1, 2, 3, 6, 17, 34, 51, 102:
There are no two consecutive numbers that add or multiply to 102.
The product of 17 and 6 is 102. To find the product of two numbers, you simply multiply them together. In this case, 17 multiplied by 6 equals 102.
-103
LCM of 102 and 68 is 204. Write the numbers in prime factorisation in power form; for the LCM multiply together the highest power of each prime across the numbers: 102 = 2 x 3 x 17 68 = 22 x 17 LCM = 22 x 3 x 17 = 204
Well, honey, you take 3 and multiply it by 4 to get 12, then you add 5 to that to get 17, and finally, you multiply that by 6 to get 102. Now, if you were looking for a way to actually get to 24 using those numbers, I suggest you try a different math problem.
There are no two consecutive numbers that add or multiply to 102.
408
204
The product of 17 and 6 is 102. To find the product of two numbers, you simply multiply them together. In this case, 17 multiplied by 6 equals 102.
-102
Multiply them all together: 26*99*46*102*234 = 2,826,066,672 And thanks to the associative and commutative properties of multiplication of integers, you will get the same answer whatever order you multiply the numbers.
The multiples of 102 are numbers that can be evenly divided by 102 without leaving a remainder. To find the multiples of 102, you can multiply 102 by any integer. Some of the multiples of 102 include 102, 204, 306, 408, and so on.
-103
LCM of 102 and 68 is 204. Write the numbers in prime factorisation in power form; for the LCM multiply together the highest power of each prime across the numbers: 102 = 2 x 3 x 17 68 = 22 x 17 LCM = 22 x 3 x 17 = 204
1x102 2x51 3x34
102 because they have no common factors we multiply them.
Well, honey, you take 3 and multiply it by 4 to get 12, then you add 5 to that to get 17, and finally, you multiply that by 6 to get 102. Now, if you were looking for a way to actually get to 24 using those numbers, I suggest you try a different math problem.