1 and 17.
1, 3, 17, 51.
When a number "goes evenly" into another number, we just say that number divides another number. Example: 2 divides 102. This is denoted with a vertical bar, "|", e.g. 2|102The number is even, so 2 divides 102.Quick lesson on digital roots. Digital roots are summing the digits of a number, until you are left with a single digit.Example: Find the digital root of 9939 + 9 + 3 = 21 (not a single digit, repeat the process)2 + 1 = 3Therefore, the digital root of 993 is 3.Now this is where digital roots come in handy:If the digital root of a number is equal to 3, 6, or 9 then 3 divides that number.If the digital root of a number is equal to 3, 6, or 9 AND is even then 6 divides that number.If the digital root of a number is equal to 9, then 9 divides it.The digital root of 102 is 1+0+2=3 and 102 is even.So 3|102 and 6|102102/2 = 51, therefore 51|102102/3 = 34, therefore 34|102102/6 = 17, therefore 17|102Numbers that evenly go into 102 are:2, 3, 6, 17, 34, and 51 (1 and 102 can also be included)
About a 66. Divide the number you got correct (in this case 34) by the total number of questions. (51)
3 divides evenly into 51 with no remainder.
The GCF of 34 51 and 85 is 17. This divides into each to give 2, 3 and 5 respectively. There are no further common factors.
3 and 17.
It's a composite number... 51 divides by 3 & 27.
1 and 17.
Yes, because it divides into 51 with no remainder.
1 is the largest number that divides both of those, because 17 is prime and it doesn't divide 48. (Note that 17*2=34 and 17*3=51)
1, 3, 17, 51.
When a number "goes evenly" into another number, we just say that number divides another number. Example: 2 divides 102. This is denoted with a vertical bar, "|", e.g. 2|102The number is even, so 2 divides 102.Quick lesson on digital roots. Digital roots are summing the digits of a number, until you are left with a single digit.Example: Find the digital root of 9939 + 9 + 3 = 21 (not a single digit, repeat the process)2 + 1 = 3Therefore, the digital root of 993 is 3.Now this is where digital roots come in handy:If the digital root of a number is equal to 3, 6, or 9 then 3 divides that number.If the digital root of a number is equal to 3, 6, or 9 AND is even then 6 divides that number.If the digital root of a number is equal to 9, then 9 divides it.The digital root of 102 is 1+0+2=3 and 102 is even.So 3|102 and 6|102102/2 = 51, therefore 51|102102/3 = 34, therefore 34|102102/6 = 17, therefore 17|102Numbers that evenly go into 102 are:2, 3, 6, 17, 34, and 51 (1 and 102 can also be included)
When a number "goes evenly" into another number, we just say that number divides another number. Example: 2 divides 102. This is denoted with a vertical bar, "|", e.g. 2|102The number is even, so 2 divides 102.Quick lesson on digital roots. Digital roots are summing the digits of a number, until you are left with a single digit.Example: Find the digital root of 9939 + 9 + 3 = 21 (not a single digit, repeat the process)2 + 1 = 3Therefore, the digital root of 993 is 3.Now this is where digital roots come in handy:If the digital root of a number is equal to 3, 6, or 9 then 3 divides that number.If the digital root of a number is equal to 3, 6, or 9 AND is even then 6 divides that number.If the digital root of a number is equal to 9, then 9 divides it.The digital root of 102 is 1+0+2=3 and 102 is even.So 3|102 and 6|102102/2 = 51, therefore 51|102102/3 = 34, therefore 34|102102/6 = 17, therefore 17|102Numbers that evenly go into 102 are:2, 3, 6, 17, 34, and 51 (1 and 102 can also be included)
About a 66. Divide the number you got correct (in this case 34) by the total number of questions. (51)
0.6667
The LCM of 34 and 51 is102.