Answer to Question #149663 in Abstract Algebra for Sourav Mondal

Let "I" be an ideal of a ring "R" and "[R:I]=\\{x\\in R\\ |\\ rx \\in I\\text{ for all }r\\in R\\}"

(i) Let "a\\in[R: I]" and "b\\in[R: I]". Then "ra \\in I" and "rb \\in I" for all "r\\in R", and therefore, "r(a-b)=ra-rb \\in I" for all "r\\in R". We conclude that "a-b\\in[R: I]", and thus "[R: I]" is a subgroup of the additive group of a ring "R".

Let "a\\in[R: I]" and "s\\in R" be arbitrary. It follows that "ra \\in I\\text{ for all }r\\in R". Since "I" is an ideal, "s(ra)\\in I" for all "s\\in R" and "r(as)=(ra)s\\in I" for all "r\\in R". Consequently, "ra\\in [R: I]" and "as\\in[R: I]" for all "s,r\\in R", and "[R: I]" is an ideal of a ring "R".

(ii) If "a\\in I", then "ra \\in I" for all "r\\in R". It follows that "a\\in[R: I]", and thus "I" is a subset of "[R : I]".