How about 1 and 149. There are an infinite number of pairs, an infinite number of triplets, an infinite number of quadruplets, ... an infinite number of n-tuples. And n, itself, can be infinitely large.
19
That's an infinite list that include 40 and 5.
That's an infinite list. 5 and 3 is one such pair.
An infinite amount. Trying to place any numbers at all would require a finite number, to which you could always add one more 0 to.
Infinite men will never die.
Arithmetic, you ADD the same number each time, eg. 2, 5, 8, 11 etc. Geometric, you MULTIPLY by the same number each time, eg. 2, 6, 18, 54 etc.
Because you can't add geometric figures.
With some difficulty. A car doesn't have a simple geometric shape. You'd have to take measurements, and turn the car into a series of blocks whose volume can be calculated, then add the blocks together.
Drawing
you add both of the two numbers together then divide the added number by the quantities of the items, in this case Two numbers and get the result. * * * * * The above is the arithmetic mean, which is quite different from the geometric mean. To get the geometric mean of n positive numbers, you multiply (not add) them together and take the nth root of the answer.
How about 1 and 149. There are an infinite number of pairs, an infinite number of triplets, an infinite number of quadruplets, ... an infinite number of n-tuples. And n, itself, can be infinitely large.
Just add the geometric tolerances
Infinite dilution means such a large dilution so that when you add more solvent there is no change in concentration.
Each integer has a finite number of factors and an infinite number of multiples.
No, the result is always an irrational number. In more advanced math it is possible to add an infinite amount of rational numbers by way of Taylor Series and get an irrational number. This is how numbers like "Pi" and "e" are derived.
That's an infinite list.