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how can exponent can make it easier to write an expression with a repeated factor in the product
Write the base as many times as the power indicates.2³ would be 2 · 2 · 2.5² would be 5 · 5.
The base is the repeated factor, the exponent is the number of times by which the base is mutltiplied by itself. The exponent is also known as the power, althought the product of the exponential expression can also be described as the power.
Multiplicand times multiplier equals product. If the expression includes a variable, the numerical factor is the coefficient.
The answer is 36.
how can exponent can make it easier to write an expression with a repeated factor in the product
power.
Actually, a base and exponent are not multiplied together. Rather, the exponent indicates the "power" of the base number, the number of times the base is to be multiplied by itself. For example the expression 23, where the base is 2 and the exponent is 3, represents the product of 3 2s; that is, 2 x 2 x 2, equaling 8. Powers of zero are a special case. By convention, and to support exponent operations, any number (excepting zero) to the power of zero equals one. Therefore the number with a base of 34 and exponent of 0 is written as 340, and 340 = 1.
Write the base as many times as the power indicates.2³ would be 2 · 2 · 2.5² would be 5 · 5.
Multiplicand times multiplier equals product. If the expression includes a variable, the numerical factor is the coefficient.
The base is the repeated factor, the exponent is the number of times by which the base is mutltiplied by itself. The exponent is also known as the power, althought the product of the exponential expression can also be described as the power.
Multiplicand times multiplier equals product. If the expression has a variable, the numerical factor of the variable is the coefficient.
An Exponent.
The answer is 36.
A number that represents the product of repeating multiplication is called an exponent. It is written as a superscript to the right of the base number. For example, in the expression 5^3, the base number is 5 and the exponent is 3. This means that 5 is multiplied by itself 3 times (5 * 5 * 5 = 125).
The exponent of the base is a step to solve the problems now the exponent of the product will also adjust a step to solve the equation but it contains more cooperative need.
Monomials can have negative exponents, if the term for the exponent is not a variable, but if it is a variable with a negative exponent, the whole expression will not be classified. This is so because the definition of a monomial states that, a monomial can be a product of a number and one or more variables with positive integer exponents. I hope that answered your question!