9,000 can be written as 9.00 × 103 in scientific notation or
in expanded exponential form as (9 x 103) + (0 x 102) + (0 x 101) + (0 x 100).
All numbers can be expressed using exponents.
13x13x13
27 can be written as 2.70 × 101
22*52*7
4,500 can be written as 4.50 × 103 in scientific notation.
9000 = 32 x 103 = 302 x 101 = 3002 x 10-1
9000 = 23 x 32 x 53
As a product of its prime factors in exponents: 23*32*53 = 9000
All numbers can be expressed using exponents.
7,777 can be written as 7.78 × 103 using exponents.
419,854,000 using exponents is 4.19854 x 108
The prime factorization of 25 using exponents is: 52
The prime factorization of 8 using exponents is: 23
The prime factorization of 268 using exponents is 22 x 671
The prime factorization of 81 using exponents is: 34
The prime factors of 20 using exponents is: 22x 5
In algebraic equations, exponents can contain variables. They can be solved for by using logarithmic rules for exponents.