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9.4 : Direct, Joint, and Inverse Variation

Direct Variation. If a variable (y) is equal to another variable (x) times a constant, we can express this relationship with the phrase:y varies directly as x"This means y = kx, where k is called the constant of variation (k does not equal zero)The graph of y = kx is a line, with y-intercept of

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9.4 : Direct, Joint, and Inverse Variation

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    1. 9.4 : Direct, Joint, and Inverse Variation Translating from words to equation Proportion approach Diagonal hyperbolas

    2. Direct Variation If a variable (y) is equal to another variable (x) times a constant, we can express this relationship with the phrase: y varies directly as x This means y = kx, where k is called the constant of variation (k does not equal zero) The graph of y = kx is a line, with y-intercept of 0 and slope of k One implication of this relationship is that (y1 / x1) = (y2 / x2 So you can form a proportion to solve for a missing value

    3. Example 4-1a

    4. Example 4-1b

    5. Example 4-1c

    6. JOINT VARIATION Joint variation occurs when one quantity varies directly as the product of two or more other quantities Formally, we say y varies jointly as x and z if there is some number k such that y = kxz where neither k,x, nor z equals 0 We call also take a proportion approach: Y1 / (x1z1) = y2 / (x2z2) Note that we cant graph joint variation on the x-y plane since there are more than 2 variables

    7. Example 4-2a

    8. Example 4-2b

    9. Example 4-2c

    10. Inverse Variation With inverse variation, as one quantity increases the other decreases proportionately More formally, we say that y varies inversely as x if y = k / x (where x and k do not equal 0) We can also write this last equation as xy = k Notice that with inverse variation, the product of x and y is always the same number The graph is interesting.. Well look at an example in a minute You can also solve for a missing value using X1y1 = x2y2

    11. Example 4-3a

    12. Example 4-3b

    13. Example 4-3c

    14. Example 4-4a

    15. Example 4-4b

    16. Example 4-4c

    17. Example 4-4d

    18. Example 4-4e

    19. You can combine variations.. Wow! For example, the force exerted between two objects varies jointly with the masses of the two objects and varies inversely with the square of the distance between them (r) We say F = (k * m1 * m2 ) / r2

    20. Homework: Pg. 496 14 38 evens, 50 53 all Also pg. 489, #s 24, 26, 32

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