I have submitted a possible solution on the Discussion page. Going there will be a 'spoiler'.
The solution depends on how many numbers are missing and where they were. If there is only one, If it is between 4 and -5 then -0.5 If it is between -5 and -10 then -8 If it is between -10 and -16 then -13 Of course, the answer would be different if there were more than one number missing.
105.1 Add the numbers together, divide that total by the number of numbers. 1051 divided by 10 = 105.1
The gcf of the numbers is 15 so the ratio is 7 to 10
10 and 11 sqrt 100 =10 sqrt 121 = 11
105 * 105 = 1010 which is 10 billion.
The least common multiple of the numbers 36, 105 and 10 is 1,260.
The solution depends on how many numbers are missing and where they were. If there is only one, If it is between 4 and -5 then -0.5 If it is between -5 and -10 then -8 If it is between -10 and -16 then -13 Of course, the answer would be different if there were more than one number missing.
2 and 51 and 102 and 105 and 10
105.1 Add the numbers together, divide that total by the number of numbers. 1051 divided by 10 = 105.1
2 and 5 are both prime numbers. If you multiply them together, the answer is 10. 10 is the LCM of 2 and 5.
The gcf of the numbers is 15 so the ratio is 7 to 10
2.5*6*7 = 105 3.5*5*6 = 105 3*5*7 = 105 and many more.
The addends (numbers to be added) must have the same exponent (power of 10). Thus 2.3*104 + 4.5*105 = 0.23*105 + 4.5*105 = (0.23 + 4.5)*105 = 4.73*105
9;7;6;3;2;1;0
105/10 = 10.5
10 and 11 sqrt 100 =10 sqrt 121 = 11
10 divided by 3 and 1/3 = 3