No, since there is no such thing as a determinate.
And, in any case you were wondering about improving your spelling so as to make you questions more answerable, a non-square matrix does not have a determinant.
Any n x n (square) matrix have a determinate. If it's not a square matrix, we don't have a determinate, or rather we don't care about the determinate since it can't be invertible.
Determinant values are numerical values that are calculated from a square matrix and provide important information about the matrix's properties. Specifically, the determinant can indicate whether a matrix is invertible; if the determinant is zero, the matrix does not have an inverse. Additionally, it can represent the scaling factor of the linear transformation described by the matrix in geometric terms, such as the area or volume of the transformed space. Determinants are widely used in various fields, including linear algebra, calculus, and systems of equations.
Multiply -1 by every entry in the matrix. (Flip the signs.)
Determinate - having exact and discernible (able to be discerned) limits or form.
Yes, every square matrix has a determinant. The determinant is a scalar value that can be computed from the elements of the matrix and provides important information about the matrix, such as whether it is invertible. For an ( n \times n ) matrix, the determinant can be calculated using various methods, including cofactor expansion or row reduction. However, the determinant may be zero, indicating that the matrix is singular and not invertible.
Any n x n (square) matrix have a determinate. If it's not a square matrix, we don't have a determinate, or rather we don't care about the determinate since it can't be invertible.
Semi-determinate
Determinant values are numerical values that are calculated from a square matrix and provide important information about the matrix's properties. Specifically, the determinant can indicate whether a matrix is invertible; if the determinant is zero, the matrix does not have an inverse. Additionally, it can represent the scaling factor of the linear transformation described by the matrix in geometric terms, such as the area or volume of the transformed space. Determinants are widely used in various fields, including linear algebra, calculus, and systems of equations.
The Matrix, like every film that is not a documentary, is a work of fiction.
No. A square matrix has an inverse if and only if its determinant is nonzero.
Multiply -1 by every entry in the matrix. (Flip the signs.)
Determined is a verb it is the past tense of the verb determine
Yes, It is ofcourse a determinate beam of degree of indeterminacy = 0 if we remove the moment at support, it works as a mechanism. So, it is determinate...
Determinate - having exact and discernible (able to be discerned) limits or form.
Yes, every square matrix has a determinant. The determinant is a scalar value that can be computed from the elements of the matrix and provides important information about the matrix, such as whether it is invertible. For an ( n \times n ) matrix, the determinant can be calculated using various methods, including cofactor expansion or row reduction. However, the determinant may be zero, indicating that the matrix is singular and not invertible.
no be quiet
Determinate. Determinate hair grows to a specific length and then stops. Determinate hair is found in many places in the body, including the axilla (armpits), groin, eyelashes, and eyebrows. On the other hand, indeterminate hair continues to grow without regard to length. It is found on the scalp and in beard hair in men.