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Topics referred to by the same term
Einstein relation can refer to: Einstein relation (kinetic theory), a kinetic relation found independently by Albert Einstein (1905) and Marian Smoluchowski
Einstein_relation
Equation in Brownian motion
Einstein relation is a previously unexpected[clarification needed] connection revealed independently by William Sutherland in 1904, Albert Einstein in
Einstein relation (kinetic theory)
Einstein_relation_(kinetic_theory)
Energy–frequency relation in quantum mechanics
The Planck relation (referred to as Planck's energy–frequency relation, the Planck–Einstein relation, Planck equation, and Planck formula, though the
Planck_relation
Physics concept expressed as E = mc²
units of measurement. The principle is described by the physicist Albert Einstein's formula: E = m c 2 {\displaystyle E=mc^{2}} . In a reference frame where
Mass–energy_equivalence
German-born theoretical physicist (1879–1955)
Einstein (14 March 1879 – 18 April 1955) was a German-born theoretical physicist best known for developing the known theory of relativity. Einstein also
Albert_Einstein
Combination of the diffusion and convection (advection) equations
Smoluchowski who described it in 1915 (not to be confused with the Einstein–Smoluchowski relation or Smoluchowski coagulation equation). Typically, the average
Convection–diffusion_equation
Physical constant in quantum mechanics
oscillator, the first version of what is sometimes termed the Planck–Einstein relation: E = h f . {\displaystyle E=hf.} Planck was able to calculate the
Planck_constant
Observatory
The Einstein Tower (German: Einsteinturm) is an astrophysical observatory in the Albert Einstein Science Park in Potsdam, Germany. The Tower was built
Einstein_Tower
Series of public disputes between physicists Niels Bohr and Albert Einstein
The Bohr–Einstein debates were a series of public disputes about quantum mechanics between Albert Einstein and Niels Bohr. Their debates are remembered
Bohr–Einstein_debates
principle Einstein frame Einstein's mass–energy relation Einstein gravitational constant Einstein's radius of the universe Einstein (unit) Einstein notation
List of things named after Albert Einstein
List_of_things_named_after_Albert_Einstein
Published papers of Albert Einstein in 1905
citation awarding Einstein the 1921 Nobel Prize in Physics. The second paper explained Brownian motion, which established the Einstein relation D = μ k B T
Annus_mirabilis_papers
Albert Einstein (1879–1955) was a renowned theoretical physicist of the 20th century, best known for his special and general theories of relativity. He
List of scientific publications by Albert Einstein
List_of_scientific_publications_by_Albert_Einstein
Statistical physics theorem
direction. From this observation Einstein was able to use statistical mechanics to derive the Einstein–Smoluchowski relation D = μ k B T , {\displaystyle
Fluctuation–dissipation theorem
Fluctuation–dissipation_theorem
Quantum mechanical waves describing matter
called photons. These quanta would have an energy given by the Planck–Einstein relation: E = h ν {\displaystyle E=h\nu } and a momentum vector p {\displaystyle
Matter_wave
Feature seen when light is gravitationally lensed by an object
An Einstein ring, also known as an Einstein–Chwolson ring or Chwolson ring (named for Orest Chwolson), is created when light from a galaxy or star passes
Einstein_ring
Quantity in solid-state physics
coefficient for a charge carrier is related to its mobility by the Einstein relation. For a classical system (e.g. Boltzmann gas), it reads: D e = μ e
Electron_mobility
Mathematical descriptions of molecular diffusion
of the fluid and the size of the particles according to the Stokes–Einstein relation. The modeling and prediction of Fick's diffusion coefficients is difficult
Fick's_laws_of_diffusion
United States historic place
The Albert Einstein House at 112 Mercer Street in Princeton, Mercer County, New Jersey, United States, was the home of Albert Einstein from 1935 until
Albert_Einstein_House
Spectral line of hydrogen state transition in UHF radio frequencies
wavelength of 21.106114054160(30) cm in a vacuum. According to the Planck–Einstein relation E = hν, the photon emitted by this transition has an energy of 5
Hydrogen_line
Model of the Universe proposed 1932
Edwin Hubble's discovery of a linear relation between the redshift of the galaxies and their distance, Einstein set the cosmological constant to zero
Einstein–de_Sitter_universe
Transport of dissolved species from the highest to the lowest concentration region
calculated using the Einstein relation (kinetic theory). m is the mass of the particle. t is time. At long time scales, Einstein's result is recovered
Diffusion
2003 play by Vern Thiessen
‹ The template Infobox play is being considered for merging. › Einstein's Gift is a 2003 play written by Canadian playwright Vern Thiessen and published
Einstein's_Gift
Wife of Albert Einstein (1875–1948)
Mileva Marić-Einstein (Милева Марић-Ајнштајн, Mileva Marić-Ajnštajn), was a Serbian mathematician. She also was the first wife of Albert Einstein from 1903
Mileva_Marić
Relationship describing the kinetics of intermolecular photochemical deactivation
viscosity of the solution. This formula is derived from the Stokes–Einstein relation and is only useful in this form in the case of two spherical particles
Stern–Volmer_relationship
Absorption refrigerator invented in 1930
The Einstein–Szilard or Einstein refrigerator is an absorption refrigerator which has no moving parts, operates at constant pressure, and requires only
Einstein_refrigerator
Two interrelated physics theories by Albert Einstein
The theory of relativity comprises two physics theories by Albert Einstein: special relativity and general relativity, proposed and published in 1905 and
Theory_of_relativity
Theoretical physicist (1879–1955)
outline is provided as an overview of and topical guide to Albert Einstein: Albert Einstein – German-born theoretical physicist. He developed the theory of
Outline_of_Albert_Einstein
Parameter of solute diffusion
and q {\displaystyle q} is electrical charge. This is known as the Einstein relation. Substituting in the frictional coefficient of a perfect sphere from
Stokes_radius
Principle of quantum physics
themselves was quantized (with photon energy given by the Planck–Einstein relation), and that quantization was not merely a feature of microscopic oscillators
Planck_postulate
fluctuations of the observable the transport coefficient obeys a generalized Einstein relation: 2 t γ = ⟨ | A ( t ) − A ( 0 ) | 2 ⟩ . {\displaystyle 2t\gamma =\left\langle
Transport_coefficient
Frequency domain representation of random fluctuations in the phase of a waveform
160.290. Ham, Donhee; Hajimiri, Ali (2003). "Virtual damping and Einstein relation in oscillators". IEEE Journal of Solid-State Circuits. 38 (3): 407–418
Phase_noise
Hypothetical elementary particle that mediates gravity
more than 7.7×10−23 eV/c2. This relation between wavelength and mass-energy is calculated with the Planck–Einstein relation, the same formula that relates
Graviton
Poisson equation Schwinger–Dyson equation Sellmeier equation Stokes–Einstein relation Tsiolkovsky rocket equation Van der Waals equation Vlasov equation
List_of_equations
Type of semiconductor current
mobility is known, the diffusion coefficient may be determined from the Einstein relation on electrical mobility. The following table compares the two types
Diffusion_current
Application of the theory of relativity to the universe as a whole
1/R2 = κρ/2, where κ is the Einstein gravitational constant. Following the discovery by Edwin Hubble of a linear relation between the redshifts of the
Einstein's_static_universe
Topics referred to by the same term
"Einstein's constant" might mean: Cosmological constant Einstein gravitational constant in the Einstein field equations Einstein relation (kinetic theory)
Einstein's_constant
Random motion of particles suspended in a fluid
physical existence was still fiercely debated by scientists. Einstein proved the mathematical relation between the probability distribution of a Brownian particle
Brownian_motion
Research institute in Germany
Albert Einstein Science Park is located on the Telegrafenberg hill in Potsdam, Germany. The park was named after the physicist Albert Einstein. The best
Albert_Einstein_Science_Park
Concept in physics
in corrections to the fluctuation–dissipation relation of the second kind, known as the Einstein relation. Here, linear friction contains both entropic
Frenesy_(physics)
Stochastic differential equation
random force, which in an equilibrium system is an expression of the Einstein relation. A strictly δ {\displaystyle \delta } -correlated fluctuating force
Langevin_equation
Theory of gravitation as curved spacetime
whatever is present, including matter and radiation. The relation is specified by the Einstein field equations, a system of second-order partial differential
General_relativity
Property of a mass in motion
relationship between temporal components, E = ħω, is the Planck–Einstein relation, and the relation between spatial components, p = ħk, describes a de Broglie
Momentum
black body radiation Planck-taper window Planck–Bessel window Planck–Einstein relation Planck units Planck energy Planck length Planck mass Planck time Planck
List of things named after Max Planck
List_of_things_named_after_Max_Planck
Insulating region in a semiconductor
depletion region at dynamic equilibrium, the current is zero due to the Einstein relation, which relates D to σ. Forward bias (applying a positive voltage to
Depletion_region
Albert Einstein's hypothetical situations to argue scientific points
A hallmark of Albert Einstein's career was his use of visualized thought experiments (German: Gedankenexperiment) as a fundamental tool for understanding
Einstein's thought experiments
Einstein's_thought_experiments
Equation for the velocity of a body in viscous fluid
is flowing in the opposite direction to the motion of the sphere. Einstein relation (kinetic theory) Scientific laws named after people Ballistics Drag
Stokes's_law
Scientific theory
{\displaystyle D=k_{B}T/\gamma } is the diffusion coefficient from Einstein relation. As proven with Fokker-Planck equation, under appropriate conditions
Langevin_dynamics
Foundational principle in quantum physics
Feynman. Bohr was present when Einstein proposed the thought experiment which has become known as Einstein's box. Einstein argued that "Heisenberg's uncertainty
Uncertainty_principle
Mathematical description of quantum state
2023. C/CS Pys C191:Representations and Wave Functions 》 1. Planck-Einstein Relation E=hv (PDF). EESC Instructional and Electronics Support, University
Wave_function
Play written by Ed Metzger
Albert Einstein: The Practical Bohemian is a stage play that is the only show officially endorsed by the Einstein family. A quote from Albert Einstein's first
Albert Einstein: The Practical Bohemian
Albert_Einstein:_The_Practical_Bohemian
Measure of the ability of a solution containing electrolytes to conduct electricity
has to be taken into account particularly in dilute salt solutions. Einstein relation (kinetic theory) Born equation Debye–Falkenhagen effect Law of dilution
Conductivity_(electrolytic)
Semiconductor–semiconductor junction
calculate Δ V 0 {\displaystyle \Delta V_{0}} by implementing the Einstein relation and assuming the semiconductor is nondegenerate (i.e., the product
P–n_junction
publication in which Einstein embraced the possibility of a cosmos of time-varying radius. Interpreting Edwin Hubble's discovery of a linear relation between the
Friedmann–Einstein_universe
Consequence of the conservation of angular momentum
The Einstein–de Haas effect is a physical phenomenon in which a change in the magnetic moment of a free body causes the body to rotate. The effect is a
Einstein–de_Haas_effect
Quantum state with all observables independent of time
Planck constant, is the energy of the state according to the Planck–Einstein relation. Stationary states are quantum states that are solutions to the time-independent
Stationary_state
Ability of charged particles to move through a medium in response to an electric field
through an exact (thermodynamically required) equation known as the Einstein relation: μ = q k T D , {\displaystyle \mu ={\frac {q}{kT}}D,} where k {\displaystyle
Electrical_mobility
Energy that binds quarks into hadrons
Unlike photon energy, which is quantifiable, described by the Planck–Einstein relation and depends on a single variable (the photon's frequency), no simple
Quantum chromodynamics binding energy
Quantum_chromodynamics_binding_energy
Notebook of Albert Einstein
Albert Einstein's notebooks, from his time in Zürich. It contains much of Einstein's foundational work on general relativity. John D. Norton. "Einstein's Zurich
Zurich_Notebook
Physical quantity
a photon yields a certain photon energy, according to the Planck–Einstein relation, and the frequency of a photon is related to its spatial frequency
Reciprocal_length
Four-vector analogue of the gradient operation
component) Planck–Einstein relation E = ℏ ω {\displaystyle E=\hbar \omega } The (spatial components) de Broglie matter wave relation p → = ℏ k → {\displaystyle
Four-gradient
Ideal molecular motion where no average acceleration takes place
{\displaystyle r} in the limit of low Reynolds number, we can use the Stokes–Einstein relation. In this case, D = k B T / ζ {\displaystyle D=k_{\text{B}}T/\zeta
Brownian_dynamics
Blackboard used by Albert Einstein on 16 May 1931 lectures at the University of Oxford
Einstein's Blackboard is a blackboard which physicist Albert Einstein (1879–1955) used on 16 May 1931 during his lectures while visiting the University
Einstein's_Blackboard
Value representing energy density of space
letter lambda: Λ), alternatively called Einstein's cosmological constant, is a coefficient that Albert Einstein initially added to his field equations
Cosmological_constant
Electrical circuit used to power a LED
booster circuit Planck–Einstein relation - relation between band gap and photon frequency Shockley diode equation - relation between forward voltage
LED_circuit
Physical property of chemicals
relationship between energy and wavelength is determined by the Planck-Einstein relation E = h f = h c λ {\displaystyle E=hf={\frac {hc}{\lambda }}} where
Color_of_chemicals
Generalization of the Nernst equation for the membrane potential
velocity of the ions, with the drift velocity expressed using the Stokes–Einstein relation applied to electrophoretic mobility. The constants here are the charge
Goldman_equation
Phenomenon of surface adhesion
adsorption rate can be calculated using Fick's laws of diffusion and the Einstein relation (kinetic theory). Under ideal conditions, when there is no energy
Adsorption
Physical constant for the strength of gravity induced by a mass
and the inverse square of their distance. In the Einstein field equations, it quantifies the relation between the geometry of spacetime and the stress–energy
Gravitational_constant
2015 detection made by LIGO interferometers
relativity ..." paper (p. 13, "Thus, we have...") and the Planck–Einstein relation. The LIGO Scientific Collaboration and The Virgo Collaboration (2016)
First observation of gravitational waves
First_observation_of_gravitational_waves
Partial differential equation
= k B T γ {\textstyle D={\frac {k_{\text{B}}T}{\gamma }}} is the Einstein relation. The integration of this equation was done using the Euler–Maruyama
Fokker–Planck_equation
Fraction of total electric current carried in an electrolyte by an ionic species
electric current. Activity coefficient Born equation Debye length Einstein relation (kinetic theory) Electrochemical kinetics Ion selective electrode
Ion_transport_number
Taiwanese physicist (1935–2021)
Editorial Board Cozzarelli Prize for the paper "The violation of Stokes-Einstein relation in supercooled water", [S.-H. Chen, F. Mallamace, C.-Y. Mou, M. Broccio
Sow-Hsin_Chen
Quantities describing probability of absorption or emission of light
the Einstein coefficients are quantities describing the probability of absorption or emission of a photon by an atom or molecule. The Einstein A coefficients
Einstein_coefficients
Austrian theoretical physicist (1880–1933)
mechanics and its relation to quantum mechanics, including the theory of phase transition and the Ehrenfest theorem. He befriended Albert Einstein on a visit
Paul_Ehrenfest
Wave equations respecting special and general relativity
, which is the 4-vector version of the Planck–Einstein relation & the de Broglie matter wave relation ∂ = − i K {\displaystyle \mathbf {\partial } =-i\mathbf
Relativistic_wave_equations
Theory of gravity in which the graviton has nonzero mass
7.7×10−23 eV/c2. This relation between wavelength and energy is calculated with the same formula (the Planck–Einstein relation) that relates electromagnetic
Massive_gravity
visco-elastic moduli G′(ω) and G″(ω) using the generalized Stokes–Einstein relation (GSER). Here is a view of the trajectory of a particle of micrometer
Microrheology
Criticism of the theory of relativity of Albert Einstein was mainly expressed in the early years after its publication in the early twentieth century,
Criticism of the theory of relativity
Criticism_of_the_theory_of_relativity
Relativistic equation relating total energy to invariant mass and momentum
In physics, the energy–momentum relation, or relativistic dispersion relation, is the relativistic equation relating total energy (which is also called
Energy–momentum_relation
Mechanics concept
determined from the Perrin friction factors, in analogy with the Einstein relation of translational diffusion, but often is inaccurate and direct measurement
Rotational_diffusion
Elementary particle which moves close to the speed of light
kinetic energy greater than or equal to its rest-mass energy given by Einstein's relation, E 0 = m 0 c 2 {\displaystyle E_{0}=m_{0}c^{2}} , or specifically
Relativistic_particle
Electric charge treated as continuously distributed in space
D{\frac {d^{2}E}{dx^{2}}}.} After integrating, making use of the Einstein relation and neglecting the d E d x {\textstyle {\frac {dE}{dx}}} term we obtain
Space_charge
Convention for synchronising clocks
Einstein synchronisation (or Poincaré–Einstein synchronisation) is a convention for synchronising clocks at different places by means of signal exchanges
Einstein_synchronisation
Classical theory of gravitation
In theoretical physics, the Einstein–Cartan theory, also known as the Einstein–Cartan–Sciama–Kibble theory, is a classical theory of gravitation, one of
Einstein–Cartan_theory
Type of metric in Riemannian geometry
differential geometry, a Kähler–Einstein metric on a complex manifold is a Riemannian metric that is both a Kähler metric and an Einstein metric. A manifold is
Kähler–Einstein_metric
n_{\text{mean}}}{\partial x}}-{\frac {n_{\text{mean}}}{\tau _{n}}}} Using the Einstein relation μ = e β D {\displaystyle \mu =e\beta D} , where β is the inverse of
Haynes–Shockley_experiment
Experiment in quantum physics
lower frequency than the incoming photon, according to the Planck–Einstein relation for the energy E=ℏω (ℏ is Planck constant and ω is the angular frequency)
Bothe–Geiger coincidence experiment
Bothe–Geiger_coincidence_experiment
Property of glass forming liquids
This effect has also been connected to the breakdown of the Stokes–Einstein relation between diffusion and viscosity in fragile liquids. Debenedetti, P
Fragility_(glass_physics)
Theory of interwoven space and time by Albert Einstein
scientific theory of the relationship between space and time. In Albert Einstein's 1905 paper, "On the Electrodynamics of Moving Bodies", the theory is presented
Special_relativity
independently explained by Albert Einstein (in one of his 1905 papers) and by Marian Smoluchowski in 1906. 1905: The Einstein Relation was revealed independently
List_of_multiple_discoveries
Polish physicist (1872–1917)
University in Kraków. He is known for the Smoluchowski equation, Einstein–Smoluchowski relation and Feynman–Smoluchowski ratchet. He was born in 1872 into an
Marian_Smoluchowski
Special mathematical function
Fermi–Dirac distribution and the Bose–Einstein distribution, and is also known as the Fermi–Dirac integral or the Bose–Einstein integral. In quantum electrodynamics
Polylogarithm
Examining a substance by measuring electrons emitted in the photoelectric effect
values, which are source independent. This is achieved by applying Einstein's relation E k = h ν − E B {\displaystyle E_{k}=h\nu -E_{B}} . The h ν {\displaystyle
Photoemission_spectroscopy
Optical techniques for the study of biology
photon emitted is at a shorter wavelength, as governed by the Plank-Einstein relation E = h c λ {\displaystyle E={\frac {hc}{\lambda }}} ) than the excitation
Biophotonics
Issue in science history
Albert Einstein presented the theories of special relativity and general relativity in publications that either contained no formal references to previous
Relativity_priority_dispute
Elementary particle or quantum of light
during the first two decades of the 20th century with the work of Albert Einstein, who built upon the research of Max Planck. While Planck was trying to
Photon
Einstein's committee of atomic scientists
Emergency Committee of Atomic Scientists (ECAS) was founded by Albert Einstein and Leó Szilárd in May, 1946, primarily as a fundraising and policy-making
Emergency Committee of Atomic Scientists
Emergency_Committee_of_Atomic_Scientists
Light bending by mass between source and observer
observer. The amount of gravitational lensing is described by Albert Einstein's general theory of relativity. If light is treated as corpuscles travelling
Gravitational_lens
Compact astronomical body
its gravity prevents anything, including light, from escaping. Albert Einstein's theory of general relativity, which describes gravitation as the curvature
Black_hole
General-relativistic effect
increases (the clock moving away from the source of gravitation). Albert Einstein originally predicted this in his theory of relativity, and it has since
Gravitational_time_dilation
EINSTEIN RELATION
EINSTEIN RELATION
Surname or Lastname
English
English : variant spelling of Messenger.German and Jewish (Ashkenazic) : occupational name for a brazier, from an agent derivative of Middle High German messinc ‘brass’, German Messing, from Greek mossynoikos (khalkos) ‘Mossynoecan bronze’, named after the people of northeastern Asia Minor who first produced the alloy.German : habitational name from Mössingen in Baden-Württemberg (Messingen in the local dialect), which is recorded as Masginga in 789, probably from the personal name Masco + ingen, suffix of relationship.
Boy/Male
Tamil
Jasevaraj | ஜஸேவாராஜ
Heart of relation
Jasevaraj | ஜஸேவாராஜ
Girl/Female
Tamil
Bhandhavi | பாநà¯à®¤à®µà¯€
Who loves friends & family members, Friendship, Relationship
Bhandhavi | பாநà¯à®¤à®µà¯€
Girl/Female
Tamil
Who loves friends & family members, Friendship, Relationship
Surname or Lastname
English
English : from the Middle English personal name Hick + Middle English maugh, mough ‘relative’ (from Old Norse mágr or Old English magu). The exact nature of the relationship is not clear; the Middle English word meant ‘relative by marriage’, but was also used occasionally of a female blood relation.
Surname or Lastname
English
English : from an Old English personal name composed of the elements wynn ‘joy’ + stÄn ‘stone’.English : habitational name from any of various places called Winston or Winstone, from various Old English personal names + Old English tÅ«n ‘enclosure’, ‘settlement’, or, in the case of Winstone in Gloucestershire, Old English stÄn ‘stone’.Americanized form of Jewish Weinstein.
Surname or Lastname
English
English : habitational name from any of various places called Burston, in Buckinghamshire, Norfolk, and Staffordshire, which have different origins. The Buckinghamshire place name is from an Old English personal name Briddel + Old English þorn ‘thorn tree’; the place in Norfolk is named with Old English byrst ‘rough ground’, ‘landslip’ + tÅ«n ‘farmstead’; the Staffordshire place name has the same second element, the first being an Old English personal name Burgwine or Burgwulf.English : possibly from an unrecorded Old English personal name, BurgstÄn.Jewish (American) : Americanized spelling of Burstein (see Bernstein).
Boy/Male
Tamil
Sarvabandha | ஸரà¯à®µà®ªà®‚தா
Vimoktre detacher of all relationship
Sarvabandha | ஸரà¯à®µà®ªà®‚தா
Girl/Female
Indian
Who loves friends & family members, Friendship, Relationship
Boy/Male
Norse
Lucky.
Girl/Female
Indian
Who loves friends & family members, Friendship, Relationship
Boy/Male
Indian
Of Husain, Nisba relation
Girl/Female
Muslim
Relation, Way, Sake
Boy/Male
Norse
Lucky.
Boy/Male
Tamil
Relation
Surname or Lastname
English
English : variant of Feather.North German, Dutch, and Danish : from the Frisian personal name Vetter, meaning ‘relative’. Relationship terms were commonly used as personal names in Friesland.
Surname or Lastname
English
English : unexplained.Possibly an Americanized spelling of French Imbert or a translation of German and Jewish Bernstein, which means ‘amber’.Muslim (widespread throughout the Muslim world) : from the Arabic personal name ‛Anbar, literally ‘perfume’, ‘ambergris’, figuratively ‘good’, ‘pleasant’, ‘agreeable’.
Surname or Lastname
North German
North German : probably from a derivative of Pille 1.Dutch : relationship name from Middle Dutch pil(le) ‘godchild’.English : possibly a variant of Pilling.
Boy/Male
Norse
Rock or hard spear.
Boy/Male
Muslim
Of Husain, Nisba relation
EINSTEIN RELATION
EINSTEIN RELATION
Surname or Lastname
English and Scottish
English and Scottish : habitational name from Ansley in Warwickshire or Annesley in Nottinghamshire (see Ansley). The modern surname is found chiefly in the border regions of Scotland and northern England, having been taken north from England to Scotland in the Middle Ages, probably by a Norman baron.The poet Hew Ainslie (1792–1878) emigrated from Ayrshire, Scotland, to the U.S. in 1822 and became a prominent citizen of Louisville, KY.
Girl/Female
Hindu, Indian, Sanskrit
Mind
Girl/Female
Hindu
Glowing, Illuminated, Enlightened, Blazing
Boy/Male
Hindu
Girl/Female
Gaelic
Girl; lass.
Boy/Male
Indian, Sanskrit
Matted Hair; Mud; Heaven; Sky
Boy/Male
Hindu
Boy/Male
Tamil
Brook
Girl/Female
Arabic, Muslim
Pomegranate
Girl/Female
Australian, Hindu, Indian
Silk
EINSTEIN RELATION
EINSTEIN RELATION
EINSTEIN RELATION
EINSTEIN RELATION
EINSTEIN RELATION
a.
Having relation or kindred; related.
n.
The act of relating or telling; also, that which is related; recital; account; narration; narrative; as, the relation of historical events.
v. i.
To make a visit or visits; to maintain visiting relations; to practice calling on others.
n.
The carrying back, and giving effect or operation to, an act or proceeding frrom some previous date or time, by a sort of fiction, as if it had happened or begun at that time. In such case the act is said to take effect by relation.
a.
Indicating or specifying some relation.
n.
Corresponding relation.
n.
A relative; a relation.
n.
A particular mode of inflecting or conjugating verbs, or a particular form of a verb, by means of which is indicated the relation of the subject of the verb to the action which the verb expresses.
a.
Having relation to growth or nutrition; partaking of simple growth and enlargement of the systems of nutrition, apart from the sensorial or distinctively animal functions; vegetal.
a.
Being without symmetry of chemical structure or relation; as, an unsymmetrical carbon atom.
n.
Rate of motion; the relation of motion to time, measured by the number of units of space passed over by a moving body or point in a unit of time, usually the number of feet passed over in a second. See the Note under Speed.
a.
Having no moral perception, quality, or relation; involving no idea of morality; -- distinguished from both moral and immoral.
n.
Connection by consanguinity or affinity; kinship; relationship; as, the relation of parents and children.
n.
The state of being related or of referring; what is apprehended as appertaining to a being or quality, by considering it in its bearing upon something else; relative quality or condition; the being such and such with regard or respect to some other thing; connection; as, the relation of experience to knowledge; the relation of master to servant.
n.
In an artistical composition, the character of any one part in its relation to other parts and to the whole; -- often used in the plural; as, the values are well given, or well maintained.