To show 198,000 as a power of 10 using an exponent, we need to express it in scientific notation. 198,000 can be written as 1.98 x 10^5. In this representation, the decimal point is moved 5 places to the left to make the number between 1 and 10, and the exponent indicates how many places the decimal point was moved.
A base raised to a negative power is equal to 1 divided by that base raised to a positive exponent. So 16 raised to (-3/2) is equal to 1/ (16 raised 3/2), or 1/64.
10 to the 10th power is written 1010
By using c-5=3or2
It is: 1.0*10-46
2^3 x 3^3
2^4 * 3^2 * 5^3 * 11 1.98 x 10^5
1000 = 10x10x10 = 103.The 3 is an exponent. It tells you how many times 10 is multiplied by itself to get 1000.
One billionth = 10-9
#include <math.h> and link to the math library, then you can use pow(base, exponent).
A negative exponent indicates division by the base. For example: 8 -3 = 1/(83)= 1/672
No, an exponent does.
The exponent shows how many times the number is being multiplied by itself. So if it's 10 to the power of 3 (which is 1000) ur are showing a shorter way of showing 10x10x10=1000.
an exponent
The exponent in this case is the small number written in superscript (raised) to the right of the 10.
A negative exponent indicates repeated division of a number by itself. Specifically, ( a^{-n} ) is equivalent to ( \frac{1}{a^n} ), meaning you take the reciprocal of the base raised to the positive exponent. This operation reflects the concept that negative exponents represent the inverse of the base raised to the corresponding positive exponent.
The product would be: (10^{10} ) Jupiter hours. The value of the power is: ( 10,000,000,000 ) hours.
An exponent tells how many times a number is used as a factor.