UNIT 2 TRANSFORMATIONS OF FUNCTIONS Final Exam Review
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UNIT 2: TRANSFORMATIONS OF FUNCTIONS Final Exam Review
TOPICS TO COVER v. Transformations of Functions v. Characteristic Points v. Factoring v. Simplifying Radicals
TRANSFORMATIONS OF FUNCTIONS v. You can move a function anywhere on a graph using transformations v. You can go: v. UP AND DOWN v. LEFT AND RIGHT v. STRETCH AND SHRINK v. REFLECT OVER THE X AXIS AND Y AXIS
TRANSFORMATIONS UP AND DOWN v. Use these rules when translating a function up and down v. Up: vf(x) + c v. Example: y = f(x) + 4 will move a function Up 4 v. Down: vf(x) – c v. Example: y = f(x) – 5 will move a function Down 5
TRANSFORMATIONS LEFT AND RIGHT v. Use these rules when translating a function left and right v. Left: vf(x + c) v. Example: y = f(x + 2) will move a function Left 4 v. Right: vf(x – c) v. Example: y = f(x – 6) will move a function Right 6
STRETCH AND SHRINK
REFLECTIONS OVER THE X AXIS AND Y AXIS v. Use these rules when reflecting a functions over the x axis or the y axis v. X axis: v-f(x) v. The negative is OUTSIDE of the function v. Y axis: vf(-x) v. The negative is INSIDE of the parenthesis with the x
GIVEN THE FUNCTION, WRITE THE TRANSFORMATIONS
GIVEN THE FUNCTION, WRITE THE TRANSFORMATIONS
GIVEN THE TRANSFORMATIONS, WRITE THE EQUATION
GIVEN THE TRANSFORMATIONS, WRITE THE EQUATION
CHARACTERISTIC POINTS v. When transforming points, you must figure out: v. If the transformation is affecting the X VALUE or the Y VALUE v. Then ADD, SUBTRACT, or MULTIPLY the point by the correct value v. UP AND DOWN will affect the y value v. LEFT AND RIGHT will affect the x value v. STRETCHING AND SHRINKING will affect the y value
CHARACTERISTIC POINTS v. Example Move the point (5, -2) using the transformations in the function y = f(x – 4) v. Answer: (9, -2) *This transformation moves the function right 4, so the x value is moved right 4 spaces
CHARACTERISTIC POINTS v. Now you try: Move the point (-4, 2) using the functions: 1. y = f(x) – 5 2. y = f(x + 1) 3. y = 3 f(x) 4. y = f(x – 2) + 9
FACTORING v. Factoring helps you to find where a function crosses the X AXIS v. Steps to follow when factoring v. Draw an X v. For the number on the top of the X, MULTIPLY the FIRST number by the LAST number v. For the number on the bottom of the X, write the MIDDLE number v. Figure out which 2 numbers will MULTIPLY to get the top number on the X and ADD to get the bottom number on the X and use reverse Xbox method, or: v. SPLIT THE MIDDLE by rewriting your equation with the 2 numbers that you found on the X. v. Group the FIRST 2 TERMS and the LAST 2 TERMS. v. Take out the GCF of the first 2 terms and the last 2 terms v. Use your GCF and what was left over to write your equation in factored form
FACTORING v. Watch this Video for an example
FACTORING v. Try this one now: Factor 6 x 2 – 13 x + 2
SIMPLIFYING RADICALS v. Simplifying Radicals is necessary in math in order to simplify your answer COMPLETELY v. Steps to Follow: v. Break down the number under the radical using a FACTOR TREE v. CIRCLE any pairs of numbers v. The numbers that have a PAIR can be taken out of the radical and put on the OUTSIDE v. If there is more than one pair, MULTIPLY the numbers on the outside of the radical v. Write what is left over without a pair UNDER the radical symbol
SIMPLIFYING RADICALS
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