If `A=[{:(1,0,0),(1,0,1),(0,1,0):}]`, thenA. `A^(3)-A^(2)=A-I`B. `Det(A^(2010)-I)=0`C. `A^(50)=[{:(1,0,0),(25,1,0),(25,0,1):}]`D. `A^(50)=[{:(1,1,0),(25,1,0),(25,0,1):}]`

If `A=[{:(1,0,0),(1,0,1),(0,1,0):}]`, thenA. `A^(3)-A^(2)=A-I`B. `Det(

1.	If `A=[{:(1,0,0),(1,0,1),(0,1,0):}]`, thenA. `A^(3)-A^(2)=A-I`B. `Det(A^(2010)-I)=0`C. `A^(50)=[{:(1,0,0),(25,1,0),(25,0,1):}]`D. `A^(50)=[{:(1,1,0),(25,1,0),(25,0,1):}]`
Answer» Correct Answer - A::B::C `(a,b,c)` `A^(2)=[{:(1,0,0),(1,0,1),(0,1,0):}][{:(1,0,0),(1,0,1),(0,1,0):}]=[{:(1,0,0),(1,1,0),(1,0,1):}]` `A^(3)=[{:(1,0,0),(1,1,0),(1,0,1):}][{:(1,0,0),(1,1,0),(1,0,1):}]=[{:(1,0,0),(2,0,1),(1,1,0):}]` `A^(3)-A^(2)=[{:(0,0,0),(1,-1,1),(0,1,-1):}]`and `A-I=[{:(0,0,0),(1,-1,1),(0,1,-1):}]` `impliesA^(3)-A^(2)=A-I` and det `(A-I)=0` `impliesDet\|A^(n)-I)=Det((A-I)(1+A+A^(2)+...+A^(n-1)))` `=Det(A-I)Det(1+A+A^(2)+....+A^(n-1))=0` `A^(3)-A^(2)=A-I` ...........`(i)` `impliesA^(4)-A^(3)=A^(2)-A`..........`(ii)` `impliesA^(5)-A^(4)=A^(3)-A^(2)=A-I` (Using `(1)`) If `n` is even `A^(n)-A^(n-1)=A^(2)-A`...........`(iii)` If `n` is odd `A^(n)-A^(n-1)=A-I`..........`(iv)` Consider `n` is even `:.A^(n)-A^(n-1)=A^(2)-A`(Using `(iii)`) `A^(n-1)-A^(n-2)=A-I` (Using `(iv)`) On adding, we get `A^(n)-A^(n-2)=A^(2)-I` `impliesA^(n)-A^(n-2)+A^(2)-I` `=A^(n-4)+A^(2)-I)+A^(2)-I` `=(A^(n-6)+A^(2)-I)+2(^(2)-I)` `=(A^(2))+(n-2)/(2)(A^(2)-I)` `A^(n)=((n)/(2))A^(2)-((n-2)/(2))I` `:.A^(50)=25A^(2)-24I` `=25[{:(1,0,0),(1,1,0),(1,0,1):}]-24[{:(1,0,0),(0,1,0),(0,0,1):}]` `=[{:(1,0,0),(25,1,0),(25,0,1):}]`

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