Definition
Definition (little o near a point). Let  and
 and  be two functions, and let
 be two functions, and let  . We say that
. We say that  is little o of
 is little o of  near
 near  iff for every
 iff for every  there exists
 there exists  such that
 such that  implies
 implies  . Some equivalent ways to say the same thing are:
. Some equivalent ways to say the same thing are:
| Notation | Comments | 
|  is little o of  near   | 
|  as  | In this notation, we think of  as a set. | 
|  as   | 
|  near   | 
|  near   | 
Definition (little o at infinity). Let  and
 and  be two functions. We say that
 be two functions. We say that  is little o of
 is little o of  at infinity iff for every
 at infinity iff for every  there exists
 there exists  such that for all
 such that for all  ,
,  implies
 implies  .
.
Exercise. Can we write just  or
 or  or
 or  or
 or  ?
?
Expand to see solution:
In general we can't because for this notation to make sense, we also need to know where the argument 

 is going. In algorithms, we have 

, but in analysis (e.g. in some definitions of differentiability) we have 

.
 
Exercise. If we are being a little pedantic, what is wrong with saying " as
 as  "?
"?
Expand to see solution:
We are saying 

, but we haven't clarified what 

 is. Instead, we are relying on the reader to assume that 

 is an argument to 

 and 

.
 
Exercise. Interpret the meaning of  .
.
Expand to see solution:
It depends on where 

 is going. We want 

 whenever 

, so this is only true when 

.
 
Properties
Proposition. Let  and
 and  be two functions, and suppose
 be two functions, and suppose  for all
 for all  . Then f is little o of g near a if and only if
. Then f is little o of g near a if and only if  .
.
Proposition. transitivity
Proposition. we can replace the  in the definition with
 in the definition with  , right?
, right?
Exercise. Let  be constants. Interpret the statement "
 be constants. Interpret the statement " as
 as  ".
".
Expand to see solution:
The statement is saying 

 where 

.
Because of the nested little o, we need to expand  . Here,
. Here,  so
 so  .
.
Now we verify:

 
References
[1]
[2]