-value (the dependent value) over the x-value (the independent value) because then it’s already set up to solve for “k” the constant of proportionality.
Your assignment Direct Variation Worksheet