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The power or exponent, such as 3^x [3x: 3 is the base, x is the exponent]: you multiply 3 by itself, x times. So if you have 3^6 = 3 * 3 * 3 * 3 * 3 * 3 = 729. The ^ means raise to the power, or to the exponent. It is used in some programming languages and in spreadsheet software.
No, an exponent is not called a base number. the base is the number before the exponent: 34. 3 is the base, 4 is the exponent the expont could also be refered to as three to the fourth power
It is 9*9*9 = 729
If we consider 2 raised to the power 3 i.e.,2^3, then the number 2 is called the BASE and 3 is called the EXPONENT IT means 2 is multiplied to itself 3 times
5
3^6 = 729
The power or exponent, such as 3^x [3x: 3 is the base, x is the exponent]: you multiply 3 by itself, x times. So if you have 3^6 = 3 * 3 * 3 * 3 * 3 * 3 = 729. The ^ means raise to the power, or to the exponent. It is used in some programming languages and in spreadsheet software.
3 to power of 6= 216 , 3 to power of 9= 729
No, an exponent is not called a base number. the base is the number before the exponent: 34. 3 is the base, 4 is the exponent the expont could also be refered to as three to the fourth power
It is 9*9*9 = 729
As a product of its prime factors in exponent form: 3^6 = 729
If you are referring to the number 125 itself, then 125 is the base, and 1 is the exponent. This would be written as 1251. This number can also be written as 53, as 5 cubed also equals 125. In this case, 5 is the base, and 3 is the exponent. The main integer value is the base, the number to the upper right of it is the exponent. The exponent tells you how many times to multiply the base number by itself to find the answer.
9x9x9=9^3 which is = to 729
The base is 7 and the exponent is 3.
Base and exponent are the two parts of a power. The base is the lower left, normal-sized, number. The exponent is the upper-right, small (i.e., superscript) number. For example, in: 34 3 is the base, 4 is the exponent. In the simplest case, a power specifies a repeated multiplication. The base tells you what number to multiply by itself, the exponent tells you how many times to multiply it. Thus, 34 = 3 x 3 x 3 x 3 (that is, multiply 3 by itself, using the number 4 times as a factor)
You can define any base you like and calculate an appropriate exponent or, you can pick an exponent and calculate the base. So you can have base 25, with exponent 2 or base 5 and exonent 4 or base e (the base for natural logarithms) and exponent 6.437752 (to 6 dp) or base 10 and exponent 2.795880 (to 6 dp) or base 2 and exponent 9.287712 etc or base 8.54988 (to 3 dp) and exponent 3 or base 3.623898 (to 3 dp) and exponent 5 etc There is no need for the base to be an integer or even rational. Probably the most important bases in advanced mathematics is e, which is a transcendental number. Similarly, there is no need for the exponent to be an integer.
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.