2 x 5 x 5 = 50
As a product of its prime factors in exponents: 23*52 = 200
Just multiply one pair of your numbers to give you a product, and then multiply their product by your third number.
yes you can multiply 3 by 77 will give you 385 happy now?
1 x 31 31 is a prime number.
2 * 7 * 7 * 13 = 1274
As a product of its prime factors in exponents: 23*52 = 200
Just multiply one pair of your numbers to give you a product, and then multiply their product by your third number.
1 and 211. 211 is prime.
yes you can multiply 3 by 77 will give you 385 happy now?
This question is based on a misunderstanding. Most cryptography is based on numbers that are products of two very large prime numbers. Being the product of two primes means that these numbers are composite - not prime!
To find numbers that multiply to give you 231, you can factorize 231 and look for its prime factors. 231 = 3 * 7 * 11 So, the numbers you can multiply to get 231 are 3, 7, and 11.
1 x 31 31 is a prime number.
2 * 7 * 7 * 13 = 1274
It multiplies the numbers that are given to it. So to multiply 10 by 5 you could use the PRODUCT function to do it, like this: =PRODUCT(10,5) will give 50. =PRODUCT(3,4) will give 12. The Product function multiplies all the numbers in it to give a result. For example: =PRODUCT(5,10,3) will give 150. You can have up to 255 different values in a PRODUCT function, all of which will be multiplied. If you had numbers in every cell from A2 to A12 you could multiply them all in the following way: =PRODUCT(A2:A12)
Take the denominators and factor them into prime numbers. The LCM is the product of the prime numbers that were used the most. Here is an example. 1/30 and 1/24 30=2x3x5 24=2x2x2x3 LCM=2x2x2x3x5=120 Use that as the common denominator and multiply the numerator by the amount needed to multiply the denominator by to get the LCM.
As a product of its prime factors: 2*3*3*3 = 54
If you take all the common prime factors between numbers and multiply them it will give you the gcf.