Answered question

2022-04-29

Answer & Explanation

alenahelenash

alenahelenash

Expert2023-05-02Added 556 answers

We are given that G is a group and aG such that |a|=30. Also, H=a and K=a4. We need to find the number of distinct cosets that K has in H and identify these cosets.
The index of K in H is given by [H:K]=|H|/|K|. We can find |H| as |H|=|a|=30. To find |K|, note that a4={a4k:k}. So, |K|=|a||a4|.
Since a4k generates a4, we have |a4|=|a4k|. Also, a4k has order 30/gcd(4k,30) in G. Since 4 and 30 are relatively prime, we have gcd(4k,30)=gcd(k,15). Thus, a4k has order 30/dk where dk=gcd(k,15).
Now, |K|=|a||a4|=30|a4k|=3030/dk=dk.
Thus, [H:K]=|H||K|=30dk. We need to find the distinct cosets of K in H. Let xH be arbitrary. Then, x=ak for some 0k29. The coset of K containing x is given by xK={xk:kK}.
Since K=a4, we have K={1,a4,a8,,a28}. Thus, xK={ak,ak+4,ak+8,,ak+24}.
Since k can be any integer from 0 to 29, we have 30 distinct cosets of K in H. These cosets are given by:
K,aK,a2K,,a28K.

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