There need not be any patterns at all.
The denominator will change for some operations and not for others.
No, there are no ongoing patterns. There are some micro-patterns inside pi (such as 123456789) but they have no meaning.
some of them denominatar are divisible by numerator and some or not
If the denominator is zero at some point, then the function is not defined at the corresponding points.
Only after simplification. If you subtract numbers with the same denominator, you have to put the original denominator in the result, but you can later simplify this, in some cases. A simple example: 3/4 - 1/4 = 2/4. Same denominator, but this can be simplified to 1/2.
The correct spelling is "common denominator" and the song is "Common Denominator" (bonus track on My World, 2009).
1 if u meant the greatest common denomenater: 6 if u meant lest common multiple: 36
The denominator will change for some operations and not for others.
no
Desceibe some of the general patterns you observe for temperature and salinity
No, there are no ongoing patterns. There are some micro-patterns inside pi (such as 123456789) but they have no meaning.
Some simple Christmas ornament patterns are present shapes, Santa shapes, patterns on ornaments likes squares, diamonds, triangles, circles and wavy lines.
some of them denominatar are divisible by numerator and some or not
Distribution patterns are regular patterns of performance (or occurrence) of some thing that appears in different places. To understand distribution patterns, it is important to understand other factors, such as climate, landforms, and vegetation.
something
for profit
Well, it depends what the fraction is so mainly the situation is for example if the fraction is 45/34 that wouldn't work because the numerater is larger than the denomenater. I hope this helps you out some!