64, 729, 15625 and so on. Prime numbers to the 6th power.
As a product of its prime factors in exponents: 23*33*7 = 1512
To find the greatest common factor of 21, 42, and 49, we first need to find the prime factors of each number. The prime factors of 21 are 3 and 7, the prime factors of 42 are 2, 3, and 7, and the prime factors of 49 are 7 and 7. The greatest common factor is the product of the common prime factors raised to the lowest power they appear in any of the numbers, which in this case is 7. Therefore, the greatest common factor of 21, 42, and 49 is 7.
No prime numbers equal 84. The only number equal to 84 is 84,and it isn't a prime number.The prime factors of 84 are: 1, 2, 2, 3, and 7
The prime factors of 70 are 2,5 and 7 so their product is 70. This will happen whenever the prime factors occur only once. When we factor 70 into primes, we are asking for those primes who product is equal to 70. However, sometimes we get one or more primes raise to a power in the prime factorization. In this case, the prime raised to a power is no longer a prime so the product of prime factors is less than the number.
343 x 343 = 76. This is a somewhat roundabout way of asking for a square root !
Any prime number to the 6th power, like 64 or 729.
Any number that is the 6th power of a prime integer.
The sevens are the equal factors.
64, 729, 15625 and so on. Prime numbers to the 6th power.
7 to the 6th power divided by 7 to the -3rd power = 40,359,862.8
64, 729, 15625 and so on. Prime numbers to the 6th power.
-0.00000849985
It factors squared are: 7 times 7 = 49
7 to the power 6 equals 117649
The answer is 73.
7 to the sixth power is 7*7*7*7*7*7, which is 117649.