determinant

(noun)

The unique scalar function over square matrices which is distributive over matrix multiplication, multilinear in the rows and columns, and takes the value of $1$ for the unit matrix. Its abbreviation is "$\det$".

Related Terms

(noun)

The unique scalar function over square matrices which is distributive over matrix multiplication, multilinear in the rows and columns, and takes the value of 1 for the unit matrix. Its abbreviation is "$\det$".

Related Terms

Examples of determinant in the following topics:

  • Determinants of 2-by-2 Square Matrices

    • The use of determinants in calculus includes the Jacobian determinant in the change of variables rule for integrals of functions of several variables.
    • It can be proven that any matrix has a unique inverse if its determinant is nonzero.
    • Various other theorems can be proved as well, including that the determinant of a product of matrices is always equal to the product of determinants; and, the determinant of a Hermitian matrix is always real.
    • In linear algebra, the determinant is a value associated with a square matrix.
    • The determinant $\begin{vmatrix} 4 & -2\\ 7 & 5 \end{vmatrix}$ is:

  • Sex Determination

    • Mammalian sex is determined genetically by the presence of X and Y chromosomes .
    • Avian sex determination is dependent on the presence of Z and W chromosomes.
    • This is referred to as environmental sex determination or, more specifically, as temperature-dependent sex determination.
    • In birds, Z and W chromosomes determine sex, with females being the heterozygous sex.
    • Differentiate among the various ways animals determine the sex of offspring

  • Rate-Determining Steps

    • The rate of a multi-step reaction is determined by the slowest elementary step, which is known as the rate-determining step.
    • In kinetics, the rate of a reaction with several steps is determined by the slowest step, which is known as the rate-determining, or rate-limiting, step.
    • We can picture the rate-determining step to be like the narrowest point in an hourglass; it is the "bottleneck" point of the reaction that determines how quickly reactants can become products.
    • If the second or a later step is rate-determining, determining the rate law is slightly more complicated.
    • The rate-determining step is like the narrowest point in the hourglass; it is the "bottleneck" point of the reaction that determines how quickly reactants can become products.

  • Self-Determination and New States

  • Cofactors, Minors, and Further Determinants

    • The determinant of any matrix can be found using its signed minors.
    • We will find the determinant of the following matrix A by calculating the determinants of its cofactors for the third, rightmost column and then multiplying them by the elements of that column.
    • As an example, we will calculate the determinant of the minor $M_{23}$, which is the determinant of the $2 \times 2$ matrix formed by removing the $2$nd row and $3$rd column.  
    • The determinant is then found by summing all of these:
    • Explain how to use minor and cofactor matrices to calculate determinants

  • Molecularity

    • If a chemical reaction proceeds by more than one step or stage, its overall velocity or rate is limited by the slowest step, the rate-determining step.
    • When we describe the mechanism of a chemical reaction, it is important to identify the rate-determining step and to determine its "molecularity".
    • The molecularity of a reaction is defined as the number of molecules or ions that participate in the rate determining step.
    • A mechanism in which two reacting species combine in the transition state of the rate-determining step is called bimolecular.

  • Characteristics of the Product

    • The unique characteristics of a product should be used as inputs in determining the product's marketing mix.
    • Characteristics of a product also help to determine the price of a product.
    • This can determine where a product may fall on the price index.
    • It is the combination of demand for a product and its price that help determine the marketing mix.
    • The characteristics of a product determine the target market and price of a product.

  • Determining Atomic Structures by X-Ray Crystallography

    • X-ray crystallography is a method of determining the arrangement of atoms within molecules.
    • X-ray crystallography is a method for determining the arrangement of atoms within a crystal structure.
    • The steps to the process of determining the three dimensional structure of a molecule are outlined in this figure.
    • The two dimensional reflection pattern can be used to determine the atomic structure of the protein.
    • Describe the method of x-ray crystallography as it is used for determining the structure of molecules.

  • Summary of the Hypothesis Test

    • Notice that in performing the hypothesis test, you use α and not β. β is needed to help determine the sample size of the data that is used in calculating the p-value.

  • Structural Determination

    • Structural determination using isotopes is often performed using nuclear magnetic resonance spectroscopy and mass spectrometry.
    • Structural determination utilizing isotopes is often performed using two analytical techniques: nuclear magnetic resonance spectroscopy (NMR) and mass spectrometry (MS).
    • NMR and MS detect isotopic differences; detecting these differences allows information about the position atoms in a product's structure to be determined.
    • With information about the position of isotopic atoms in products, the reaction pathway can also be determined.
    • Identify the uses of isotopic labeling in structural determination and the primary techniques used to study isotopically-labeled molecules