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Laws of exponents
- 1. Learning Targets: • I can define exponent; • I can do laws of exponents; and • I can determined different kinds of laws of exponents.
- 3. Exponents 3 5 Power base exponent 3 3 means that is the exponential form of t Example: he number 125 5 5 . 125 53 means 3 factors of 5 or 5 x 5 x 5
- 4. The Laws of Exponents: #1: Exponential form: The exponent of a power indicates how many times the base multiplies itself. n n times x x x x x x x x 3 Example: 5 5 5 5 n factors of x
- 5. #2: Multiplying Powers: If you are multiplying Powers with the same base, KEEP the BASE & ADD the EXPONENTS! m n m n x x x So, I get it! When you multiply Powers, you add the exponents! 512 2 2 2 2 9 3 6 3 6
- 6. #3: Dividing Powers: When dividing Powers with the same base, KEEP the BASE & SUBTRACT the EXPONENTS! m m n m n n x x x x x So, I get it! When you divide Powers, you subtract the exponents! 16 2 2 2 2 4 2 6 2 6
- 7. Try these: 2 2 3 3 . 1 4 2 5 5 . 2 2 5 . 3 a a 7 2 4 2 . 4 s s 3 2 ) 3 ( ) 3 ( . 5 3 7 4 2 . 6 t s t s 4 12 . 7 s s 5 9 3 3 . 8 4 4 8 12 . 9 t s t s 5 4 8 5 4 36 . 10 b a b a
- 8. 2 2 3 3 . 1 4 2 5 5 . 2 2 5 . 3 a a 7 2 4 2 . 4 s s 3 2 ) 3 ( ) 3 ( . 5 3 7 4 2 . 6 t s t s 81 3 3 4 2 2 7 2 5 a a 9 7 2 8 4 2 s s SOLUTIONS 6 4 2 5 5 243 ) 3 ( ) 3 ( 5 3 2 7 9 3 4 7 2 t s t s
- 9. 4 12 . 7 s s 5 9 3 3 . 8 4 4 8 12 . 9 t s t s 5 4 8 5 4 36 . 10 b a b a SOLUTIONS 8 4 12 s s 81 3 3 4 5 9 4 8 4 8 4 12 t s t s 3 5 8 4 5 9 4 36 ab b a
- 10. #4: Power of a Power: If you are raising a Power to an exponent, you multiply the exponents! n m mn x x So, when I take a Power to a power, I multiply the exponents 5 2 3 2 3 5 5 ) 5 (
- 11. #5: Product Law of Exponents: If the product of the bases is powered by the same exponent, then the result is a multiplication of individual factors of the product, each powered by the given exponent. n n n xy x y So, when I take a Power of a Product, I apply the exponent to all factors of the product. 2 2 2 ) ( b a ab
- 12. #6: Quotient Law of Exponents: If the quotient of the bases is powered by the same exponent, then the result is both numerator and denominator , each powered by the given exponent. n n n x x y y So, when I take a Power of a Quotient, I apply the exponent to all parts of the quotient. 81 16 3 2 3 2 4 4 4
- 13. Try these: 5 2 3 . 1 4 3 . 2 a 3 2 2 . 3 a 2 3 5 2 2 . 4 b a 2 2 ) 3 ( . 5 a 3 4 2 . 6 t s 5 . 7 t s 2 5 9 3 3 . 8 2 4 8 . 9 rt st 2 5 4 8 5 4 36 . 10 b a b a
- 14. 5 2 3 . 1 4 3 . 2 a 3 2 2 . 3 a 2 3 5 2 2 . 4 b a 2 2 ) 3 ( . 5 a 3 4 2 . 6 t s SOLUTIONS 10 3 12 a 6 3 2 3 8 2 a a 6 10 6 10 4 2 3 2 5 2 2 16 2 2 b a b a b a 4 2 2 2 9 3 a a 12 6 3 4 3 2 t s t s
- 15. 5 . 7 t s 2 5 9 3 3 . 8 2 4 8 . 9 rt st 2 5 4 8 5 4 36 10 b a b a SOLUTIONS 6 2 2 3 2 2 2 3 81 9 9 b a b a ab 2 8 2 2 4 r t s r st 8 2 4 3 3 5 5 t s
- 16. #7: Negative Law of Exponents: If the base is powered by the negative exponent, then the base becomes reciprocal with the positive exponent. 1 m m x x So, when I have a Negative Exponent, I switch the base to its reciprocal with a Positive Exponent. Ha Ha! If the base with the negative exponent is in the denominator, it moves to the numerator to lose its negative sign! 9 3 3 1 125 1 5 1 5 2 2 3 3 and
- 17. #8: Zero Law of Exponents: Any base powered by zero exponent equals one. 0 1 x 1 ) 5 ( 1 1 5 0 0 0 a and a and So zero factors of a base equals 1. That makes sense! Every power has a coefficient of 1.
- 18. Try these: 0 2 2 . 1 b a 4 2 . 2 y y 1 5 . 3 a 7 2 4 . 4 s s 4 3 2 3 . 5 y x 0 4 2 . 6 t s 1 2 2 . 7 x 2 5 9 3 3 . 8 2 4 4 2 2 . 9 t s t s 2 5 4 5 4 36 . 10 b a a
- 19. SOLUTIONS 0 2 2 . 1 b a 1 5 . 3 a 7 2 4 . 4 s s 4 3 2 3 . 5 y x 0 4 2 . 6 t s 1 5 1 a 5 4s 12 8 12 8 4 81 3 y x y x 1
- 20. 1 2 2 . 7 x 2 5 9 3 3 . 8 2 4 4 2 2 . 9 t s t s 2 5 4 5 4 36 . 10 b a a SOLUTIONS 4 4 1 x x 8 8 2 4 3 1 3 3 4 4 2 2 2 t s t s 2 10 10 2 2 81 9 a b b a