64, 729, 15625 and so on. Prime numbers to the 6th power.
To work this out, you need to write the numbers as the product of their prime factors: 24 = 2x2x2x3 64 = 2x2x2x2x2x2 The next step is to identify any common prime factors. In this case both numbers have three 2s as prime factors. Multiply these together and you get: 2x2x2 = 8 Thus the HCF of 24 and 64 is 8.
29 and 47 are prime numbers because they have only two factors which are themselves and one.
The only prime factor of 64 is 2.
If you're asking about distinct prime factors, there are eight numbers tied with three of them. If not, 64 has six twos.
64 has only one prime factor which is 2.
As a product of its prime factors: 2*2*2*2*2*2 = 64 or as 26 = 64
1, 2, 4, 8, 16, 32, 64 2 is the only prime factor.
64, 729, 15625 and so on. Prime numbers to the 6th power.
64, 729, 15625 and so on. Prime numbers to the 6th power.
If you're asking about distinct prime factors, there are eight numbers tied with three of them. If not, 64 has six twos.
To do this you first need to split the numbers up into their prime factors: 8 = 2x2x2 64 = 2x2x2x2x2x2 The next step is to identify any common prime factors. In this case both numbers have three 2s as prime factors. Multiply these together: 2x2x2 = 8 Thus the HCF of 8 and 64 is 8.
The trivial answers are 0 and 1, 1x1x1x1.... = 1 so it can have 64 factors. Also 2x2x2x2x.... (64 times) = 264 is also a number with 64 factors If you mean 64 prime factors ... 1x2x3x5x7x .... use the first 64 prime numbers.
As a product of its prime factors: 2311 = 66
64, 729, 15625 and so on. Prime numbers to the 6th power.
To work this out, you need to write the numbers as the product of their prime factors: 24 = 2x2x2x3 64 = 2x2x2x2x2x2 The next step is to identify any common prime factors. In this case both numbers have three 2s as prime factors. Multiply these together and you get: 2x2x2 = 8 Thus the HCF of 24 and 64 is 8.
29 and 47 are prime numbers because they have only two factors which are themselves and one.