exponent
(noun)
The power to which a number, symbol, or expression is to be raised. For example, the 3 in
(noun)
The power to which a number, symbol, or expression is to be raised. For example, the
(noun)
The power to which a number, symbol, or expression is to be raised. For example, the 3 in
Examples of exponent in the following topics:
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Negative Exponents
- Solving mathematical problems involving negative exponents may seem daunting.
- However, negative exponents are treated much like positive exponents when applying the rules for operations.
- Note that if we apply the rule for division of numbers with exponents, we have:
- This rule makes it possible to simplify expressions with negative exponents.
- Note that each of the rules for operations on numbers with exponents still apply when the exponent is a negative number.
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Rational Exponents
- Rational exponents are another method for writing radicals and can be used to simplify expressions involving both exponents and roots.
- In such cases, the exponent acts as both a whole number exponent and a root, or fraction exponent.
- We can simplify the fraction in the exponent to 2, giving us $5^2=25$.
- Recall the rule for dividing numbers with exponents, in which the exponents are subtracted.
- Relate rational exponents to radicals and the rules for manipulating them
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Simplifying Exponential Expressions
- The rules for operating on numbers with exponents can be applied to variables with exponents as well.
- Recall the rules for operating on numbers with exponents, which are used when simplifying and solving problems in mathematics.
- For example, consider the rule for multiplying two numbers with exponents.
- To simplify the second part of the expression, apply the rule for multiplying numbers with exponents:
- We can also apply the rule for raising a power to another exponent:
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Introduction to Exponents
- Here, the exponent is 3, and the expression can be read in any of the following ways:
- Some exponents have their own unique pronunciations.
- Let's look at an exponential expression with 2 as the base and 3 as the exponent:
- Any number raised by the exponent $1$ is the number itself.
- Any nonzero number raised by the exponent 0 is 1.
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Simplifying Algebraic Expressions
- For example, look at this figure, as you can see, the expression consists of an exponent, coefficients, terms, operators, constants and variables.
- Usually terms with the highest power (exponent), are written on the left.
- Likewise when the exponent (power) is one.
- When the exponent is zero, the result is always 1.
- Multiplied terms are simplified using exponents.
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Logarithmic Functions
- The logarithm of a number is the exponent by which another fixed value, the base, has to be raised to produce that number.
- In its simplest form, a logarithm is an exponent.
- Taking the logarithm of a number, one finds the exponent to which a certain value, known as a base, is raised to produce that number once more.
- Here we are looking for the exponent to which $3$ is raised to yield $243$.
- More recently, logarithms are most commonly used to simplify complex calculations that involve high-level exponents.
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Scientific Notation
- Multiply the result by a power of 10 using an exponent whose absolute value is the number of places the decimal point was moved.
- Make the exponent positive if the decimal point was moved to the left and negative if the decimal point was moved to the right.
- The exponent is -4 because the decimal point was moved to the left (the exponent would be positive had the decimal been moved to the right) by exactly 4 places.A number written in scientific notation can also be converted to standard form by reversing the process described above.
- This form allows easy comparison of two numbers of the same sign with $m$ as a base, as the exponent $n$ gives the number's order of magnitude.
- Because superscripted exponents like $10^7$ cannot always be conveniently displayed, the letter E or e is often used to represent the phrase "times ten raised to the power of" (which would be written as "$\cdot 10^n$") and is followed by the value of the exponent.
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Scientific Notation
- In order to go between scientific notation and decimals, the decimal point is moved the number of spaces indicated by the exponent.
- A negative exponent tells you to move the decimal point to the right, while a positive exponent tells you to move it to the left.
- Multiplication and division adds or subtracts exponents, respectively.
- Addition and subtraction require the exponents to be the same.
- Scientific notation is a way to express very big and very small numbers with exponents as a power of ten.
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Adding, Subtracting, and Multiplying Radical Expressions
- Radicals and exponents have particular requirements for addition and subtraction while multiplication is carried out more freely.
- Roots are the inverse operation for exponents.
- It's easy, although perhaps tedious, to compute exponents given a root.
- Let's go through some basic mathematical operations with radicals and exponents.
- the value under the radical sign can be written as an exponent,
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Rules for Exponent Arithmetic
- There are rules for operating on numbers with exponents that make it easy to simplify and solve problems.
- There are several useful rules for operating on numbers with exponents.
- Note that you can only add exponents in this way if the corresponding terms have the same base.
- For the first part of the expression, apply the rule for a product raised to an exponent:
- Explain and implement the rules for operating on numbers with exponents