Does it make sense to talk about limit in this case?












4














Suppose I have a function that is defined only for values bigger than $a$, does it make sense to talk about limit of a function at that point, or only about limit from the right? It seems to me that we can talk about limit of a function, because if we look at the definition
$$forall epsilon>0 ; exists delta>0 ; forall xin A: ; 0<|x-a|<delta Rightarrow |f(x)-L|<epsilon$$
($A$ is domain of the function), we have the requirement of $x$ being in the domain and so limit still would make sense. But I am not sure.



Thanks in advance.










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    4














    Suppose I have a function that is defined only for values bigger than $a$, does it make sense to talk about limit of a function at that point, or only about limit from the right? It seems to me that we can talk about limit of a function, because if we look at the definition
    $$forall epsilon>0 ; exists delta>0 ; forall xin A: ; 0<|x-a|<delta Rightarrow |f(x)-L|<epsilon$$
    ($A$ is domain of the function), we have the requirement of $x$ being in the domain and so limit still would make sense. But I am not sure.



    Thanks in advance.










    share|cite|improve this question



























      4












      4








      4







      Suppose I have a function that is defined only for values bigger than $a$, does it make sense to talk about limit of a function at that point, or only about limit from the right? It seems to me that we can talk about limit of a function, because if we look at the definition
      $$forall epsilon>0 ; exists delta>0 ; forall xin A: ; 0<|x-a|<delta Rightarrow |f(x)-L|<epsilon$$
      ($A$ is domain of the function), we have the requirement of $x$ being in the domain and so limit still would make sense. But I am not sure.



      Thanks in advance.










      share|cite|improve this question















      Suppose I have a function that is defined only for values bigger than $a$, does it make sense to talk about limit of a function at that point, or only about limit from the right? It seems to me that we can talk about limit of a function, because if we look at the definition
      $$forall epsilon>0 ; exists delta>0 ; forall xin A: ; 0<|x-a|<delta Rightarrow |f(x)-L|<epsilon$$
      ($A$ is domain of the function), we have the requirement of $x$ being in the domain and so limit still would make sense. But I am not sure.



      Thanks in advance.







      real-analysis limits






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      edited 2 days ago









      zipirovich

      11.1k11631




      11.1k11631










      asked 2 days ago









      Юрій ЯрошЮрій Ярош

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          0














          If a function is not defined for values smaller than or equal to $a$, then you can't deal with anything in that range of values. As such, for limits, you can certainly talk about a limit from the right. A general "limit" would either be considered to not exist, but I believe it would usually mean determining it only from the right, as mentioned. This might depend, to some extent, on the specific context in which the limit is being asked about. I hope this answers what you're specifically asking about.






          share|cite|improve this answer





























            0














            Yes, you are right. In such a case, the concepts of limit and right-hand limit coincide.



            For example, it doesn't make any difference whether you write
            $$
            lim_{x to 0} sqrt{x} = 0
            $$

            or
            $$
            lim_{x to 0^+} sqrt{x} = 0
            .
            $$






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              2 Answers
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              0














              If a function is not defined for values smaller than or equal to $a$, then you can't deal with anything in that range of values. As such, for limits, you can certainly talk about a limit from the right. A general "limit" would either be considered to not exist, but I believe it would usually mean determining it only from the right, as mentioned. This might depend, to some extent, on the specific context in which the limit is being asked about. I hope this answers what you're specifically asking about.






              share|cite|improve this answer


























                0














                If a function is not defined for values smaller than or equal to $a$, then you can't deal with anything in that range of values. As such, for limits, you can certainly talk about a limit from the right. A general "limit" would either be considered to not exist, but I believe it would usually mean determining it only from the right, as mentioned. This might depend, to some extent, on the specific context in which the limit is being asked about. I hope this answers what you're specifically asking about.






                share|cite|improve this answer
























                  0












                  0








                  0






                  If a function is not defined for values smaller than or equal to $a$, then you can't deal with anything in that range of values. As such, for limits, you can certainly talk about a limit from the right. A general "limit" would either be considered to not exist, but I believe it would usually mean determining it only from the right, as mentioned. This might depend, to some extent, on the specific context in which the limit is being asked about. I hope this answers what you're specifically asking about.






                  share|cite|improve this answer












                  If a function is not defined for values smaller than or equal to $a$, then you can't deal with anything in that range of values. As such, for limits, you can certainly talk about a limit from the right. A general "limit" would either be considered to not exist, but I believe it would usually mean determining it only from the right, as mentioned. This might depend, to some extent, on the specific context in which the limit is being asked about. I hope this answers what you're specifically asking about.







                  share|cite|improve this answer












                  share|cite|improve this answer



                  share|cite|improve this answer










                  answered 2 days ago









                  John OmielanJohn Omielan

                  1,19918




                  1,19918























                      0














                      Yes, you are right. In such a case, the concepts of limit and right-hand limit coincide.



                      For example, it doesn't make any difference whether you write
                      $$
                      lim_{x to 0} sqrt{x} = 0
                      $$

                      or
                      $$
                      lim_{x to 0^+} sqrt{x} = 0
                      .
                      $$






                      share|cite|improve this answer


























                        0














                        Yes, you are right. In such a case, the concepts of limit and right-hand limit coincide.



                        For example, it doesn't make any difference whether you write
                        $$
                        lim_{x to 0} sqrt{x} = 0
                        $$

                        or
                        $$
                        lim_{x to 0^+} sqrt{x} = 0
                        .
                        $$






                        share|cite|improve this answer
























                          0












                          0








                          0






                          Yes, you are right. In such a case, the concepts of limit and right-hand limit coincide.



                          For example, it doesn't make any difference whether you write
                          $$
                          lim_{x to 0} sqrt{x} = 0
                          $$

                          or
                          $$
                          lim_{x to 0^+} sqrt{x} = 0
                          .
                          $$






                          share|cite|improve this answer












                          Yes, you are right. In such a case, the concepts of limit and right-hand limit coincide.



                          For example, it doesn't make any difference whether you write
                          $$
                          lim_{x to 0} sqrt{x} = 0
                          $$

                          or
                          $$
                          lim_{x to 0^+} sqrt{x} = 0
                          .
                          $$







                          share|cite|improve this answer












                          share|cite|improve this answer



                          share|cite|improve this answer










                          answered 2 days ago









                          Hans LundmarkHans Lundmark

                          35.2k564114




                          35.2k564114






























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