If A is matrix of order 3 such that |A|=...

If A is matrix of order 3 such that `|A|=5 and B=`adj A, then the value of `||A^(-1)|(AB)^(T)|` is equal to (where |A| denotes determinant of matrix A. `A^(T)` denotes transpose of matrix A, `A^(-1)` denotes inverse of matrix A. adj A denotes adjoint of matrix A)

Similar Questions

Explore conceptually related problems

If A is a matrix of order 3, such that A(adj A)=10I, then |adj A|=

If A is a square matrix of order 3 such that |adj A| = 36, then what is the value of |A^(T)| ?

If A is a matrix of order 3, such that A (adj A) = 10 I , then |adj A| =

If A is a square matrix of order 4 with |A| = 5, then the value of | adj A| is

If A is a square matrix of order 3 such that |A|=13 , then |adj A| is equal to

If A is a matrix of order 3 and |A|=3, then the value of |adj(adj(A^(-1)))| is

If A is a square matrix, then the value of adj A^(T)-(adj A)^(T) is equal to :

If a non-singular matrix and A^(T) denotes the tranpose of A, then

Let A and B be two square matrices of order 3 such that |A|=3 and |B|=2 , then the value of |A^(-1).adj(B^(-1)).adj(2A^(-1))| is equal to (where adj(M) represents the adjoint matrix of M)

If A is matrix of order 3 such that `|A|=5 and B=`adj A, then the value of `||A^(-1)|(AB)^(T)|` is equal to (where |A| denotes determinant of matrix A. `A^(T)` denotes transpose of matrix A, `A^(-1)` denotes inverse of matrix A. adj A denotes adjoint of matrix A)

Similar Questions

Recommended Questions