What is the Difference Between Transpose and Conjugate Transpose?
🆚 Go to Comparative Table 🆚The difference between the transpose and conjugate transpose of a matrix lies in the treatment of complex numbers and their conjugates.
- Transpose: The transpose of a matrix involves rearranging the columns as rows and vice versa, with the diagonal elements remaining unchanged. The size of the matrices also changes from m×n to n×m. For real matrices, the transpose is very useful, and the conjugate transpose is the same thing, so there's no reason to call it "conjugate transpose".
- Conjugate Transpose: The conjugate transpose, also known as the Hermitian transpose or Hermitian adjoint, is a combination of the transpose and complex conjugation of a matrix. It involves both rearranging the columns as rows and replacing each element by its complex conjugate.
Here's a summary of the differences:
- Transpose involves rearranging rows and columns, with diagonal elements remaining unchanged.
- Conjugate transpose involves rearranging rows and columns and replacing elements with their complex conjugates.
- Transpose is useful for real matrices, while conjugate transpose is more relevant for complex matrices.
On this pageWhat is the Difference Between Transpose and Conjugate Transpose? Comparative Table: Transpose vs Conjugate Transpose
Comparative Table: Transpose vs Conjugate Transpose
The difference between transpose and conjugate transpose can be summarized as follows:
Transpose | Conjugate Transpose |
---|---|
Rearranging columns into rows, or rows into columns | Replacing each element by its complex conjugate, followed by transposing the matrix |
Preserves the diagonal elements | Changes the diagonal elements to their complex conjugates |
Useful for matrix multiplication and solving linear systems | Useful for Hermitian inner products and complex bilinear forms |
In the context of complex matrices, the conjugate transpose is obtained by first taking the complex conjugate of each element in the matrix and then performing the transpose operation. This results in a matrix with the complex conjugates of the original matrix elements.
Read more:
- Transpose vs Inverse Matrix
- Replicative Transposition vs Cut vs Paste Transposition
- Adjoint vs Inverse Matrix
- Conjugation vs Resonance
- Transition vs Transversion
- Conjugate Acid vs Conjugate Base
- Transitive vs Intransitive Verbs
- Transformation vs Transduction
- Transformation vs Transfection
- Transformation vs Transmutation
- Inversion vs Translocation
- Matrix vs Determinant
- Transcription vs Translation
- Translocation vs Crossing Over
- Translate vs Interpret
- Transfection vs Transduction
- Laplace vs Fourier Transforms
- Associative vs Commutative
- Dot Product vs Cross Product