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Physics Day 5 Objectives SWBAT do exponential math Understand factors of 10 Agenda Do Now Notes Worksheet HW2 due tonight HW3 Thursday
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Kiwi thinking about those Physics experiments with apples
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Day 5 Exponential Math
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Exponential Expression An exponential expression is: where is called the base and is called the exponent An exponent applies only to what it is immediately adjacent to (what it touches) Example:
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Meaning of Exponent The meaning of an exponent depends on the type of number it is An exponent that is a natural number (1, 2, 3,…) tells how many times to multiply the base by itself Examples:
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Rules of Exponents Product Rule: When two exponential expressions with the same base are multiplied, the result is an exponential expression with the same base having an exponent equal to the sum of the two exponents Examples:
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Rules of Exponents Power of a Power Rule: When an exponential expression is raised to a power, the result is an exponential expression with the same base having an exponent equal to the product of the two exponents Examples:
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Rules of Exponents Power of a Product Rule: When a product is raised to a power, the result is the product of each factor raised to the power Examples:
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Rules of Exponents Power of a Quotient Rule: When a quotient is raised to a power, the result is the quotient of the numerator to the power and the denominator to the power Example:
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Rules of Exponents Don’t Make Up Your Own Rules Many people try to make these rules: Proof:
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Using Combinations of Rules to Simplify Expression with Exponents Examples:
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Integer Exponents Thus far we have discussed the meaning of an exponent when it is a natural (counting) number: 1, 2, 3, … An exponent of this type tells us how many times to multiply the base by itself Next we will learn the meaning of zero and negative integer exponents Examples:
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Integer Exponents Before giving the definition of zero and negative integer exponents, consider the pattern:
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Definition of Integer Exponents The patterns on the previous slide suggest the following definitions: These definitions work for any base,, that is not zero:
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Quotient Rule for Exponential Expressions When exponential expressions with the same base are divided, the result is an exponential expression with the same base and an exponent equal to the numerator exponent minus the denominator exponent Examples:.
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“Slide Rule” for Exponential Expressions When both the numerator and denominator of a fraction are factored then any factor may slide from the top to bottom, or vice versa, by changing the sign on the exponent Example: Use rule to slide all factors to other part of the fraction: This rule applies to all types of exponents Often used to make all exponents positive
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Simplify the Expression: (Show answer with positive exponents)
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Scientific Notation A number is written in scientific notation when it is in the form: Examples: Note: When in scientific notation, a single non- zero digit precedes the decimal point
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Converting from Normal Decimal Notation to Scientific Notation Given a decimal number: –Move the decimal to the right of the first non-zero digit to get the “a” –Count the number of places the decimal was moved If it was moved to the right “n” places, use “-n” as the exponent on 10 If it was moved to the left “n” places, use “n” as the exponent on 10 Examples:.
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Converting from Scientific Notation to Decimal Notation Given a number in scientific notation: –Move the decimal in “a” to the right “n” places, if “n” is positive –Move the decimal in “a” to the left “n” places, if “n” is negative Examples:.
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Applications of Scientific Notation Scientific notation is often used in situations where the numbers involved are extremely large or extremely small In doing calculations involving multiplication and/or division of numbers in scientific notation it is best to use commutative and associative properties to rearrange and regroup the factors so as to group the “a” factors and powers of 10 separately and to use rules of exponents to end up with an answer in scientific notation It is also common to round the answer to the least number of decimals seen in any individual number
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Example of Calculations Involving Scientific Notation Perform the following calculations, round the answer to the appropriate number of places and in scientific notation
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Review
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