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Vector describing a wave; often its propagation direction
In physics, a wave vector (or wavevector) is a vector used in describing a wave, with a typical unit being cycle per metre. It has a magnitude and direction
Wave_vector
Fundamental theorem in condensed matter physics
{\displaystyle \psi } is the wave function, u {\displaystyle u} is a periodic function with the same periodicity as the crystal, the wave vector k {\displaystyle
Bloch's_theorem
Measure of directional electromagnetic energy flux
In physics, the Poynting vector (or Umov–Poynting vector) represents the directional energy flux (the energy transfer per unit area, per unit time) or
Poynting_vector
Vector in relativity
In special relativity, a four-vector (or 4-vector, sometimes Lorentz vector) is an element of a four-dimensional vector space object with four components
Four-vector
Type of field where the net flow of electromagnetic energy is zero
can be characterized by a wave vector where one or more of the vector's components has an imaginary value. Because the vector has imaginary components
Evanescent_field
Dynamic disturbance in a medium or field
different frequencies. A plane wave is classified as a transverse wave if the field disturbance at each point is described by a vector perpendicular to the direction
Wave
Mathematical description of quantum state
understand wave functions. For example: Linear algebra explains how a vector space can be given a basis, and then any vector in the vector space can be
Wave_function
Spatial frequency of a wave
wavenumber is the magnitude of the wave vector. The space of wave vectors is called reciprocal space. Wave numbers and wave vectors play an essential role in optics
Wavenumber
Process by which a quantum system takes on a definitive state
interpretations of quantum mechanics, wave function collapse, also called reduction of the state vector, occurs when a wave function—initially in a superposition
Wave_function_collapse
Partial differential equation used in physics
ky, kz) is the wave vector (in radians per meter), and ϕ 0 {\displaystyle \phi _{0}} is the phase angle (in radians). The wave vector is related to the
Electromagnetic_wave_equation
Distance over which a wave's shape repeats
wavenumber k with a wave vector that specifies the direction and wavenumber of a plane wave in 3-space, parameterized by position vector r. In that case,
Wavelength
Equations describing diffraction in a crystal lattice
outgoing wave vectors (to the crystal and from the crystal, by scattering), and G {\displaystyle \mathbf {G} } is a crystal reciprocal lattice vector. Due
Laue_equations
Physical phenomenon relating to the direction of waves
the magnitude of the wave vector depend on the wave speed this requires a change in direction of the wave vector. The relevant wave speed in the discussion
Refraction
Number of available physical states per energy unit
either energy or the wave vector k. To convert between the DOS as a function of the energy and the DOS as a function of the wave vector, the system-specific
Density_of_states
Quantum-mechanical vector property in solid-state physics
quasimomentum is a momentum-like vector associated with electrons in a crystal lattice. It is defined by the associated wave vectors k {\displaystyle \mathbf
Crystal_momentum
Type of wave propagating in 3 dimensions
be scalars, vectors, or any other physical or mathematical quantity. They can be complex numbers, as in a complex exponential plane wave. When the values
Plane_wave
Refractive property of materials
as a wave with field components in transverse polarization (perpendicular to the direction of the wave vector). A mathematical description of wave propagation
Birefringence
Property of waves that can oscillate with more than one orientation
"polarization" direction of an electromagnetic wave is given by its electric field vector. Considering a monochromatic plane wave of optical frequency f (light of vacuum
Polarization_(waves)
Screening phenomenon in metals
scattering process the initial state wave vector ki of the electron wave function is scattered to a final state wave vector kf. Because the electron gas is
Friedel_oscillations
Fourier transform of a real-space lattice, important in solid-state physics
reciprocal lattice is the set of all vectors G m {\displaystyle \mathbf {G} _{m}} , that are wavevectors k of plane waves in the Fourier series of a spatial
Reciprocal_lattice
Expressing a plane wave as a combination of spherical waves
where i is the imaginary unit, k is a real or complex wave vector of length k, r is a position vector of length r, jℓ are spherical Bessel functions, Pℓ
Plane-wave_expansion
Elastic interaction of x-rays with electrons
single scattering or kinematical theory with conservation of energy (wave vector). Many different types of X-ray sources exist, ranging from ones used
X-ray_diffraction
Elementary particle or quantum of light
{\boldsymbol {p}}=\hbar {\boldsymbol {k}}~,} where k is the wave vector, where k ≡ |k| = 2π /λ is the wave number. Since p {\displaystyle {\boldsymbol {p}}}
Photon
Scattering process outside crystals' first Brillouin zone
U-process or Umklapp process) is a scattering process that results in a wave vector (usually written k) which falls outside the first Brillouin zone. If
Umklapp_scattering
Model of electrically conducting fluids
the magnitude of the wave vector, so they experience no dispersion. The phase velocity depends on the angle between the wave vector k {\displaystyle \mathbf
Magnetohydrodynamics
Equations of light transmission and reflection
electromagnetic wave, the electric field E has the form where Ek is the (constant) complex amplitude vector, i is the imaginary unit, k is the wave vector (whose
Fresnel_equations
Type of plane wave
a unit-length vector, the direction of propagation of the wave, and " ⋅ {\displaystyle \cdot } " denotes the dot product of two vectors. The parameter
Sinusoidal_plane_wave
Quantum mechanical waves describing matter
(Here the physics definition for the wave vector is used, which is 2 π {\displaystyle 2\pi } times the wave vector used in crystallography, see wavevector
Matter_wave
Physical spaces representing position and momentum, Fourier-transform duals
time. The set of all wave vectors is k-space. Usually, the position vector r is more intuitive and simpler than the wave vector k, though the converse
Position_and_momentum_spaces
System for describing optical polarization
transverse waves. Suppose that a monochromatic plane wave of light is travelling in the positive z-direction, with angular frequency ω and wave vector k = (0
Jones_calculus
Concept in general relativity
manifold which admits a covariantly constant null vector field k {\displaystyle k} is called a pp-wave spacetime. That is, the covariant derivative of k
Pp-wave_spacetime
Capacity of a material to conduct heat
where q1 is wave vector of the incident phonon and q2, q3 are wave vectors of the resultant phonons, may also involve a reciprocal lattice vector G complicating
Thermal conductivity and resistivity
Thermal_conductivity_and_resistivity
Broad concept generalizing scalars in mathematics and physics
In mathematics and physics, a vector is a generalization of a single number. It may denote a vector quantity, i.e., physical quantity that cannot be expressed
Vector (mathematics and physics)
Vector_(mathematics_and_physics)
Method in physics
L_{x},L_{y},L_{z}} . The elastic wave will obey the wave equation and will be plane waves; consider the wave vector k = ( k x , k y , k z ) {\displaystyle
Debye_model
Physical model of propagating energy
immediately from the Poynting vector. The electric field, magnetic field, and direction of wave propagation are all orthogonal, and the wave propagates in the same
Electromagnetic_radiation
Optical principle
angle constant (in rad), and k = (kx, ky, kz) is the wave vector of the wave (in rad/m). The wave vector is related to the angular frequency and speed of
Huygens principle of double refraction
Huygens_principle_of_double_refraction
Polarization state
direction of the wave. In electrodynamics, the strength and direction of an electric field is defined by its electric field vector. In the case of a
Circular_polarization
Vibration that travels via pressure waves in matter
speed and direction are combined as a velocity vector; wave number and direction are combined as a wave vector. To analyse audio, a complicated waveform—such
Sound
Family of linear transformations
Euclidean vectors, row or column vectors, etc., see Linear algebra and Vector space for details. The generators of a Lie group also form a vector space over
Lorentz_transformation
Light wave refraction with opposite properties to those usually observed
proposal of opposition of the wave vector and (Abraham) the Poynting vector. Other definitions include the opposition of wave vector to group velocity, and energy
Negative_refraction
Quantization giving rise to photons
{\displaystyle a} . The wave vector k gives the propagation direction of the corresponding Fourier component (a polarized monochromatic wave) of A(r,t); the length
Quantization of the electromagnetic field
Quantization_of_the_electromagnetic_field
parallel to the field, the R and L waves. The Langmuir wave is a purely longitudinal wave, that is, the wave vector is in the same direction as the electric
Electromagnetic_electron_wave
Scattering theory
\theta } is the angle between the incident wave vector k {\displaystyle \mathbf {k} } and the scattered wave vector k ′ {\displaystyle \mathbf {k} '} , q =
Born_approximation
Electromagnetic waves that travel along an interface
words, SPPs are always TM (transverse magnetic) waves. k is the wave vector; it is a complex vector, and in the case of a lossless SPP, it turns out
Surface_plasmon_polariton
Technique for determining size distribution of particles
^{2}}}} where g2(q;τ) is the autocorrelation function at a particular wave vector, q, and delay time, τ, and I is the intensity. The angular brackets ⟨
Dynamic_light_scattering
Topics referred to by the same term
mathematics and physics, k-vector may refer to: A wave vector k Crystal momentum A multivector of grade k, also called a k-vector, the dual of a differential
K-vector
Study of classical optics using Fourier transforms
Mathematically, a real-valued component of a vector field describing a wave is represented by a scalar wave function u that depends on both space and time:
Fourier_optics
Quasiparticle of mechanical vibrations
wave also is given in terms of ω and k . The direction of the wave vector is the direction of the wave propagation and the phonon polarization vector
Phonon
Type of chemical bond in metals
some electrons will adjust their state slightly, adopting a different wave vector. Consequently, there will be more moving one way than another and a net
Metallic_bonding
Electron diffraction by reflection from surfaces
l | = | k i | {\displaystyle |k_{hl}|=|k_{i}|} (2) Here, khl is the wave vector of the elastically diffracted electrons of the order (hl) at any intersection
Reflection high-energy electron diffraction
Reflection_high-energy_electron_diffraction
Anomalous radio echo
signals, interact nonlinearly in the ionosphere or magnetosphere. If the wave vector and frequency of the forced oscillation at the difference frequency of
Long_delayed_echo
Complete reflection of a wave
electromagnetic wave, the electric field E has the form where Ek is the (constant) complex amplitude vector, i is the imaginary unit, k is the wave vector (whose
Total_internal_reflection
Quasiparticle form phonon and photon coupling
the wave vector of the plane wave, x {\displaystyle \mathbf {x} } the position, t the time, and ω the angular frequency. Notice that wave vector k → {\displaystyle
Phonon_polariton
Quantum theory of interacting electron gas
{\displaystyle E_{\mathbf {k} }=\hbar ^{2}k^{2}/2m} is the kinetic energy with wave vector k {\displaystyle \mathbf {k} } , m {\displaystyle m} is the electron
Lindhard_theory
Fundamental principle of physics
functions, vectors, vector fields, time-varying signals, or any other object that satisfies certain axioms. Note that when vectors or vector fields are
Superposition_principle
Concept in quantum mechanics
and the condition that the wave function must be continuous at the edge of the well, we get solutions for the wave vector k {\displaystyle k} that satisfy
Quantum_well
Differential equation important in physics
time, there are vector wave equations describing waves in vectors such as waves for an electrical field, magnetic field, and magnetic vector potential and
Wave_equation
Quantum mechanical model
preserves the desired commutation relations in either real space or wave vector space [ x l , p m ] = i ℏ δ l , m [ Q k , Π k ′ ] = 1 N ∑ l , m e i k
Quantum_harmonic_oscillator
Short "burst" or "envelope" of restricted wave action that travels as a unit
)t)},} where the relation between the angular frequency ω and angular wave vector k is given by the dispersion relation: ω ( k ) = ± | k | c = ± 2 π c
Wave_packet
"Bouncing back" of waves at an interface
The wave vector of the reflected wave is such that its vector projection on the mirror normal is the negation of that of the incident wave vector while
Reflection_(physics)
Technique for determining surface structures
incident electron with wave vector k i = 2 π / λ i {\displaystyle \mathbf {k} _{i}=2\pi /\lambda _{i}} and scattered wave vector k f = 2 π / λ f {\displaystyle
Low-energy electron diffraction
Low-energy_electron_diffraction
Small angle deflection of waves
electron diffraction. Whenever waves encounter obstacles of any type there are changes in the direction of the waves (wave vector) by diffraction, and sometimes
Forward_scatter
Particle that is not bound by an external force
for a particle with momentum p or wave vector k, at angular frequency ω or energy E, is given by a complex plane wave: ψ ( r , t ) = A e i ( k ⋅ r − ω
Free_particle
Mathematical description in crystallography
The direction of any scattered wave is defined by its scattering vector q {\displaystyle \mathbf {q} } . This vector is q = k s − k o {\displaystyle
Structure_factor
Topological bound state of an electron
was confirmed in many remarkable experiments that measure the Fermi wave vector, cyclotron orbits, etc. Just as a Fermi liquid serves as the parent state
Composite_fermion
Theorem in physics
of zero, that is the amplitude of the wave scattered to the center of a distant screen and k is the wave vector in the incident direction. Because the
Optical_theorem
Function in condensed matter physics
{\displaystyle {\vec {k}}} (sometimes q → {\displaystyle {\vec {q}}} ) is a wave vector (or wave number for isotropic materials), and ω {\displaystyle \omega } a
Dynamic_structure_factor
Periodic optical nanostructure that affects the motion of photons
dispersion method also exploited plane wave expansion but formulates Maxwell's equation as an eigenproblem for the wave vector k while the frequency ω {\displaystyle
Photonic_crystal
Geometric object that has length and direction
physics, and engineering, a Euclidean vector or simply a vector (sometimes called a geometric vector or spatial vector) is a geometric object that has magnitude
Euclidean_vector
Scattering of an electromagnetic plane wave by a sphere
this formulation, the incident plane wave, as well as the scattering field, is expanded into radiating spherical vector spherical harmonics. The internal
Mie_scattering
Dependence of group velocity on frequency
group-velocity dispersion can be defined in terms of the medium-dependent wave vector k ( ω ) {\displaystyle k(\omega )} according to GVD ( ω 0 ) ≡ ( ∂ 2 k
Group-velocity_dispersion
Formula for refraction angles
complex-valued. Consequently, so are the angle of refraction and the wave-vector. This implies that, while the surfaces of constant real phase are planes
Snell's_law
Experimental technique to determine the distribution of electrons in solids
their binding energy E B {\displaystyle E_{\text{B}}} and the Bloch wave vector k {\displaystyle \mathbf {k} } , which is related to the electrons' crystal
Angle-resolved photoemission spectroscopy
Angle-resolved_photoemission_spectroscopy
Magnetization by polarized light
magnetization along the wave vector k {\displaystyle \mathbf {k} } . The vector product of left- and right-handed polarization waves should induce magnetization
Inverse_Faraday_effect
Damping of electric fields
}}{\varepsilon _{0}\pi ^{2}\hbar ^{2}}}}} is called the Thomas–Fermi screening wave vector. This result follows from the equations of a Fermi gas, which is a model
Electric-field_screening
Diagram plotting electron energy levels
is that in a band structure plot the horizontal axis represents the wave vector of an electron in an infinitely large, homogeneous material (usually
Band_diagram
resonant interactions in dispersive media. They arise when three waves with wave vectors k → 1 {\displaystyle {\vec {k}}_{1}} , k → 2 {\displaystyle {\vec
Three-wave_equation
partial wave of a definite angular momentum eigenstate. These quantities naturally depend on k → {\displaystyle {\vec {k}}} , the wave-vector of the incident
Resonances in scattering from potentials
Resonances_in_scattering_from_potentials
and their notations. Note that bold text indicates that the quantity is a vector. List of letters used in mathematics and science Glossary of mathematical
List of common physics notations
List_of_common_physics_notations
Formula for sound intensity loss in a Newtonian fluid
air, due to the fluid's viscosity. It states that the amplitude of a plane wave decreases exponentially with distance traveled, at a rate α given by α =
Stokes's law of sound attenuation
Stokes's_law_of_sound_attenuation
first-nearest-neighbor interactions only) that produces energy of the electrons with wave vector k = [ k x , k y ] {\displaystyle \mathbf {k} =[k_{x},k_{y}]} is E ( k
Electronic properties of graphene
Electronic_properties_of_graphene
Low-frequency plasma wave
wave where the perturbations of magnetic field and velocity are perpendicular to the direction of the background magnetic field and the wave vector.
Alfvén_wave
Coordinate system
Physically speaking, it serves as the wave vector defining the direction of propagation for the pp-wave. The coordinate vector field ∂ u {\displaystyle \partial
Brinkmann_coordinates
Electromagnetic radiation special case
polarized electromagnetic wave is defined by the direction of the electric field vector. For example, if the electric field vector is vertical (alternately
Linear_polarization
Branch of physics
(XPW), a χ ( 3 ) {\displaystyle \chi ^{(3)}} effect in which a wave with polarization vector perpendicular to the input one is generated. Modulational instability
Nonlinear_optics
Concept in physics
)}} Where k {\displaystyle \scriptstyle \mathbf {k} } is the incident wave vector given by: k = 2 π λ n ^ {\displaystyle \mathbf {k} ={\frac {2\pi }{\lambda
Bragg_plane
Study of interactions between sound and light
light wave vector and [110] axis of the crystal; α ℓ {\displaystyle \alpha _{\ell }} : the angle between the input face of the cell and acoustic wave vector;
Acousto-optics
Angular momentum deriving from photon spin
]=0~.} After the plane-wave expansion, the photon spin can be re-expressed in a simple and intuitive form in the wave-vector space S = ℏ ∫ d 3 x
Spin angular momentum of light
Spin_angular_momentum_of_light
Pattern of movement across water
later waves can catch up with earlier waves and no shockwave forms. In deep water, shock waves form even from slow-moving sources, because waves with short
Kelvin_wake_pattern
Italian hardstyle DJ (born 1970)
Hardstyle Masterz, Hunter, The Raiders, DJ Stardust, Droid, Atlantic Wave, Vector Two, Q-Zar, Ruff, Speedwave, Builder, and Psy man.[citation needed] As
Technoboy
Electronic states at the surface of materials
occurs resulting in a standing wave consisting of a wave with wave vector k = π / a {\displaystyle k=\pi /a} and wave vector k = − π / a {\displaystyle k=-\pi
Surface_states
Approximation in many-body systems
{\displaystyle \lambda } is the screening wave number that scales as r s − 1 / 2 {\displaystyle r_{s}^{-1/2}} Typical wave vectors q {\displaystyle q} scale as 1
GW_approximation
Wave which propagates through a magnetic material
"Spin-Polarized Electron Energy Loss Spectroscopy of High Energy, Large Wave Vector Spin Waves in Ultrathin fcc Co Films on Cu(001)" (PDF). Physical Review Letters
Spin_wave
Dimensionality of space at which the character of the phase transition changes
dimensional analysis this means that the exponents N {\displaystyle N} count wave vector factors (a reciprocal length k = 1 / L 1 {\displaystyle k=1/L_{1}} )
Critical_dimension
Optical polarization device
Evidently, the effect of the half-wave plate is to mirror the wave's polarization vector through the plane formed by the vectors f ^ {\displaystyle \mathbf {\hat
Waveplate
Particular solutions to the electromagnetic wave equation
quantum state vector. The connection with quantum mechanics is made in the article on photon polarization. The vector emerges from the plane-wave solution
Sinusoidal plane-wave solutions of the electromagnetic wave equation
Sinusoidal_plane-wave_solutions_of_the_electromagnetic_wave_equation
Material designed to manipulate sound waves
the polarity of wave propagation (wave vector). Hence within the last equation, Veselago-type solutions (n2 = u*ε) are possible for wave propagation as
Acoustic_metamaterial
Moving wave that has oscillations perpendicular to the direction of the wave
of such a wave can be expressed mathematically as follows. Let d ^ {\displaystyle {\widehat {d}}} be the direction of propagation (a vector with unit
Transverse_wave
Class of antennas
electromagnetic wave with a wave vector k1 in M-1, results in a refracted wave with a wave vector k2 in M-2. Since, M-2 supports backward wave propagation
Metamaterial_antenna
waves are collective perturbations in a magnetic solid. Their properties depend on their wavelength (or wave vector). For long wavelength (short wave
Spin-polarized electron energy loss spectroscopy
Spin-polarized_electron_energy_loss_spectroscopy
WAVE VECTOR
WAVE VECTOR
Surname or Lastname
English
English : topographic name for someone who lived by a dam or weir on a river (Old English wær, wer), or a habitational name from a place named with this word, such as Ware in Hertfordshire.English : nickname for a cautious person, from Middle English war(e) ‘wary’, ‘prudent’ (Old English (ge)wær).English : Robert Ware came to Dedham, MA, from England in or before 1642. Henry Ware (1764–1845), born in Sherborn, MA, was a Unitarian clergyman and theologian and father of the physician John Ware (b. 1795) and two clergymen, Henry (b. 1794) and William (b. 1797).
Surname or Lastname
English
English : occupational name for a servant, from Middle English knave ‘boy’, ‘youth’, ‘servant’.English : possibly a metonymic occupational name for a maker of wheel-hubs, Middle English nave (from Old English nafa, nafu).German (also Näve) : variant of Neff (see Neve).Dutch (de Nave) : variant of Naef 1.In some cases possibly Portuguese : topographic name from nave ‘plain’ (a variant of nava), or a habitational name from a place named with this word. Compare Nava.
Surname or Lastname
English
English : from the Middle English personal name Wade, Old English Wada, from wadan ‘to go’. (Wada was the name of a legendary sea-giant.)English : topographic name for someone who lived near a ford, Old English (ge)wæd (of cognate origin to 1), or a habitational name from a place named with this word, as for example Wade in Suffolk.Dutch and North German : occupational name or nickname from Middle Dutch, Middle Low German wade ‘garment’, ‘large net’.Jonathan Wade emigrated from Norfolk, England, to Medford, MA, in 1632. Benjamin Franklin Wade (1800–1878), born near Springfield, MA, was a prominent U.S. senator from OH during the Civil War.
Boy/Male
Anglo, British, English
Alert; Watchman
Boy/Male
Anglo Saxon American English Scandinavian
Moving.
Boy/Male
Hebrew American Scottish Welsh
Cherished; Beloved.
Boy/Male
Hindu
Variant of David beloved
Boy/Male
Anglo Saxon English
Wise.
Surname or Lastname
English (of Norman origin) and northern French
English (of Norman origin) and northern French : nickname for a bald man, from Anglo-Norman French cauf ‘bald’. Compare Chaffee.English : habitational name from a place in East Yorkshire called Cave, apparently from a river name derived from Old English cÄf ‘swift’.French : metonymic occupational name for someone employed in or in charge of the wine cellars of a great house, from Old French cave ‘cave’, ‘cellar’ (Latin cavea, a derivative of cavus ‘hollow’).French, possibly also English : topographic name for someone who lived in or near a cave, from the same word as in 3 in an older sense.
Boy/Male
English
Alert.
Surname or Lastname
English
English : from a Germanic personal name Walo, either a byname meaning ‘foreigner’ (see Wallace), or else a short form of the various compound names with this first element.English : nickname for a well-liked person, from Middle English wale ‘good’, ‘excellent’ (originally meaning ‘choice’).English : topographic name for someone who lived near an embankment, Middle English wale (Old English walu).
Girl/Female
Irish
Joy.
Female
Irish
Variant spelling of Irish Maeve, MAVE means "intoxicating."Â
Male
English
 English topographical surname transferred to forename use, WADE means "lives near the river crossing." Middle English form of Anglo-Saxon Wada (the name of a sea giant), meaning "to go," in the sense of going forward, proceeding.
Girl/Female
Slavic
Stranger. Pet name formed from Varvara; the Russian form of Barbara.
Surname or Lastname
English
English : variant spelling of Way.
Boy/Male
Australian, Finnish
Permanent
Boy/Male
American, British, Christian, Danish, Dutch, English, French, German, Hebrew, Hindu, Indian, Jamaican, Punjabi, Scottish, Sikh, Swiss
Beloved; David's Son; Form of David
Boy/Male
Anglo, British, English, Jamaican
Wise; Watchful; Aware; Watchman; Careful
Male
English
English short form of Hebrew David, DAVE means "beloved."
WAVE VECTOR
WAVE VECTOR
Girl/Female
Muslim
Large eyes, Moon like
Boy/Male
Hindu, Indian, Traditional
Lord Vishnu
Girl/Female
Indian
Virgins of paradise
Girl/Female
Arabic, Muslim
Sharp; Feminine of Rahif
Boy/Male
British, English, German
Traveler; Wanderer
Female
French
Feminine form of French Sébastien, SÉBASTIENNE means "from Sebaste," a town in Asia Minor.Â
Girl/Female
Afghan, Arabic, Gujarati, Indian, Kannada, Muslim
Beautiful; Radiant
Girl/Female
Hindu
Leafy season
Boy/Male
American, Australian, British, Chinese, Christian, English, Hawaiian, Hebrew
God has Comforted; God's Compassion; The Lord's Comfort
Boy/Male
Arabic, German, Muslim
Better; Explained; Officer
WAVE VECTOR
WAVE VECTOR
WAVE VECTOR
WAVE VECTOR
WAVE VECTOR
v. i.
To fluctuate; to waver; to be in an unsettled state; to vacillate.
Indic. present
of Have
imp.
of Weave
v. i.
To dwell in a cave.
a.
Exhibiting a wavelike form or outline; undulating; intended; wavy; as, waved edge.
v. i.
To play loosely; to move like a wave, one way and the other; to float; to flutter; to undulate.
v. i.
Fig.: A swelling or excitement of thought, feeling, or energy; a tide; as, waves of enthusiasm.
n.
A wale knot, or wall knot.
v. t.
To move like a wave, or by floating; to waft.
n.
A wave.
a.
Undulating on the border or surface; waved.
v. i.
A vibration propagated from particle to particle through a body or elastic medium, as in the transmission of sound; an assemblage of vibrating molecules in all phases of a vibration, with no phase repeated; a wave of vibration; an undulation. See Undulation.
n.
A wave.
v. t.
See Waive.
a.
Playing to and fro; undulating; as, wavy flames.
a.
Rising or swelling in waves; full of waves.
imp. & p. p.
of Wave