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| x, input values, the independent variable, time |
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| y, output values, dependent variable |
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| you are given x, use the function to determine the y values |
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| the slope of a tangent line |
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| an input value function that includes both x and Δx that when simplified, all terms which do not have a Δx cancel out |
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| a vertical line has no slope |
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| a horizontal line has zero slope |
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| a) denominator ≠ 0, b) radicand ≥ 0, c) for a natural log of x, x > 0 |
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| Including these points -3,2: |
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| Not including these points -3,2: |
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| written as “U” joins two sets of coordinates |
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| has the property that f(-x) = f(x) |
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| has the property that f(-x) = -f(x) |
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| also called a step function, it is broken into different segments based on domain restrictions, a function made up of multiple other functions |
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| when the range of one function is used as the domain of a second function, written as f(g(x)) or (f ⚬ g)(x) |
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| Exponential model equation: |
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| Exponential model initial value: |
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| abbreviated “a” in the Exponential model |
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| General form of a conic section: |
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| Ax² + By² + Cx + Dy +Exy + F = 0 |
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| Equation of a conic circle: |
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| (x² / r²) + (y² / r²) = 1 |
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| Equation of a conic ellipse: |
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| (x² / a²) + (y² / b²) = 1 |
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| Equation of a conic horizontal hyperbola: |
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| (x² / a²) + (y² / b²) = 1 |
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| Equation of a conic vertical hyperbola: |
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| (y² / a²) + (x² / b²) = 1 |
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| if a graph of a function, f(x), passes the test, it is a function, as it has only one output (y value) for every input (x value) |
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| If a function has an inverse, it will also pass the horizontal line test, meaning for every x value, it only has one y value |
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| Notion for a function’s inverse: |
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| Rule for having an inverse: |
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| if you plug a into f(x), and get out b, you then plug b into f⁻¹ (x) and get out a, the two functions are inverses |
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| Definition of a logarithm: |
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| Inverse property of a logarithm: |
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| a^(logᵤx) = x, logᵤaˣ = x |
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| logᵤ(x/y) = logᵤx - logᵤy |
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| you can substitute a value for x and get out a value for y |
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| you will get out 0/0 when you plug in a value for x, you can factor the equation to get a function in determinate form |
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| you will get out #/0, meaning the function is not defined at the inputted value, you will have a vertical asymptote |
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| A in the equation f(x) = Asin(Bx - C) + D: |
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| vertical scaling, stretches or squeezes the graph up or down, multiply every y value by a, flip if a is negative and multiply by the value of a |
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| B in the equation f(x) = Asin(Bx - C) + D: |
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| horizontal scaling, squeezes or stretches right/left, multiply every x value by its inverse (1/b), flips is b is negative |
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| C in the equation f(x) = Asin(Bx - C) + D: |
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| horizontal translation, move the graph left or right, right if the sign in the equation is negative, left if the sign in the equation is positive |
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| D in the equation f(x) = Asin(Bx - C) + D: |
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| vertical translation: moves the graph up or down, up if the sign in the equation is positive, down if the sign in the equation is negative |
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| A in the equation af(b(x+c)) + d: |
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| vertical scaling, multiply every y value by a |
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| B in the equation af(b(x+c)) + d: |
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| horizontal scaling: multiply every y value by 1/b (the inverse of b), flips over the y axis if b is negative |
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| C in the equation af(b(x+c)) + d: |
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| horizontal translation: move each x value to the right if the sign in the equation is negative, move each x to the left of the sign in the equation is positive |
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| D in the equation af(b(x+c)) + d: |
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| vertical translation: move each y value up if positive, or each y value down if negative |
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| step function, piecewise graph |
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| step function, piecewise graph |
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