The structure of matrices can be understood with the help of matrix transposes.Squareness and symmetry are features you might already know about matrices.Transposition can be used to take the products of the vectors.If you're dealing with complex matrices, the concept of a conjugate transpose will help you through many problems.
Step 1: Start with any matrix.
No matter how many rows and columns the matrix has, you can change it.A simple square matrix with an equal number of rows and columns is an example.
Step 2: The first row of the matrix has a transpose.
Re write row one of the matrix as a column.
Step 3: For the rest of the rows, repeat.
The second row of the original matrix is the second column.Continue this pattern until you turn every row into a column.
Step 4: There is a non- square matrix.
The same is true for a non- square matrix.The first, second, and so forth rows are changed.There is an example with color-coding to show you where the elements end up.
Step 5: It is possible to express the transposition in a way that is mathematical.
It's nice to be able to describe the concept in mathematics.If matrix B is an m x n matrix (m rows and n columns), it's an n x m matrix.The matrix B has an equal element at byx for each element bxy.
Step 6: M is the same as M.
The original matrix has a transpose.The only thing you're doing is changing the rows and columns.You're back where you started if you switch them again.
Step 7: The squares should be flipped over the main diagonal.
The matrix flips over the main diagonal.The elements in a diagonal line from element a11 to the bottom right corner will not change.The elements will move across the diagonal and end up on the opposite side.Draw a matrix on a piece of paper if you can't see it.The fold is over the diagonal.See how elements a14 and a41 are connected.They trade places in the transpose and each other pair touches when folded.
Step 8: There is a symmetric matrix.
There is a matrix across the diagonal.We can see that nothing has changed if we use the "flip" or "fold" description.The element pairs that trade places were the same.This is the standard way to define a matrix.matrix A is symmetric if it is A.
Step 9: A complex matrix is what you should start with.
A complex matrix has elements that are real and imaginary.The conjugate transpose is the most practical calculation for these matrices.Matrix C is a matrix.
Step 10: Take the complex conjugate.
The complex conjugate does not change the real components.This operation should be performed for all elements of the matrix.A complex conjugate of C.
Step 11: Listen to the results.
Take an ordinary change of the result.The conjugate of the original matrix is what you end up with.There is a conjugate of C.