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MULTIPLICATIVE QUANTUM-NUMBER

  • Multiplicative quantum number
  • Type of quantum number

    In quantum field theory, multiplicative quantum numbers are conserved quantum numbers of a special kind. A given quantum number q is said to be additive

    Multiplicative quantum number

    Multiplicative_quantum_number

  • Quantum number
  • Notation for conserved quantities in physics and chemistry

    system, the quantum number is said to be "good", and acts as a constant of motion in the quantum dynamics. In the era of the old quantum theory, starting

    Quantum number

    Quantum number

    Quantum_number

  • C parity
  • Unitary operation that transforms a particle in its antiparticle

    In physics, the C parity or charge parity is a multiplicative quantum number of some particles that describes their behavior under the symmetry operation

    C parity

    C_parity

  • G-parity
  • In particle physics, G-parity is a multiplicative quantum number that results from the generalization of C-parity to multiplets of particles. C-parity

    G-parity

    G-parity

  • Kaon
  • Quantum particle

    opposite parities, with zero angular momentum), and parity is a multiplicative quantum number. Therefore, assuming the parent particle has zero spin, the

    Kaon

    Kaon

  • 1
  • Natural number

    generally, in algebra, it denotes the multiplicative identity in any unital ring or field. An element with a multiplicative inverse is called a unit, generalizing

    1

    1

  • Multiplication
  • Arithmetical operation

    generalizations See Multiplication in group theory, above, and multiplicative group, which for example includes matrix multiplication. A very general, and

    Multiplication

    Multiplication

    Multiplication

  • Quark model
  • Classification scheme of hadrons

    of C. For isospin I = 1 and 0 states, one can define a new multiplicative quantum number called the G-parity such that G = (−1)I+L+S. If P = (−1)J, then

    Quark model

    Quark model

    Quark_model

  • Parity (physics)
  • Symmetry of spatially mirrored systems

    the parities of each state; in other words parity is a multiplicative quantum number. In quantum mechanics, Hamiltonians are invariant (symmetric) under

    Parity (physics)

    Parity_(physics)

  • Shor's algorithm
  • Quantum algorithm for integer factorization

    {\displaystyle a} is contained in the multiplicative group of integers modulo N {\displaystyle N} , having a multiplicative inverse modulo N {\displaystyle

    Shor's algorithm

    Shor's_algorithm

  • Quantum computing
  • Computer hardware technology that uses quantum mechanics

    A quantum computer is a real or theoretical computer that exploits quantum phenomena like superposition and entanglement in an essential way. It is widely

    Quantum computing

    Quantum computing

    Quantum_computing

  • T-symmetry
  • Time reversal symmetry in physics

    of time reversal, i.e., have T2 = 1, are characterized by a multiplicative quantum number, sometimes called the T-parity. Particle physics codified the

    T-symmetry

    T-symmetry

    T-symmetry

  • Quantum logic gate
  • Basic circuit in quantum computing

    In quantum computing and specifically the quantum circuit model of computation, a quantum logic gate (or simply quantum gate) is a basic quantum circuit

    Quantum logic gate

    Quantum logic gate

    Quantum_logic_gate

  • Elliptic-curve cryptography
  • Approach to public-key cryptography

    suite due to concerns about quantum computing attacks on ECC. NSA later published CNSA 2.0 guidance for a transition to quantum-resistant algorithms for

    Elliptic-curve cryptography

    Elliptic-curve_cryptography

  • Quantum Fourier transform
  • Change of basis applied in quantum computing

    In quantum computing, the quantum Fourier transform (QFT) is a linear transformation on quantum bits, and is the quantum analogue of the discrete Fourier

    Quantum Fourier transform

    Quantum_Fourier_transform

  • Quantum mechanics
  • Description of physical properties at the atomic and subatomic scale

    disciplines, including quantum chemistry, quantum biology, quantum field theory, quantum technology, and quantum information science. Quantum mechanics can describe

    Quantum mechanics

    Quantum mechanics

    Quantum_mechanics

  • Lepton number
  • Difference between number of leptons and antileptons

    interactions (as opposed to multiplicative quantum numbers such as parity, where the product is preserved instead). The lepton number L {\displaystyle L} is

    Lepton number

    Lepton_number

  • Econophysics
  • Application of physics to the study of economics

    wealthy (multiplicative). Various other tools from physics that have so far been used, such as fluid dynamics, classical mechanics and quantum mechanics

    Econophysics

    Econophysics

  • Quantum algorithm
  • Algorithm to be run on quantum computers

    In quantum computing, a quantum algorithm is an algorithm that runs on a realistic model of quantum computation, the most commonly used model being the

    Quantum algorithm

    Quantum_algorithm

  • Product integral
  • Integral using products instead of sums

    the multiplicative Lorenz system", Chaos, Solitons & Fractals Volume 25, Issue 1, July 2005, pages 79–90. Fernando Córdova-Lepe. "The multiplicative derivative

    Product integral

    Product_integral

  • Quantum harmonic oscillator
  • Quantum mechanical model

    The quantum harmonic oscillator is the quantum-mechanical analog of the classical harmonic oscillator. Because an arbitrary smooth potential can usually

    Quantum harmonic oscillator

    Quantum harmonic oscillator

    Quantum_harmonic_oscillator

  • Quaternion
  • Four-dimensional number system

    division algebra. The multiplication with 1 of the basis elements i, j, and k is defined by the fact that 1 is a multiplicative identity, that is, i 1

    Quaternion

    Quaternion

    Quaternion

  • P-adic number
  • Number system extending the rational numbers

    immediately to basic properties of p-adic numbers: Addition, multiplication and multiplicative inverse of p-adic numbers are defined as for formal power

    P-adic number

    P-adic number

    P-adic_number

  • Quantum dot
  • Nano-scale semiconductor particles

    Quantum dots (QDs) or semiconductor nanocrystals are semiconductor particles a few nanometres in size with optical and electronic properties that differ

    Quantum dot

    Quantum dot

    Quantum_dot

  • Bra–ket notation
  • Notation for quantum states

    "A New Notation for Quantum Mechanics" from 1939. The name comes from the English word bracket. In quantum mechanics and quantum computing, bra–ket notation

    Bra–ket notation

    Bra–ket_notation

  • Post-quantum cryptography
  • Cryptography secured against quantum computers

    Post-quantum cryptography (PQC), sometimes referred to as quantum-proof, quantum-safe, or quantum-resistant, is the development of cryptographic algorithms

    Post-quantum cryptography

    Post-quantum_cryptography

  • Quantum electrodynamics
  • Quantum field theory of electromagnetism

    In particle physics, quantum electrodynamics (QED) is the relativistic quantum field theory of electrodynamics. In essence, it describes how light and

    Quantum electrodynamics

    Quantum electrodynamics

    Quantum_electrodynamics

  • Octonion
  • Hypercomplex number system

    arrow. Then multiplication is given by ab = c and ba = −c together with cyclic permutations. These rules together with 1 is the multiplicative identity,

    Octonion

    Octonion

  • One-way quantum computer
  • Method of quantum computing

    The one-way quantum computer, also known as measurement-based quantum computer (MBQC), is a method of quantum computing that first prepares an entangled

    One-way quantum computer

    One-way quantum computer

    One-way_quantum_computer

  • Number
  • Used to count, measure, and label

    signal processing, number theory, and solving differential equations. Complex numbers appear to be a fundamental aspect of quantum mechanics; it can not

    Number

    Number

    Number

  • List of algorithms
  • fast multiplication algorithm for large integers Toom–Cook multiplication: (Toom3) a multiplication algorithm for large integers Multiplicative inverse

    List of algorithms

    List_of_algorithms

  • Prime number
  • Number divisible only by 1 and itself

    them can be generalized to algebraic number fields and their valuations (certain mappings from the multiplicative group of the field to a totally ordered

    Prime number

    Prime number

    Prime_number

  • Quantum channel
  • Foundational object in quantum communication theory

    In quantum information theory, a quantum channel is a communication channel that can transmit quantum information, as well as classical information. An

    Quantum channel

    Quantum_channel

  • Index of physics articles (M)
  • Multiple histories Multiple isomorphous replacement Multiplet Multiplicative quantum number Multipole expansion Multipole moment Multipurpose Applied Physics

    Index of physics articles (M)

    Index_of_physics_articles_(M)

  • ML-KEM
  • Quantum-safe key encapsulation mechanism

    designed to be resistant to cryptanalytic attacks with future powerful quantum computers that was standardized in 2024. It is used to establish a shared

    ML-KEM

    ML-KEM

  • Discrete logarithm
  • Problem of inverting exponentiation in groups

    similar example holds for any non-zero real number b {\displaystyle b} . The powers form a multiplicative subgroup G = { … , b − 2 , b − 1 , 1 , b 1

    Discrete logarithm

    Discrete_logarithm

  • Quantum group
  • Algebraic construct of interest in theoretical physics

    term quantum group denotes one of a few different kinds of noncommutative algebras with additional structure. These include Drinfeld–Jimbo type quantum groups

    Quantum group

    Quantum group

    Quantum_group

  • Relativistic quantum mechanics
  • Quantum mechanics taking into account particles near or at the speed of light

    In physics, relativistic quantum mechanics (RQM) is any Poincaré-covariant formulation of quantum mechanics (QM). This theory is applicable to massive

    Relativistic quantum mechanics

    Relativistic_quantum_mechanics

  • Matrix mechanics
  • Formulation of quantum mechanics

    Matrix mechanics is a formulation of quantum mechanics created by Werner Heisenberg, Max Born, and Pascual Jordan in 1925. It was the first conceptually

    Matrix mechanics

    Matrix_mechanics

  • Fast Fourier transform
  • Discrete Fourier transform algorithm

    Rader's algorithm, exploiting the existence of a generator for the multiplicative group modulo prime n, expresses a DFT of prime size n as a cyclic convolution

    Fast Fourier transform

    Fast Fourier transform

    Fast_Fourier_transform

  • Advanced Encryption Standard
  • Standard for the encryption of electronic data

    the non-linearity in the cipher. The S-box used is derived from the multiplicative inverse over GF(28), known to have good non-linearity properties. To

    Advanced Encryption Standard

    Advanced Encryption Standard

    Advanced_Encryption_Standard

  • Oblivious pseudorandom function
  • Function computed by two parties that emulates a random oracle

    response ECPoint serverResponse = sendRequest(blindedInput); // Compute multiplicative inverse of b Scalar inverse = modInverse(b); // Unblind the response

    Oblivious pseudorandom function

    Oblivious_pseudorandom_function

  • Umdeutung paper
  • 1925 physics article by Werner Heisenberg

    initial and final states of quantum jumps. In addition, Heisenberg introduced non-commutative operators in a new multiplication rule, i.e. generally A B

    Umdeutung paper

    Umdeutung paper

    Umdeutung_paper

  • Qubit
  • Basic unit of quantum information

    In quantum computing, a qubit (/ˈkjuːbɪt/) or quantum bit is a basic unit of quantum information, the quantum version of the classic binary bit. A qubit

    Qubit

    Qubit

    Qubit

  • Wick rotation
  • Mathematical trick using imaginary numbers to simplify certain formulas in physics

    mechanics and quantum mechanics. In this analogy, inverse temperature plays a role in statistical mechanics formally akin to imaginary time in quantum mechanics:

    Wick rotation

    Wick_rotation

  • Path-integral formulation
  • Formulation of quantum mechanics

    The path-integral formulation of quantum mechanics generalizes the action principle of classical mechanics. It replaces the classical notion of a single

    Path-integral formulation

    Path-integral_formulation

  • RSA cryptosystem
  • Algorithm for public-key cryptography

    public key. Determine d as d ≡ e−1 (mod λ(n)); that is, d is the modular multiplicative inverse of e modulo λ(n). This means: solve for d the equation de ≡

    RSA cryptosystem

    RSA_cryptosystem

  • Quantum circuit
  • Model of quantum computing

    In quantum information theory, a quantum circuit is a model for quantum computation, similar to classical circuits, in which a computation is a sequence

    Quantum circuit

    Quantum circuit

    Quantum_circuit

  • Arithmetic
  • Branch of elementary mathematics

    New Approach to Multiplication and Exponential Functions". In Harel, Guershon; Confrey, Jere (eds.). The Development of Multiplicative Reasoning in the

    Arithmetic

    Arithmetic

    Arithmetic

  • Topological quantum field theory
  • Field theory involving topological effects in physics

    and mathematical physics, a topological quantum field theory (or topological field theory or TQFT) is a quantum field theory that computes topological

    Topological quantum field theory

    Topological_quantum_field_theory

  • Encryption
  • Process of converting plaintext to ciphertext

    months to factor in this key. However, quantum computing can use quantum algorithms to factor this semiprime number in the same amount of time it takes for

    Encryption

    Encryption

    Encryption

  • Quantum contextuality
  • Context dependence in quantum measurements

    Quantum contextuality is a feature of the phenomenology of quantum mechanics whereby measurements of quantum observables cannot simply be thought of as

    Quantum contextuality

    Quantum_contextuality

  • Hadamard transform
  • Involutive change of basis in linear algebra

    element-wise multiplication of their Hadamard transform representations. This property enables efficient computation of convolutional layers on quantum computers

    Hadamard transform

    Hadamard transform

    Hadamard_transform

  • Key size
  • Number of bits in a key used by a cryptographic algorithm

    In other words, it takes no more time to break RSA on a quantum computer (up to a multiplicative constant) than to use it legitimately on a classical computer

    Key size

    Key_size

  • Vehicle identification number
  • System for identifying vehicles

    vehicle identification number (VIN; also called a chassis number or frame number) is a unique code, including a serial number, used by the automotive

    Vehicle identification number

    Vehicle identification number

    Vehicle_identification_number

  • Adder (electronics)
  • Digital circuit that produces sums from inputs

    on a Quantum Computer". arXiv:quant-ph/0008033. Ruiz-Perez, Lidia; Juan Carlos, Garcia-Escartin (2 May 2017). "Quantum arithmetic with the quantum Fourier

    Adder (electronics)

    Adder_(electronics)

  • Wave function
  • Mathematical description of quantum state

    In quantum mechanics, a wave function (or wavefunction) is a mathematical description of the quantum state of an isolated quantum system. The most common

    Wave function

    Wave function

    Wave_function

  • Copenhagen interpretation
  • Interpretation of quantum mechanics

    Copenhagen interpretation is a collection of views about the meaning of quantum mechanics, stemming from the work of Niels Bohr, Werner Heisenberg, Max

    Copenhagen interpretation

    Copenhagen_interpretation

  • Spectral theorem
  • Result about when a matrix can be diagonalized

    Mathematical Monthly, volume 70, number 3 (1963), pages 241–247 Other link de la Madrid Modino, R. (2001). Quantum mechanics in rigged Hilbert space

    Spectral theorem

    Spectral_theorem

  • Computational complexity
  • Amount of resources to perform an algorithm

    computation time by the number of processors is as close as possible to the time needed for the same computation on a single processor. A quantum computer is a

    Computational complexity

    Computational_complexity

  • Phase-space formulation
  • Formulation of quantum mechanics

    The phase-space formulation is a formulation of quantum mechanics that places the position and momentum variables on equal footing in phase space. The

    Phase-space formulation

    Phase-space_formulation

  • Complex number
  • Number with a real and an imaginary part

    associative, commutative, and distributive laws. Every nonzero complex number has a multiplicative inverse, allowing division by complex numbers other than zero

    Complex number

    Complex number

    Complex_number

  • Kannan Soundararajan
  • American mathematician and professor (born 1973)

    research interest is in analytic number theory, particularly in the subfields of automorphic L-functions, and multiplicative number theory. Soundararajan grew

    Kannan Soundararajan

    Kannan Soundararajan

    Kannan_Soundararajan

  • Phase space
  • Space of all possible states that a system can take

    the classical partition function by multiplication of a normalization constant representing the number of quantum energy states per unit phase space.

    Phase space

    Phase space

    Phase_space

  • Integer factorization
  • Decomposition of a number into a product

    representation of a positive integer Factorization Multiplicative partition – Way to write a number as a product of other numbers p-adic valuation Integer

    Integer factorization

    Integer_factorization

  • Operator algebra
  • Branch of functional analysis

    representation theory, differential geometry, quantum statistical mechanics, quantum information, and quantum field theory. Operator algebras can be used

    Operator algebra

    Operator_algebra

  • Black hole thermodynamics
  • Concept in general relativity and quantum field theory

    most widely accepted physical model that combines general relativity, quantum field theory, and thermodynamics, though Hawking's area law has already

    Black hole thermodynamics

    Black hole thermodynamics

    Black_hole_thermodynamics

  • Modular exponentiation
  • Exponentation in modular arithmetic

    prime, one can also allow the exponent e to be negative by finding the multiplicative inverse d of b modulo m (for instance by using extended Euclidean algorithm)

    Modular exponentiation

    Modular_exponentiation

  • Measurement
  • Process of assigning numbers to objects or events

    phenomena is discrete, not continuous. Quantum measurements alter quantum states and yet repeated measurements on a quantum state are reproducible. The measurement

    Measurement

    Measurement

    Measurement

  • Spin 1/2
  • Elementary particles with a spin of 1/2

    In quantum mechanics, spin is an intrinsic property of all elementary particles. All known fermions, the particles that constitute ordinary matter, have

    Spin 1/2

    Spin 1/2

    Spin_1/2

  • Symmetry in quantum mechanics
  • Properties underlying modern physics

    Symmetries in quantum mechanics describe features of spacetime and particles which are unchanged under some transformation, in the context of quantum mechanics

    Symmetry in quantum mechanics

    Symmetry in quantum mechanics

    Symmetry_in_quantum_mechanics

  • Compact quantum group
  • Abstract structure in mathematics

    In mathematics, compact quantum groups are generalisations of compact groups, where the commutative C ∗ {\displaystyle \mathrm {C} ^{*}} -algebra of continuous

    Compact quantum group

    Compact_quantum_group

  • Matrix norm
  • Norm on a vector space of matrices

    } can be rescaled to be sub-multiplicative; in some books, the terminology matrix norm is reserved for sub-multiplicative norms. A matrix norm is called

    Matrix norm

    Matrix_norm

  • Winding number
  • Number of times a curve wraps around a point in the plane

    classified by the winding number or topological charge (topological invariant and/or topological quantum number). A point's winding number with respect to a polygon

    Winding number

    Winding number

    Winding_number

  • List of partition topics
  • Multipartition Multiplicative partition Noncrossing partition Ordered partition of a set Partition calculus Partition function (quantum field theory) Partition

    List of partition topics

    List_of_partition_topics

  • Clifford algebra
  • Algebra based on a vector space with a quadratic form

    and the 1 on the right is the algebra's multiplicative identity (not to be confused with the multiplicative identity of K). The idea of being the "freest"

    Clifford algebra

    Clifford_algebra

  • List of unsolved problems in computer science
  • List of unsolved computational problems

    time on a classical (non-quantum) computer? Can the discrete logarithm be computed in polynomial time on a classical (non-quantum) computer? Can the shortest

    List of unsolved problems in computer science

    List_of_unsolved_problems_in_computer_science

  • Matrix (mathematics)
  • Array of numbers

    theory, they are applied in domains ranging from number theory to physics. The first model of quantum mechanics (Heisenberg, 1925) used infinite-dimensional

    Matrix (mathematics)

    Matrix (mathematics)

    Matrix_(mathematics)

  • Uncertainty principle
  • Foundational principle in quantum physics

    known as Heisenberg's indeterminacy principle, is a fundamental concept in quantum mechanics. It states that there is a limit to the precision with which

    Uncertainty principle

    Uncertainty principle

    Uncertainty_principle

  • De Broglie–Bohm theory
  • Interpretation of quantum mechanics

    particular case of quantum processes described by the theory—for which it yields the same quantum predictions as other interpretations of quantum mechanics. The

    De Broglie–Bohm theory

    De_Broglie–Bohm_theory

  • Grassmann number
  • Anticommutating number

    integration and differentiation of a Grassmann number are identical. In the path integral formulation of quantum field theory the following Gaussian integral

    Grassmann number

    Grassmann_number

  • Euclidean quantum gravity
  • Approach to quantum gravity utilizing Wick rotations

    quantum gravity exploits the Wick rotation to describe gravity according to the principles of quantum mechanics. This particular approach to quantum gravity

    Euclidean quantum gravity

    Euclidean_quantum_gravity

  • Probability current
  • Value for the flow of probability in quantum mechanics

    In quantum mechanics, the probability current (sometimes called probability flux) is a mathematical quantity describing the flow of probability. Specifically

    Probability current

    Probability_current

  • Timeline of quantum mechanics
  • The timeline of quantum mechanics is a list of key events in the history of quantum mechanics, quantum field theories and quantum chemistry. The initiation

    Timeline of quantum mechanics

    Timeline_of_quantum_mechanics

  • Breakthrough Prize in Mathematics
  • Mathematics award

    multiplicative functions." Maksym Radziwill – "For fundamental breakthroughs in the understanding of local correlations of values of multiplicative functions

    Breakthrough Prize in Mathematics

    Breakthrough_Prize_in_Mathematics

  • Schubert polynomial
  • Gelfand & Postnikov (1997) introduced quantum Schubert polynomials, that have the same relation to the (small) quantum cohomology of flag manifolds that ordinary

    Schubert polynomial

    Schubert_polynomial

  • C*-algebra
  • Topological complex vector space

    under pointwise multiplication and addition. The involution is pointwise conjugation. C 0 ( X ) {\displaystyle C_{0}(X)} has a multiplicative unit element

    C*-algebra

    C*-algebra

  • Asymptotic safety
  • Attempt to find a consistent theory of quantum gravity

    renormalizability) is a concept in quantum field theory which aims at finding a consistent and predictive quantum theory of the gravitational field. Its

    Asymptotic safety

    Asymptotic safety

    Asymptotic_safety

  • Commutative property
  • Property of some mathematical operations

    possibility that some pairs of elements commute. Addition and multiplication are commutative in most number systems, and, in particular, between natural numbers

    Commutative property

    Commutative property

    Commutative_property

  • Degenerate energy levels
  • Energy level of a quantum system

    different states of a quantum mechanical system are said to be degenerate if they give the same value of energy upon measurement. The number of different states

    Degenerate energy levels

    Degenerate energy levels

    Degenerate_energy_levels

  • Boson sampling
  • Restricted model of non-universal quantum computation

    Boson sampling is a computational task particularly friendly to quantum computers as opposed to classical computers. As explained by Philip Ball, it "entails

    Boson sampling

    Boson_sampling

  • Quantum dot solar cell
  • Type of solar cell based on quantum dot devices

    A quantum dot solar cell (QDSC) is a solar cell design that uses quantum dots as the captivating photovoltaic material. It attempts to replace bulk materials

    Quantum dot solar cell

    Quantum dot solar cell

    Quantum_dot_solar_cell

  • M-theory
  • Framework of superstring theory

    the framework of quantum mechanics, a radically different formalism for describing physical phenomena based on probability. A quantum theory of gravity

    M-theory

    M-theory

  • E (mathematical constant)
  • 2.71828...; base of natural logarithms

    real number such that ∫ 1 e 1 t d t = 1. {\displaystyle \int _{1}^{e}{\frac {1}{t}}\,dt=1.} Because ex is the unique function (up to multiplication by a

    E (mathematical constant)

    E (mathematical constant)

    E_(mathematical_constant)

  • Linear logic
  • System of resource-aware logic

    dual. The rules for multiplicative conjunction (⊗) and disjunction (⅋): and for their units: Observe that the rules for multiplicative conjunction and disjunction

    Linear logic

    Linear_logic

  • Real number
  • Number representing a continuous quantity

    {\displaystyle a+(-a)=(-a)+a=0} for every real number a. Every nonzero real number a has a multiplicative inverse denoted a − 1 {\displaystyle a^{-1}} or

    Real number

    Real number

    Real_number

  • Adiabatic invariant
  • Property of physical systems that stays somewhat constant through slow changes

    transitions, so that the quantum number is an adiabatic invariant. The old quantum theory was formulated by equating the quantum number of a system with its

    Adiabatic invariant

    Adiabatic_invariant

  • Locally compact quantum group
  • approaches. Earlier attempts at a unifying definition of quantum groups using, for example, multiplicative unitaries have enjoyed some success but have also

    Locally compact quantum group

    Locally_compact_quantum_group

  • Penrose graphical notation
  • Graphical notation for multilinear algebra calculations

    widely appears in modern quantum theory, particularly in matrix product states and quantum circuits. In particular, categorical quantum mechanics (which includes

    Penrose graphical notation

    Penrose graphical notation

    Penrose_graphical_notation

  • Fixed-point arithmetic
  • Computer format for representing real numbers

    source ports. The Q# programming language for the Azure quantum computers, which implement quantum logic gates, contains a standard numeric library for performing

    Fixed-point arithmetic

    Fixed-point_arithmetic

AI & ChatGPT searchs for online references containing MULTIPLICATIVE QUANTUM-NUMBER

MULTIPLICATIVE QUANTUM-NUMBER

AI search references containing MULTIPLICATIVE QUANTUM-NUMBER

MULTIPLICATIVE QUANTUM-NUMBER

  • Quant
  • Surname or Lastname

    English

    Quant

    English : nickname from Middle English cointe, quointe ‘known’ (via Old French, from Latin cognitus ‘known’). The Middle English word was used in various senses, any of which could have given rise to the surname: ‘cunning’, ‘crafty’, ‘knowledgeable’ (especially about dress, hence ‘elegant’), ‘attractive’. The sense development continued with ‘odd’ or ‘unusual’, the normal meaning of the modern English word ‘quaint’.German and Dutch : variant of Quandt.

    Quant

  • John
  • Surname or Lastname

    English, Welsh, German, etc.

    John

    English, Welsh, German, etc. : ultimately from the Hebrew personal name yọ̄hānān ‘Jehovah has favored (me with a son)’ or ‘may Jehovah favor (this child)’. This personal name was adopted into Latin (via Greek) as Johannes, and has enjoyed enormous popularity in Europe throughout the Christian era, being given in honor of St. John the Baptist, precursor of Christ, and of St. John the Evangelist, author of the fourth gospel, as well as others of the nearly one thousand other Christian saints of the name. Some of the principal forms of the personal name in other European languages are Welsh Ieuan, Evan, Siôn, and Ioan; Scottish Ia(i)n; Irish Séan; German Johann, Johannes, Hans; Dutch Jan; French Jean; Italian Giovanni, Gianni, Ianni; Spanish Juan; Portuguese João; Greek Iōannēs (vernacular Yannis); Czech Jan; Russian Ivan. Polish has surnames both from the western Slavic form Jan and from the eastern Slavic form Iwan. There were a number of different forms of the name in Middle English, including Jan(e), a male name (see Jane); Jen (see Jenkin); Jon(e) (see Jones); and Han(n) (see Hann). There were also various Middle English feminine versions of this name (e.g. Joan, Jehan), and some of these were indistinguishable from masculine forms. The distinction on grounds of gender between John and Joan was not firmly established in English until the 17th century. It was even later that Jean and Jane were specialized as specifically feminine names in English; bearers of these surnames and their derivatives are more likely to derive them from a male ancestor than a female. As a surname in the British Isles, John is particularly frequent in Wales, where it is a late formation representing Welsh Siôn rather than the older form Ieuan (which gave rise to the surname Evan). As an American family name this form has absorbed various cognates from continental European languages. (For forms, see Hanks and Hodges 1988.)

    John

  • MERAV
  • Female

    Hebrew

    MERAV

    (מֵרַב) Variant spelling of Hebrew Merab, MERAV means "increase, multiplication." 

    MERAV

  • Ganter
  • Surname or Lastname

    South German

    Ganter

    South German : occupational name for an official in charge of the legal auction of property confiscated in default of a fine; such a sale was known in Middle High German as a gant (from Italian incanto, a derivative of Late Latin inquantare ‘to auction’, from the phrase In quantum? ‘To how much (is the price raised)?’).German : metonymic occupational name for a cooper, from Middle High German ganter, kanter ‘barrel rack’.German : variant of Gander 3.English : occupational name for a glover, from Old French gantier, an agent derivative of gant ‘glove’ (see Gant).

    Ganter

  • Male
  • Surname or Lastname

    English

    Male

    English : nickname for a virile man, from Middle English male ‘masculine’ (Old French masle, madle, Latin masculus).Belgian (van Male) : habitational name from any of a number of places in Flanders named Male.

    Male

  • MERAB
  • Female

    Hebrew

    MERAB

    (מֵרַב) Variant spelling of Hebrew Merav, MERAB means "increase, multiplication." In the bible, this is the name of the eldest daughter of King Saul. 

    MERAB

  • January
  • Surname or Lastname

    Americanized form of the Latin personal name Januarius or its Italian derivative Gennaro, which was borne by a number of early Christian saints, most famously a 3rd-century bishop of Benevento who became the patron of Naples.English

    January

    Americanized form of the Latin personal name Januarius or its Italian derivative Gennaro, which was borne by a number of early Christian saints, most famously a 3rd-century bishop of Benevento who became the patron of Naples.English : altered form of Janeway.In New England, a translation of French Janvier.

    January

  • Quartus
  • Boy/Male

    Latin Biblical

    Quartus

    Born fourth.

    Quartus

  • Julian
  • Surname or Lastname

    English (common in Devon and Cornwall), Spanish (Julián), and German

    Julian

    English (common in Devon and Cornwall), Spanish (Julián), and German : from a personal name, Latin Iulianus, a derivative of Iulius (see Julius), which was borne by a number of early saints. In Middle English the name was borne in the same form by women, whence the modern girl’s name Gillian.

    Julian

  • Mark
  • Surname or Lastname

    English and Dutch

    Mark

    English and Dutch : from Latin Marcus, the personal name of St. Mark the Evangelist, author of the second Gospel. The name was borne also by a number of other early Christian saints. Marcus was an old Roman name, of uncertain (possibly non-Italic) etymology; it may have some connection with the name of the war god Mars. Compare Martin. The personal name was not as popular in England in the Middle Ages as it was on the Continent, especially in Italy, where the evangelist became the patron of Venice and the Venetian Republic, and was allegedly buried at Aquileia. As an American family name, this has absorbed cognate and similar names from other European languages, including Greek Markos and Slavic Marek.English, German, and Dutch (van der Mark) : topographic name for someone who lived on a boundary between two districts, from Middle English merke, Middle High German marc, Middle Dutch marke, merke, all meaning ‘borderland’. The German term also denotes an area of fenced-off land (see Marker 5) and, like the English word, is embodied in various place names which have given rise to habitational names.English (of Norman origin) : habitational name from Marck, Pas-de-Calais.German : from Marko, a short form of any of the Germanic compound personal names formed with mark ‘borderland’ as the first element, for example Markwardt.Americanization or shortened form of any of several like-sounding Jewish or Slavic surnames (see for example Markow, Markowitz, Markovich).Irish (northeastern Ulster) : probably a short form of Markey (when not of English origin).

    Mark

  • Shantum
  • Boy/Male

    Hindu, Indian

    Shantum

    Calm

    Shantum

  • Horace
  • Surname or Lastname

    English

    Horace

    English : from the personal name Horace, Latin Horatius, a Roman family name of unknown origin, associated chiefly with the name of the poet Quintus Horatius Flaccus (65–8 bc).

    Horace

  • QUINCY
  • Male

    English

    QUINCY

    English surname transferred to forename use, derived from the Norman baronial name Cuinchy, a derivative of Roman Quintus, QUINCY means "fifth."

    QUINCY

  • Mars
  • Surname or Lastname

    English

    Mars

    English : variant of Marsh.French : habitational name from places so named in Ardèche, Ardennes, Gard, Loire, Nièvre, and Meurthe-et-Moselle, from the Latin personal name Marcius, used adjectivally.French : from the personal name Meard, Mard, Mart, vernacular forms of the saint’s name Médard. Morlet notes that there are a number of places called Saint-Mars, formerly recorded in Latin as Sanctus Medardus.French : from the name of the month, mars ‘ March’, denoting seed sown in March, and hence a metonymic name for an arable grower.French (De Mars) : habitational name from Mars in the Ardennes.Dutch : from a short form of the personal name Marsilius.

    Mars

  • Mainwaring
  • Surname or Lastname

    English (of Norman origin)

    Mainwaring

    English (of Norman origin) : habitational name from a lost place, of uncertain location, named in Anglo-Norman French as mesnil Warin ‘domain of Warin’ (see Waring). The surname has had a large number of variant spellings; it is normally pronounced ‘Mannering’.

    Mainwaring

  • Quartus
  • Girl/Female

    Biblical

    Quartus

    Fourth.

    Quartus

  • Lupton
  • Surname or Lastname

    English

    Lupton

    English : habitational name from a place in Cumbria (Westmorland). The place name is recorded in Domesday Book as Lupetun, and probably derives from an Old English personal name Hluppa (of uncertain origin) + Old English tūn ‘enclosure’, ‘settlement’.The name was brought to America by John Lupton, who sailed from Gravesend, England, on the Primrose in 1635, and is recorded in VA three years later. On 24 October 1635 Davie Lupton set off on the Constance bound for VA, but there is no record of his arrival in the New World. A Christopher Lupton is recorded in Suffolk Co., Long Island, NY, c.1635, and a large number of Luptons in NC descend from him. An American family of the name settled in the area of Winchester, VA, in the mid18th century; they can be traced back to Martin Lupton, who was married in 1630 in the parish of Rothwell, Yorkshire, England.

    Lupton

  • Quintus
  • Boy/Male

    Danish, Finnish, French, German, Latin, Shakespearean, Swedish

    Quintus

    Born Fifth

    Quintus

  • Quartus
  • Biblical

    Quartus

    fourth

    Quartus

  • Martineau
  • Surname or Lastname

    French (western)

    Martineau

    French (western) : from a pet form of Martin 1.English : habitational name from Martineau in France. The name was also taken to England by Huguenot refugees in the 17th century (see below).Harriet Martineau (1802–76), the English writer, was the daughter of a Norwich manufacturer. She was descended from a family of French Huguenots who owned land around Poitou and Touraine in the 15th century. They included a number of surgeons in the 17th century. In the 19th century a branch of the family was firmly established in Birmingham, England; others went to North America.

    Martineau

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Online names & meanings

  • Jorja
  • Girl/Female

    American, Australian, British, Christian, English

    Jorja

    Farmer; Modern Phonetic Variant of Georgia

  • Full
  • Girl/Female

    Arabic

    Full

    Arabian Jasmine

  • Riyas
  • Boy/Male

    Arabic, Muslim

    Riyas

    Heaven

  • Rifah
  • Boy/Male

    Arabic, Muslim

    Rifah

    Name of Twenty Three Companions of Muhammad

  • Lotan
  • Boy/Male

    Biblical

    Lotan

    Wrapped up, hidden, covered, myrrh, rosin.

  • Hodan
  • Girl/Female

    Muslim/Islamic

    Hodan

    Guidance

  • Razaan
  • Boy/Male

    Indian

    Razaan

    Calm

  • Jennessa
  • Girl/Female

    English

    Jennessa

    which is a.

  • Praharshita | ப்ரஹார்ஷீதா
  • Girl/Female

    Tamil

    Praharshita | ப்ரஹார்ஷீதா

    Ever Happy girl

  • Alishaba
  • Girl/Female

    Muslim/Islamic

    Alishaba

    Beautiful sunshine

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Other words and meanings similar to

MULTIPLICATIVE QUANTUM-NUMBER

AI search in online dictionary sources & meanings containing MULTIPLICATIVE QUANTUM-NUMBER

MULTIPLICATIVE QUANTUM-NUMBER

  • Quartic
  • n.

    A quantic of the fourth degree. See Quantic.

  • Blastogenesis
  • n.

    Multiplication or increase by gemmation or budding.

  • Vacuolation
  • n.

    Formation into, or multiplication of, vacuoles.

  • Multiplicatively
  • adv.

    So as to multiply.

  • Quantic
  • n.

    A homogeneous algebraic function of two or more variables, in general containing only positive integral powers of the variables, and called quadric, cubic, quartic, etc., according as it is of the second, third, fourth, fifth, or a higher degree. These are further called binary, ternary, quaternary, etc., according as they contain two, three, four, or more variables; thus, the quantic / is a binary cubic.

  • Septic
  • n.

    A quantic of the seventh degree.

  • Multiplication
  • n.

    An increase above the normal number of parts, especially of petals; augmentation.

  • Multiplicate
  • a.

    Consisting of many, or of more than one; multiple; multifold.

  • Quotient
  • n.

    The result of any process inverse to multiplication. See the Note under Multiplication.

  • Quantum
  • n.

    A definite portion of a manifoldness, limited by a mark or by a boundary.

  • Sextic
  • n.

    A quantic of the sixth degree.

  • Superfecundity
  • n.

    Superabundant fecundity or multiplication of the species.

  • Quadric
  • n.

    A quantic of the second degree. See Quantic.

  • Quintic
  • n.

    A quantic of the fifth degree. See Quantic.

  • Multiplication
  • n.

    The process of repeating, or adding to itself, any given number or quantity a certain number of times; commonly, the process of ascertaining by a briefer computation the result of such repeated additions; also, the rule by which the operation is performed; -- the reverse of division.

  • Quantum
  • n.

    Quantity; amount.

  • Multiplicative
  • a.

    Tending to multiply; having the power to multiply, or incease numbers.

  • Multiplication
  • n.

    The art of increasing gold or silver by magic, -- attributed formerly to the alchemists.

  • Multiplication
  • n.

    The act or process of multiplying, or of increasing in number; the state of being multiplied; as, the multiplication of the human species by natural generation.

  • Quanta
  • pl.

    of Quantum