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Concept in thermodynamics
thermodynamics, the Massieu function (sometimes called Massieu–Gibbs function, Massieu potential, or Gibbs function, or characteristic (state) function in its original
Massieu_function
French engineer (1832–1896)
Jacques Dominique Massieu (4 August 1832 – 5 February 1896) was a French thermodynamics engineer noted for his two 1869 characteristic functions, each of which
François_Massieu
Energy contained within a system
function of state for the generation of Massieu functions. It is not itself customarily designated a 'Massieu function', though rationally it might be thought
Internal_energy
Branch of thermodynamics
should be considered. This is the extended Massieu potential. By definition, the entropy (S) is a function of the collection of extensive quantities E
Non-equilibrium thermodynamics
Non-equilibrium_thermodynamics
French mathematician and physicist
said to have inspired the publications of engineer François Massieu and his Massieu functions; which in turn inspired the work of American engineer Willard
Athanase_Dupré
Measure of distance to normality
for entropy") Φ {\displaystyle \Phi } is the Massieu potential Z {\displaystyle Z} is the partition function k {\displaystyle k} the Boltzmann constant
Negentropy
Thermodynamic potential of entropy, analogous to the free energy
analogous to the free energy. Also known as a Massieu, Planck, or Massieu–Planck potentials (or functions), or (rarely) free information. In statistical
Free_entropy
Function describing equilibrium states of a system
thermodynamics of equilibrium, a state function, function of state, or point function for a thermodynamic system is a function relating several state variables
State_function
Study of chemical reactions within the laws of thermodynamics
entropy appropriate for constant T, or for constant T and P, the Massieu functions −F/T and −G/T, respectively. Generally the systems treated with the
Chemical_thermodynamics
Thermodynamic potential
physics, the symbol F is also used in reference to free energy or Helmholtz function. The Helmholtz free energy is defined as A ≡ U − T S , {\displaystyle A\equiv
Helmholtz_free_energy
Physics of heat, work, and temperature
of heat added or removed and work performed on or by the system. As a function of state, the internal energy does not depend on the manner, or on the
Thermodynamics
Gibbs–Thomson effect Gibbs–Thomson equation Gibbs–Wulff theorem Massieu–Gibbs function 2937 Gibbs (asteroid) Gibbs (crater) Gibbs Society of Biological
List of things named after Josiah W. Gibbs
List_of_things_named_after_Josiah_W._Gibbs
Thermodynamic quantity
a process function, or, alternatively, a process quantity, or a path function. As an example, mechanical work and heat are process functions because they
Process_function
Type of thermodynamic potential
for the infinitesimal reversible change in the Gibbs free energy as a function of its "natural variables" p {\displaystyle p} and T {\displaystyle T}
Gibbs_free_energy
Property of a thermodynamic system
scientist and engineer William Rankine in 1850 with the names thermodynamic function and heat-potential. In 1865, German physicist Rudolf Clausius, one of the
Entropy
Particular relationship between the partition function of an ensemble
characteristic state function or Massieu's potential in statistical mechanics refers to a particular relationship between the partition function of an ensemble
Characteristic_state_function
Type of energy transfer
through the concepts of heat and work. Heat is not a state variable or state function; it is a process quantity. A thermodynamic system does not contain heat
Heat
Quantifiable conditions of a thermodynamic system at a specific time
this reason, it is helpful to regard thermodynamic temperature as a state function. A passage from a given initial thermodynamic state to a given final thermodynamic
Thermodynamic_state
Observational basis of thermodynamics
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Laws_of_thermodynamics
State function whose change relates to the system's maximal work output
In thermodynamics, the thermodynamic free energy is one of the state functions of a thermodynamic system. The change in the free energy is the maximum
Thermodynamic_free_energy
Heat required to raise the temperature of a given unit of mass of a substance
{\displaystyle p} applied to it. Therefore, it should be considered a function c ( p , T ) {\displaystyle c(p,T)} of those two variables. These parameters
Specific_heat_capacity
Genetic disorder that causes early aging
Navarro-García F, Massieu L, Mondragón-Flores R, Soto-Ponce LA, Magaña JJ, Cisneros B (January 2023). "Rescue of Mitochondrial Function in Hutchinson-Gilford
Progeria
Thermodynamic cycle
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Atkinson_cycle
Measure of energy in a thermodynamic system
internal energy and the product of its pressure and volume. It is a state function in thermodynamics used in many measurements in chemical, biological, and
Enthalpy
Force distributed over an area
relative vacuum Vertical pressure variation – Variation in pressure as a function of elevation The preferred spelling varies by country and even by industry
Pressure
Idealized thermodynamic cycle
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Carnot_cycle
Specific mathematical differential form
Consequently, a quantity with an inexact differential cannot be expressed as a function of only the variables within the differential. I.e., its value cannot be
Inexact_differential
Thermodynamic cycle for spark ignition piston engines
Nicolaus Otto) is an idealized thermodynamic cycle that describes the functioning of a typical spark ignition piston engine. It is the thermodynamic cycle
Otto_cycle
Friar Isambart de la Pierre, although a number of others, such as Jean Massieu, Pierre Daron, and Guillaume Colles, alternatively claimed that she was
Cross-dressing, gender identity, and sexuality of Joan of Arc
Cross-dressing,_gender_identity,_and_sexuality_of_Joan_of_Arc
Continent
Rosa; Méndez, Fernando L.; Bokbot, Youssef; Martín-Socas, Dimas; Camalich-Massieu, María D.; Santana, Jonathan; Morales, Jacob; Ávila-Arcos, María C.; Underhill
Africa
Equation of the state of a hypothetical ideal gas
relating particle kinetic energy with temperature Configuration integral – Function in thermodynamics and statistical physics Dynamic pressure – Kinetic energy
Ideal_gas_law
Physical quantity of hot and cold
probability distribution function for the velocity of particles in an ideal gas. From that probability distribution function, the average kinetic energy
Temperature
Linked cyclic series of thermodynamic processes
irreversibly, the net entropy change of the system is zero, as entropy is a state function. During a closed cycle, the system returns to its original thermodynamic
Thermodynamic_cycle
Physical law for entropy and heat
change of entropy ( d ) {\displaystyle (\mathrm {d} )} because entropy is a function of state, while heat, like work, is not. For an actually possible infinitesimal
Second_law_of_thermodynamics
Thermodynamic cycle
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Brayton_cycle
Relations between flows and forces, or gradients, in thermodynamic systems
{\displaystyle \nabla T\ll T} , with the thermal conductivity possibly being a function of the thermodynamic state variables, but not their gradients or time rate
Onsager_reciprocal_relations
Statistical mechanics of quantum-mechanical systems
Hilbert space may be infinite, as it is for the space of square-integrable functions on a line, which is used to define the quantum physics of a continuous
Quantum_statistical_mechanics
Physical law for definition of temperature
order of nearby surfaces. One may therefore construct a global temperature function that provides a continuous ordering of states. The dimensionality of a
Zeroth_law_of_thermodynamics
Human skin color
Rosa; Méndez, Fernando L.; Bokbot, Youssef; Martín-Socas, Dimas; Camalich-Massieu, María D.; Santana, Jonathan; Morales, Jacob; Ávila-Arcos, María C.; Underhill
Light_skin
Pair of values which express a thermodynamic system's internal energy
conjugate pairs can be defined with respect to any thermodynamic state function. Conjugate pairs with respect to entropy are often used, in which the product
Conjugate variables (thermodynamics)
Conjugate_variables_(thermodynamics)
Extensive parameter used to describe a thermodynamic system's state
intensive property, is the system's volume per unit mass. Volume is a function of state and is interdependent with other thermodynamic properties such
Volume_(thermodynamics)
Reacting chemical mixture in which the concentrations change periodically
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Chemical_oscillator
Concept in general relativity and quantum field theory
ensemble for black holes is the microcanonical ensemble. The partition function for black holes results in a negative heat capacity. In canonical ensembles
Black_hole_thermodynamics
Volume of fluid which passes per unit time
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Volumetric_flow_rate
Measure of temperature relative to absolute zero
area on a container arising from gas particles recoiling off it, is a function of the kinetic energy borne in the freely moving atoms' and molecules'
Thermodynamic_temperature
Version of the second law of thermodynamics
used to introduce the state function known as entropy. This is because in a cyclic process the variation of a state function is zero per cycle, so the fact
Clausius_theorem
French artist (1896–1948)
performance as Jean-Paul Marat in Abel Gance's Napoléon (1927) and the monk Massieu in Carl Theodor Dreyer's The Passion of Joan of Arc (1928).:17 Artaud also
Antonin_Artaud
Scalar physical quantities representing system states
1886 work. Josiah Willard Gibbs in his papers used the term fundamental functions. Effects of changes in thermodynamic potentials can sometimes be measured
Thermodynamic_potential
Law of thermodynamics establishing the conservation of energy
{\displaystyle U} is a function of state and that the internal energy change Δ U {\displaystyle \Delta U} between two states is a function only of the two states
First_law_of_thermodynamics
Thermodynamic process
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Polytropic_process
Physical property of matter
of fusion and enthalpy of vaporization). Therefore, it is considered a function C ( p , T ) {\displaystyle C(p,T)} of those two variables. The variation
Heat_capacity
Engine combustion process
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Diesel_cycle
Unsteady state combustion process
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Pressure_gain_combustion
German physicist and physiologist (1821–1894)
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Hermann_von_Helmholtz
Thermodynamic process
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Kalina_cycle
Tendency of matter to change volume in response to a change in temperature
the higher that body's temperature is. Specifically, it is a monotonic function of the average molecular kinetic energy of a substance. As the energy in
Thermal_expansion
is that Planck constant, I is moment of inertia, and Z is the partition function, in various forms: List of thermodynamic properties Antoine equation Bejan
Table of thermodynamic equations
Table_of_thermodynamic_equations
Correction factor which describes the deviation of a real gas from ideal gas behavior
generalized compressibility charts that plot Z {\displaystyle Z} as a function of pressure at constant temperature. The compressibility factor should
Compressibility_factor
Model that is used to predict the performance of steam turbine systems
to the boiler. These heaters do not mix the input steam and condensate, function as an ordinary tubular heat exchanger, and are named "closed feedwater
Rankine_cycle
Partial differential relations in thermodynamics
determinants. The most common Maxwell relations involve the potential functions U {\displaystyle U} (the total internal energy), H {\displaystyle H} (enthalpy)
Maxwell_relations
Thermodynamic cycle
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Miller_cycle
Thermodynamic quantity
the molar heat capacity is at most a function of temperature, since the internal energy is solely a function of temperature for a closed system, i.e
Heat_capacity_ratio
Body of matter in a state of internal equilibrium
closed system. Its internal energy and its entropy can be determined as functions of its temperature, pressure, and mole number. A thermodynamic operation
Thermodynamic_system
Physical quantity
mass-energy interactions are all subject to this principle. During wave function collapse, the conservation of energy does not hold at the local level,
Energy
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Pseudo_Stirling_cycle
Initial step in the phase transition or molecular self-assembly of a substance
not a simple step function that drops sharply from one to zero at one particular time. The red curve is a fit of a Gompertz function to the data. This
Nucleation
Idealized thermodynamic cycle used in engines
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Lenoir_cycle
Thermodynamic cycle for combustion engines
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Mixed/dual_cycle
Parameter used to calculate the volume change of a fluid or solid in response to pressure
density and temperature is known as the equation of state denoted by some function F {\displaystyle F} . The Van der Waals equation is an example of an equation
Compressibility
Passage of a system from an initial to a final state of thermodynamic equilibrium
surfaces that illustrate equilibrium relations between thermodynamic functions of state, no one can fictively think of so-called "reversible processes"
Thermodynamic_process
Refrigerator that uses a heat source
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Absorption_refrigerator
Assembly of heat engines that work in tandem from the same source of heat
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Combined-cycle_power_plant
Process that kills nerve cells
doi:10.1016/j.yebeh.2009.02.037. PMID 19249388. S2CID 20197292. Camacho A, Massieu L (January 2006). "Role of glutamate transporters in the clearance and
Excitotoxicity
Thermodynamic process
whole system. In other words, when an equation for a change in a state function contains P or T, it implies a quasi-static process. While all reversible
Quasistatic_process
Process that cannot be undone
capable of returning to its initial state. Because entropy is a state function, the change in entropy of the system is the same whether the process is
Irreversible_process
Thermodynamic process in which pressure remains constant
Q=\Delta U+\Delta (p\,V)=\Delta (U+p\,V)} The quantity U + pV is a state function that is called enthalpy, and is denoted as H. Therefore, an isobaric process
Isobaric_process
Mexican political crisis
The other high-level political assassination was José Francisco Ruiz Massieu, PRI Secretary-General and President Salinas' former brother-in-law. The
1995_Zapatista_Crisis
Equation describing a state of matter under a given set of conditions
\mu (T,N/V)} the chemical potential is given by the following implicit function N V = ( 2 s + 1 ) ( m k B T ) 3 / 2 2 π 2 ℏ 3 ∫ 0 ∞ z 1 / 2 d z e z − μ
Equation_of_state
Law of physics
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Third_law_of_thermodynamics
Mathematical models of heat pumps and refrigeration
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Heat pump and refrigeration cycle
Heat_pump_and_refrigeration_cycle
Chemical law
The propellant grain of this model rocket engine is designed to function in accordance with Piobert's law.
Piobert's_law
Study of the relations between thermodynamics and quantum mechanics
i.e. the statement that, for typical large systems, every initial wave function ψ 0 {\displaystyle \psi _{0}} from an energy shell is 'normal': it evolves
Quantum_thermodynamics
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Magnetic Thermodynamic Systems
Magnetic_Thermodynamic_Systems
Central nervous system disease
ISBN 978-0-87893-742-4. NBK10847. Estrada Sánchez AM, Mejía-Toiber J, Massieu L (April 2008). "Excitotoxic neuronal death and the pathogenesis of Huntington's
Neurodegenerative_disease
Thermodynamic process in which no mass or heat is exchanged with surroundings
quantity. In 1854, Rankine used a quantity that he called "the thermodynamic function" that later was called entropy, and at that time he wrote also of the "curve
Adiabatic_process
Variation on the Rankine thermodynamic cycle
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Organic_Rankine_cycle
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Internal_pressure
party and brother of the Assistant-Attorney General José Francisco Ruiz Massieu in 1994, reduced investor confidence. Public debt holders rapidly sold
Economy_of_Mexico
Head of state and government of Mexico
drug trafficking and planning the assassination of José Francisco Ruiz Massieu. Carlos Salinas also wrote a book on neo-liberal Mexico, secured a position
President_of_Mexico
Graph relating temperature and entropy during a thermodynamic process or cycle
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Temperature–entropy_diagram
Mathematical model which approximates the behavior of real gases
second law, that the internal energy of a fixed mass of ideal gas is a function only of its temperature, with U = U ( n , T ) {\displaystyle U=U(n,T)}
Ideal_gas
Equations on thermodynamic quantities
changes, if it is assumed that U depends only on S and V. In fact, if U is function only of the parameters S and V (i.e. U (S, V)) then dU can be written as
Fundamental thermodynamic relation
Fundamental_thermodynamic_relation
Final period of the Spanish Restoration and King Alfonso XIII's reign
the last period [Primo de Rivera’s dictatorship], reestablishes the functioning of the co-sovereign forces in their entirety [the King and the Courts]
Dictablanda of Dámaso Berenguer
Dictablanda_of_Dámaso_Berenguer
Absorption refrigerator invented in 1930
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Einstein_refrigerator
Properties independent of system size, and proportional to system size
are homogeneous functions of degree 1 with respect to { A j } {\displaystyle \{A_{j}\}} .) It follows from Euler's homogeneous function theorem that F
Intensive and extensive properties
Intensive_and_extensive_properties
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
High-efficiency_hybrid_cycle
Thermodynamic properties list
in use. Thermodynamic data is usually presented as a table or chart of function values for one mole of a substance (or in the case of the steam tables
Thermodynamic databases for pure substances
Thermodynamic_databases_for_pure_substances
was overlooked because of its misleading title, Thoughts on the Mental Functions." 1843 – James Joule experimentally finds the mechanical equivalent of
Timeline_of_thermodynamics
Thermodynamic process that is reversible and adiabatic
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Isentropic_process
Subset of irreversible thermodynamics
Clapeyron Clausius de Donder Duhem Gibbs von Helmholtz Joule Kelvin Lewis Massieu Maxwell von Mayer Nernst Onsager Planck Rankine Smeaton Stahl Tait Thompson
Endoreversible_thermodynamics
MASSIEU FUNCTION
MASSIEU FUNCTION
Surname or Lastname
English
English : variant of Mace 1.French (Picardy) : metonymic occupational name from masse ‘mace’, ‘hammer’.French : habitational name from places called Masse (Allier and Cô-d’Or), or La Masse (Eure, Lot, Puy-de-Dôme, Saône-et-Loire).French (Massé) : habitational name from a place called Massé in Maine-et-Loire, so named from Gallo-Roman Macciacum (from the personal name Maccius + the locative suffix -acum).Dutch : from Middle Dutch masse ‘clog’; ‘cudgel’, perhaps a metonymic occupational name for someone who wielded a club.Dutch : possibly a variant of Maas 1, or a patronymic from Mas.
Male
Italian
Italian form of Latin Maximus, MASSIMO means "the greatest."
Male
French
French form of Hebrew Mattithyah, MATHIEU means "gift of God."
Girl/Female
Arabic, Latin, Muslim
Greatest
Boy/Male
Greek
The guardian of Capricornians.
Girl/Female
Greek Persian Hebrew English Scottish
Pearl.
Female
English
 Anglicized form of Scottish Mysie, a pet form of Mairead (English Margaret), MAISIE means "pearl." British English name meaning "field."
Girl/Female
Italian Latin
Great.
Surname or Lastname
English (Midlands)
English (Midlands) : possibly a variant of Messer.
Boy/Male
French Hebrew
Gift of God.
Boy/Male
Australian, Danish, French, German, Italian, Latin, Swiss
Greatest
Girl/Female
Indian, Telugu
Unexpected; Massive
Female
English
Pet form of English Cass, CASSIE means "she who entangles men."
Girl/Female
English American Greek
Unheeded prophetess. A , Cassandra, or Catherine. Cassandra was a Trojan prophetess, daughter of...
Female
English
Variant spelling of English Missy, MISSIE means "honey-sap."
Boy/Male
Hindu, Indian, Iranian, Russian
A Massive
Boy/Male
Australian, Hebrew
Gift of the Lord
Boy/Male
Australian, Dutch, French, German, Hebrew, Swiss
Gift of the Lord
Surname or Lastname
English and Scottish (of Norman origin) and French
English and Scottish (of Norman origin) and French : habitational name from any of various places in northern France which get their names from the Gallo-Roman personal name Maccius + the locative suffix -acum.English (of Norman origin) : habitational name from Marcy in La Manche. This surname is preserved in the English place name Stondon Massey.English : from a pet form of Matthew.Altered spelling of French Massé (see Masse 4).
Girl/Female
Russian
Abbreviation of Natasha - the Russian form of the English Natalie 'Born at Christmas.
MASSIEU FUNCTION
MASSIEU FUNCTION
Female
Hebrew
(ש×ֶבַע) Short form of Hebrew Bat-Sheva, SHEVA means "daughter of the oath." Compare with masculine Sheva.
Boy/Male
American, Australian, British, English, French
From the Town Near the Sea
Boy/Male
Tamil
Lustrous, Full of brightness
Girl/Female
Hindu
Girl/Female
American, Anglo, British, English
Battle Chieftain; Modern Female Version of Cedric
Female
African
famous.
Boy/Male
Indian, Sanskrit
Crossing Shiva
Boy/Male
Hindu, Indian
Pure; Blemishless
Boy/Male
Tamil
Senthil Vadivelan | ஸேநà¯à®¤à¯€à®² வாதிவேலந
Lord Murugan, Always youth
Girl/Female
Hindu, Indian
Musk; A Fragrant Material
MASSIEU FUNCTION
MASSIEU FUNCTION
MASSIEU FUNCTION
MASSIEU FUNCTION
MASSIEU FUNCTION
n.
Alt. of Masse shot
n. pl.
Hardened masses of feces.
a.
Massive, like timber.
a.
Forming, or consisting of, a large mass; compacted; weighty; heavy; massy.
imp. & p. p.
of Mass
n.
Siderite occuring in spheroidal masses.
n.
A massive subcolumnar variety of topaz.
superl.
Full of lumps, or small compact masses.
n.
Composed of clumps; massive; shapeless.
n.
A massive impure apatite, or calcium phosphate.
p. pr. & vb. n.
of Mass
a.
Not stratified; -- applied to massive rocks, as granite, porphyry, etc., and also to deposits of loose material, as the glacial till, which occur in masses without layers or strata.
n.
A massive variety of apatite.
n.
The state or quality of being massive; massiness.
n.
A priest who celebrates Mass.
a.
In mass; not necessarily without a crystalline structure, but having no regular form; as, a mineral occurs massive.
n.
A young girl; a lass.
a.
Having volume, or bulk; massive; great.
n. f.
Alt. of Masseuse
n.
To form into clumps or masses.