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Introduction An exponent is a quantity that shows the number of times a given number is being multiplied by itself in an exponential expression. In other words, in an expression written in the form ax, x is the exponent. So far, the exponents we have worked with have all been integers, numbers that are not fractions or decimals (whole numbers). Exponents can also be rational numbers, or numbers that can be expressed as the ratio of two integers. 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Introduction, continued Rational exponents are simply another way to write radical expressions. For example, As we will see in this lesson, the rules and properties that apply to integer exponents also apply to rational exponents. 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Key Concepts An exponential expression contains a base and a power. A base is the quantity that is being raised to a power. A power, also known as an exponent, is the quantity that shows the number of times the base is being multiplied by itself in an exponential expression. In the exponential expression an, a is the base and n is the power. A radical expression contains a root, which can be shown using the radical symbol, . The root of a number x is a number that, when multiplied by itself a given number of times, equals x. 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Key Concepts, continued The root of a function is also referred to as the inverse of a power, and “undoes” the power. For example, In the radical expression, the nth root of the nth power of a is a. Roots can be expressed using a rational exponent instead of the radical symbol. For example, 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Key Concepts, continued A rational exponent is an exponent that is a rational number. A rational number is any number that can be written as , where both m and n are integers and n ≠ 0. The denominator of the rational exponent is the root, and the numerator is the power. For example, 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Key Concepts, continued An exponential equation can be written as y = abx, where x is the independent variable, y is the dependent variable, and a and b are real numbers. To evaluate the equation at non-integer values of x, the equation needs to be evaluated at rational exponents. The properties of integer exponents apply to rational exponents. 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Key Concepts, continued Properties of Exponents 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Key Concepts, continued 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Key Concepts, continued 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Key Concepts, continued Either the power or root can be determined first when evaluating an exponential expression with a rational exponent. 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Key Concepts, continued Rational exponents can be reduced to simplest form before evaluating a radical expression, but use caution when writing equivalent expressions. Use absolute value for expressions with an even root or variable roots. For example, the square root of x2 can be written as , which is equal to |x|. An even root is always positive, so even if a rational exponent can be reduced to a simpler form, the solution should match the original exponential expression. 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Key Concepts, continued Sometimes rational exponents appear as decimals. For example, x0.25 is equal to 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Common Errors/Misconceptions not identifying the denominator of a rational exponent as being a root incorrectly evaluating an exponential expression with multiple operations 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Guided Practice Example 2 How can the expression be rewritten using a rational exponent? 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Guided Practice: Example 2, continued Identify the numerator of the rational exponent. The numerator is the power: c. 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Guided Practice: Example 2, continued Identify the denominator of the rational exponent. The denominator is the root: 8. 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Guided Practice: Example 2, continued Rewrite the expression in the form , where the base is the quantity raised to a power and of which the root is being taken. ✔ 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Guided Practice: Example 2, continued 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Guided Practice Example 3 Evaluate the exponential expression . Round your answer to the nearest thousandth. 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Guided Practice: Example 3, continued Simplify the expression using properties of exponents. An expression with a power of a power can be rewritten using the product of the powers. 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Guided Practice: Example 3, continued Write the rational exponent in simplest form. Be sure to include absolute value if the original expression involved finding an even root. The exponent, , can be reduced to . The original root is even, so include an absolute value. 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Guided Practice: Example 3, continued Evaluate the power and root of the function, using a calculator if needed. Note that the power of a power exponent property can be used to rewrite the expression so either the root or power can be evaluated first. The third root of 3 is not an integer, so a calculator will be needed to approximate the root. 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Guided Practice: Example 3, continued The power, 2, can be evaluated first without using a calculator: 32 = 9. ✔ 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
Guided Practice: Example 3, continued 4.1.1: Defining, Rewriting, and Evaluating Rational Exponents
