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Correction factor which describes the deviation of a real gas from ideal gas behavior
before compressibility can be calculated. Alternatively, the compressibility factor for specific gases can be read from generalized compressibility charts
Compressibility_factor
Parameter used to calculate the volume change of a fluid or solid in response to pressure
the compressibility (also known as the coefficient of compressibility or, if the temperature is held constant, the isothermal compressibility) is a
Compressibility
Gas equation of state which accounts for non-ideal gas behavior
essentially correct description. The vdW equation produces the critical compressibility factor Z c = p c v c / ( T c ) = 3 / 8 = 0.375 {\displaystyle
Van_der_Waals_equation
State of matter
assumption that the compressibility factor Z is set to 1 meaning that this pneumatic ratio remains constant. A compressibility factor of one also requires
Gas
reduced temperature and reduced pressure, have approximately the same compressibility factor and all deviate from ideal gas behavior to about the same degree
Theorem of corresponding states
Theorem_of_corresponding_states
Topics referred to by the same term
a data set in statistics where the Standard score is zero 0Z, a Compressibility factor or zero Z0 (disambiguation) This disambiguation page lists articles
0Z
Class of thermodynamic models
acentric factor. The model should provide reasonable accuracy near the critical point, particularly for calculations of the compressibility factor and liquid
Cubic_equations_of_state
Mathematical model which approximates the behavior of real gases
gas behavior can be described by a dimensionless quantity, the compressibility factor, Z. The ideal gas model has been explored in both the Newtonian
Ideal_gas
Thermodynamic property of real gas
P}}=0\qquad {\mbox{if}}~P\to 0} where Z {\displaystyle Z} is the compressibility factor. Expanding the van der Waals equation in 1 V m {\textstyle {\frac
Boyle_temperature
Topics referred to by the same term
number (the number of protons in an atom's nucleus) Z, symbol for compressibility factor (a thermodynamic property) Z, symbol for metallicity (the mass proportion
Z_(disambiguation)
Fluid flow rate unit
and p n {\displaystyle p_{n}} = 1.01 bar (14.72 psia) and a unity compressibility factor Z n {\displaystyle Z_{n}} = 1 (i.e., an ideal gas is used for the
Standard cubic centimetres per minute
Standard_cubic_centimetres_per_minute
Non-hypothetical gases whose molecules occupy space and have interactions
usual cases. The deviation from ideality can be described by the compressibility factor Z. Real gases are often modeled by taking into account their molar
Real_gas
Mathematical models for calculating viscosity
{\displaystyle Z\ \ \ \,} : compressibility factor (Z-factor) [1] α {\displaystyle \alpha \ \ \ \ } : proportionality factor [1] β i {\displaystyle
Viscosity_models_for_mixtures
Empirical algebraic equation of state more precise than the Van der Waals equation
Redlich–Kwong equation can also be represented as an equation for the compressibility factor of gas, as a function of temperature and pressure: Z = p V m R T
Redlich–Kwong equation of state
Redlich–Kwong_equation_of_state
Phenomenon of non-ideal fluids changing temperature
expected for an ideal gas at the same temperature is called the compressibility factor, Z {\displaystyle Z} . For a gas, this is typically less than unity
Joule–Thomson_effect
Gas molar flow rate
gasses (most gasses) a compressibility factor "Z" is introduced to allow for non-ideality. To introduce the compressibility factor to the equation divide
Standard cubic feet per minute
Standard_cubic_feet_per_minute
Chemical propellant and refrigerant
capacity ratio (γ) at 30 °C (86 °F) 1.178253 Compressibility factor (Z) at 15 °C 0.9831 Acentric factor (ω) 0.22082 Molecular dipole moment 1.458 D Viscosity
Chlorodifluoromethane
Effective partial pressure
state. The integral can be recast in an alternative form using the compressibility factor Z = P V m R T . {\displaystyle Z={\frac {PV_{\mathrm {m} }}{RT}}
Fugacity
Relation between gas pressure and volume
described employing real gas theory. The deviation is expressed as the compressibility factor. Boyle (and Mariotte) derived the law solely by experiment. The
Boyle's_law
admittance siemens (S) Z {\displaystyle Z} atomic number unitless compressibility factor unitless electrical impedance ohm (Ω) Z 0 {\displaystyle Z_{0}}
List of common physics notations
List_of_common_physics_notations
Model of intermolecular interactions
the Lennard-Jones potential. Points on the Zeno curve Z have a compressibility factor of unity Z = p / ( ρ T ) = 1 {\displaystyle Z=p/(\rho T)=1} . The
Lennard-Jones_potential
State variables for near-critical fluids
dimensionless thermodynamic coordinates, taken together with a substance's compressibility factor, provide the basis for the simplest form of the theorem of corresponding
Reduced_properties
Series expansion of the equation of state for a many-particle system
of the density. This equation may be represented in terms of the compressibility factor, Z, as Z ≡ P R T ρ = A + B ρ + C ρ 2 + ⋯ {\displaystyle Z\equiv
Virial_expansion
Products & Chemicals Air separation The BOC Group Chemical engineer Compressibility factor Fischer–Tropsch process Gas separation Gas to liquids Hampson–Linde
Liquefaction_of_gases
Sound of a drop of water falling into water
for deviations from real gas behavior by accounting for the gas compressibility factor, or the gas bulk modulus K = ρ g c g 2 {\displaystyle K=\rho _{g}c_{g}^{2}}
Minnaert_resonance
intermolecular forces and compressibility effects come into play. A measure of the fluid non-ideality is given by the compressibility factor Z {\displaystyle Z}
Non ideal compressible fluid dynamics
Non_ideal_compressible_fluid_dynamics
Speed of an aircraft relative to the air mass through which it is flying
the Mach speed. Mach incorporates the above data including the compressibility factor. Modern aircraft instrumentation use an air data computer to perform
True_airspeed
Force of attraction or repulsion between molecules and neighboring particles
interaction is more important depends on temperature and pressure (see compressibility factor). In a gas, the distances between molecules are generally large
Intermolecular_force
Measure of quantity of gas
temperature (°F)] / [459.67 + line temperature (°F)] Fpv: super compressibility factor (often omitted or shown as equaling 1) Example: How many standard
Standard_cubic_foot
Chemical data page
pressure (η) at 20 °C 567 kPa Vapor pressure (η) at 40 °C 960 kPa Compressibility Factor (Z) at 21 °C 0.995 Viscosity (μ) at 0 °C 11.68 μPa.s (0.01168 cP)
Dichlorodifluoromethane (data page)
Dichlorodifluoromethane_(data_page)
Expansion coefficients in statistical mechanics
coefficient B 2 {\displaystyle B_{2}} vanishes Excess property Compressibility factor Hill, T. L. (1960). Introduction to Statistical Thermodynamics.
Virial_coefficient
Speed of sound wave through elastic medium
the same two factors with the addition of a dependence on compressibility[citation needed]. In fluids, only the medium's compressibility and density are
Speed_of_sound
function in meteorology, the radar reflectivity factor Electrical impedance Z boson Compressibility factor Z {\displaystyle \mathbb {Z} } represents the
Latin letters used in mathematics, science, and engineering
Latin_letters_used_in_mathematics,_science,_and_engineering
Branch of fluid mechanics
Compressible flow (or gas dynamics) is the branch of fluid mechanics that deals with flows having significant changes in fluid density. While all flows
Compressible_flow
Chemical compound
25.7 °C (299 K) Critical density (ρc) 7.52 mol/l Compressibility factor (Z) 0.9913 Acentric factor (ω) 0.26414 Viscosity (η) at 25 °C 14.4 μPa.s (0.0144
Fluoroform
Pressure surge when a fluid is forced to stop or change direction suddenly
modulus of compressibility of the liquid in the pipe, expressed in Pa. The latter follows from a series of hydraulic concepts: compressibility of the liquid
Hydraulic_shock
Model of thermodynamic properties
is the reduced temperature, Pr is the reduced pressure, Z is the compressibility factor, and κ = 0.37464 + 1.54226 ω − 0.26992 ω 2 {\displaystyle \kappa
Departure_function
Mathematical description in crystallography
length scales, the structure factor contains thermodynamic information, being related to the isothermal compressibility χ T {\displaystyle \chi _{T}}
Structure_factor
Chemical data page
Property Value Compressibility factor (Z) 0.9863 Heat capacity at constant pressure (Cp) at 21 °C (70 °F) 0.043 kJ·mol−1·K−1 Heat capacity at constant
Difluoromethane_(data_page)
Chemical data page
length ? Bond angle ? Magnetic susceptibility ? Acentric factor 0.257 Compressibility factor 0.9875 at 15 °C Dipole moment 0.0 D Viscosity 13.64 μPa.s
Hexafluoroethane_(data_page)
Description of particle density in statistical mechanics
the isothermal compressibility χ T {\displaystyle \textstyle \chi _{T}} and the structure factor at the origin yields the compressibility equation: It can
Radial_distribution_function
Measure of the non-sphericity of molecules
temperature, critical pressure, and critical volume (or critical compressibility). The acentric factor is also said to be a measure of the non-sphericity (centricity)
Acentric_factor
p^{\circ }=c^{\circ }RT} , and Z {\displaystyle Z} denotes the compressibility factor. This leads to the result μ i ( T , p , n ) − μ i ( T , V , n )
Residual_property_(physics)
Device for measuring or restricting fluid flow
introducing the expansibility factor, (also called the expansion factor) ϵ {\displaystyle \epsilon } to account for the compressibility of gasses. q m = ρ 1 q
Orifice_plate
surface of a barrier under steady-state conditions, over a unit area. The U-factor or U-value is the overall heat transfer coefficient and can be found by
R-value_(insulation)
Method of calculating material and mixture properties in statistical thermodynamics
_{0}^{\rho }\ln \mathbf {B} \,d\rho '} where Z {\displaystyle Z} is the compressibility factor, ρ {\displaystyle \rho } is the overall number density of the mixture
Widom_insertion_method
were known a priori. The definition of the displacement thickness for compressible flow, based on mass flow rate, is δ 1 ( x ) = ∫ 0 H / 2 ( 1 − ρ ( x
Boundary_layer_thickness
Tenth letter in the Greek Alphabet
thermodynamics, the compressibility of a compound is given by κ. Engineering In structural engineering, κ is the ratio of the smaller factored moment to the
Kappa
Chemical compound
Heat capacity ratio (к) at −34.4 °C 1.168016 Compressibility Factor (Z) at 15 °C 0.9896 Acentric factor (ω) 0.17166 Viscosity (η) at 0 °C (gas) 13.3 mPa⋅s
Chlorotrifluoromethane
Chemical data page
9 D Magnetic susceptibility ? Acentric factor 0.153 Critical compressibility 0.268247 Compressibility factor 0.985 Density 1002.9 kg/m3 at -24.2 °C (liquid)
Chloromethane_(data_page)
Compressed fluid Compressed magnetic flux generator Compressibility Compressibility factor Compressible flow Compression (physical) Compression lift Compton
Index_of_physics_articles_(C)
American twin-engined fighter of WWII
dive. Once caught in this dive, the fighter would enter a high-speed compressibility stall and the controls would lock up, leaving the pilot no option but
Lockheed_P-38_Lightning
Set of quasilinear hyperbolic equations governing adiabatic and inviscid flow
\partial \rho }\right)_{s}}},} by the definition of the isoentropic compressibility: K s ( ρ , p ) ≡ ρ ( ∂ p ∂ ρ ) s , {\displaystyle K_{s}(\rho ,p)\equiv
Euler equations (fluid dynamics)
Euler_equations_(fluid_dynamics)
Petroleum Technology, Sec. 1, p. 19, Oct. 1952.) (Sutton, R.P. 1985. Compressibility Factors for High-Molecular-Weight Reservoir Gases. Presented at the SPE
Flash-gas_(petroleum)
ratio of the discharged gas (sometimes called the isentropic expansion factor and sometimes denoted as γ {\displaystyle \gamma } ). For many gases, k
Accidental release source terms
Accidental_release_source_terms
Mathematical technique in aerodynamics
7 or so, or once transonic flow starts to appear. The interest in compressibility research emerged after the WWI, when the aircraft propeller tips started
Prandtl–Glauert transformation
Prandtl–Glauert_transformation
engineering properties of such soils are as follows:[citation needed] High compressibility Low bearing capacity Low shearing strength They are made up of clayey
Major_soil_deposits_of_India
V a d {\displaystyle V_{ad}} before opening valve C. All of the compressibility factor values are calculated by a proper equation of state, which can generate
Supercritical_adsorption
Main parameter determining concrete strength and durability
ratio, or water-to-cement ratio, sometimes also called the Water-Cement Factor, f) is the ratio of the mass of water (w) to the mass of cement (c) used
Water–cement_ratio
Thermodynamic quantity
constant volume (CV). It is sometimes also known as the isentropic expansion factor and is denoted by γ (gamma) for an ideal gas or κ (kappa), the isentropic
Heat_capacity_ratio
Fluid flow temperature in aviation
difference between TAT and SAT is called ram rise (RR) and is caused by compressibility and friction of the air at high velocities. In practice the ram rise
Total_air_temperature
Discrete Fourier transform algorithm
data, since it is based on the compressibility (rank deficiency) of the Fourier matrix itself rather than the compressibility (sparsity) of the data. Conversely
Fast_Fourier_transform
Least dense solid material
be compressed elastically to strain values >50%. The stiffness and compressibility of graphene aerogels can be attributed in part to the strong sp2 bonding
Aerographene
Theoretical model in physics
calculate renormalized quasiparticle effective masses. Specific heat, compressibility, spin-susceptibility and other quantities show the same qualitative
Fermi_liquid_theory
expressed in the form of an acoustophoretic contrast factor ϕ {\displaystyle \phi } . Given the compressibilities β m {\displaystyle \beta _{m}} and β p {\displaystyle
Acoustic_contrast_factor
Plane wing that angles backwards or forwards
effects of compressibility made it a prime issue with aeronautical engineers. Sweep theory helps mitigate the effects of compressibility in transonic
Swept_wing
Heat required to raise the temperature of a given unit of mass of a substance
determine separately the coefficient of thermal expansion and the compressibility of the material, and compute the specific heat capacity at constant
Specific_heat_capacity
Process by which soils decrease in volume
Coefficient of compressibility a v = Δ e Δ σ ′ {\displaystyle a_{v}={\frac {\Delta e}{\Delta \sigma _{'}}}} [clarification needed]. The compressibility of saturated
Soil_consolidation
GPU microarchitecture designed by Nvidia
memory available to the application, because the data (and thus its compressibility) may be changed at any time. The compressor will automatically choose
Hopper_(microarchitecture)
Formula for sound intensity loss in a Newtonian fluid
V^{3}}}} The volume viscosity coefficient is relevant when the fluid's compressibility cannot be ignored, such as in the case of ultrasound in water.The volume
Stokes's law of sound attenuation
Stokes's_law_of_sound_attenuation
Speed of an aircraft relative to the surrounding air
and android applications. Luiz Monteiro. "Altimetry". Calculators factor compressibility, heating due to friction and other variables. Luiz Monteiro. "Wind
Airspeed
Measure of algorithmic complexity
size of a self-extracting archive in the given language. A string s is compressible by a number c if it has a description whose length does not exceed |s|
Kolmogorov_complexity
Temperature and pressure point where phase boundaries disappear
Compressibilität der Kohlensäure" [Comments on Andrews' investigations into the compressibility of carbon dioxide]. Annalen der Physik. 2nd series (in German). 141
Critical point (thermodynamics)
Critical_point_(thermodynamics)
Equations of fluid dynamics
rate tensor is identified to the deviatoric of the stress tensor, up to a factor μ. δij is the Kronecker delta. μ and λ are proportionality constants associated
Derivation of the Navier–Stokes equations
Derivation_of_the_Navier–Stokes_equations
Fluid flow through a constant-area duct with friction
through a constant area duct where the effect of friction is considered. Compressibility effects often come into consideration, although the Fanno flow model
Fanno_flow
Psychical phenomenon from acoustic waves
{\displaystyle \Phi } is the acoustic contrast factor κ ~ {\displaystyle {\tilde {\kappa }}} is relative compressibility between the particle κ p {\displaystyle
Acoustic_radiation_force
Aviation instruments
caused by variations of pressure and temperature in the atmosphere. A compressibility error can arise because the impact pressure will cause the air to compress
Pitot–static_system
Cognitive psychology process
with a two-factor theory of the formation of chunks. These factors are compressibility and the order of the information. Compressibility refers to making
Chunking_(psychology)
Equations of motion for viscous fluids
in a Newtonian fluid has no normal stress components), and it has a compressibility term in addition to the incompressible case, which is proportional
Navier–Stokes_equations
Classification of grainy soils based on the sizes of their grains
because it is an indicator of other engineering properties such as compressibility, shear strength, and hydraulic conductivity. In a design, the gradation
Soil_gradation
Two-dimensional laminar boundary layer that forms on a semi-infinite plate
different positions in the flow are the same apart from scaling factors. Similarity scaling factors reduce the set of partial differential equations to a relatively
Blasius_boundary_layer
Ratio of inertial to viscous forces acting on a liquid
flame in air. This relative movement generates fluid friction, which is a factor in developing turbulent flow. Counteracting this effect is the viscosity
Reynolds_number
Type of soil formed by sedimentation in estuaries
Penobscot Bay, and Morro Bay. Bay mud manifests low shear strength, high compressibility and low permeability, making it hazardous to build upon in seismically
Bay_mud
Formation of a blood clot in a deep vein
monocytes to release tissue factor. Monocytes are also recruited early in the process. Tissue factor, via the tissue factor–factor VIIa complex, activates
Deep_vein_thrombosis
Soviet hydrogen bomb first tested in 1955
the use of lithium deuteride as a thermonuclear fuel. Another important factor to consider was the accuracy with which the Soviets were able to predict
RDS-37
Properties independent of system size, and proportional to system size
theoretical uses. For example, in thermodynamics, the state of a simple compressible system is completely specified by two independent, intensive properties
Intensive and extensive properties
Intensive_and_extensive_properties
Rule in materials science
fraction is introduced, density, coefficient of thermal expansion, compressibility and refractive index can be correlated linearly with the volume fraction
Vegard's_law
Sub-class of turbomachinery
centrifugal pumps, although the effects of compressibility are significant only in compressors. Because gases are compressible, centrifugal compressors experience
Centrifugal_compressor
Imperial unit of volumetric flow rate
static pressure at conditions other than standard, an air density correction factor must be applied to select the proper size fan to meet the new condition
Actual_cubic_feet_per_minute
Pinched tube generating supersonic flow
rapid convergence and gradual divergence. It is used to accelerate a compressible fluid to supersonic speeds in the axial (thrust) direction, by converting
De_Laval_nozzle
Minimization of heat transfer
Chentao; Lv, Sha; Li, Bin; Chen, Longhao; Sun, Dazhi (2023). "All-Ceramic, Compressible and Scalable Nanofibrous Aerogels for Subambient Daytime Radiative Cooling"
Thermal_insulation
Energy change upon the formation of one mole of ionic solid
number between 5 and 12, determined experimentally by measuring the compressibility of the solid, or derived theoretically). The Born–Landé equation above
Lattice_energy
Tests for paper and ink interaction
shade closer to ISO specification. Bursting Strength % of Elongation Compressibility Tensile strength—MD & CD Relative Moisture content Bursting strength
Paper_and_ink_testing
Medical condition
appear shrunken, contracted, and upon palpation will feel hard and non-compressible. This typically worsens when the patient is in a standing position. The
Hard_flaccid_syndrome
Light scattering by small particles
of the glass, k is the Boltzmann constant, and β is the isothermal compressibility. Tf is a fictive temperature, representing the temperature at which
Rayleigh_scattering
Model of fluid flow through a frictionless constant-area duct with heat transfer
constant-area duct where the effect of heat transfer is considered. Compressibility effects often come into consideration, although the Rayleigh flow model
Rayleigh_flow
Law describing the pressure drop in an incompressible and Newtonian fluid
we assumed the local pressure gradient is not too great to have any compressibility effects. Though locally we ignored the effects of pressure variation
Hagen–Poiseuille_equation
Boundary layer that forms on a wedge
velocity scaling factors are assumed to be simple power functions of x. That is, they assumed the velocity similarity scaling factor is given by: u e
Falkner–Skan_boundary_layer
Study of the rates of chemical reactions
physical state (solid, liquid, or gas) of a reactant is also an important factor of the rate of change. When reactants are in the same phase, as in aqueous
Chemical_kinetics
Hypothetical non-therapeutic use of gene therapy by athletes
2009.0021. Gavish, B; Gratton, E; Hardy, C. J. (1983). "Adiabatic compressibility of globular proteins". Proceedings of the National Academy of Sciences
Gene_doping
COMPRESSIBILITY FACTOR
COMPRESSIBILITY FACTOR
Surname or Lastname
English
English : from Middle English buyscel, busshell, bysshell ‘bushel’, ‘measure of grain’ (Old French boissel, buissel, of Gaulish origin), hence a metonymic occupational name for a grain merchant or factor, one who measured grain. The name may also have been applied to a maker of vessels designed to hold or measure out a bushel.English : from a diminutive of Biss.Respelling of German Biesel, a habitational name from Bisel in Alsace.
Surname or Lastname
English, French, Spanish, Portuguese, German, Polish, Czech, Slovak, Hungarian (Dániel), Romanian, and Jewish
English, French, Spanish, Portuguese, German, Polish, Czech, Slovak, Hungarian (Dániel), Romanian, and Jewish : from the Hebrew personal name Daniel ‘God is my judge’, borne by a major prophet in the Bible. The major factor influencing the popularity of the personal name (and hence the frequency of the surname) was undoubtedly the dramatic story in the Book of Daniel, recounting the prophet’s steadfast adherence to his religious faith in spite of pressure and persecution from the Mesopotamian kings in whose court he served: Nebuchadnezzar and Belshazzar (at whose feast Daniel interpreted the mysterious message of doom that appeared on the wall, being thrown to the lions for his pains). The name was also borne by a 2nd-century Christian martyr and by a 9th-century hermit, the legend of whose life was popular among Christians during the Middle Ages; these had a minor additional influence on the adoption of the Christian name. Among Orthodox Christians in Eastern Europe the name was also popular as being that of a 4th-century Persian martyr, who was venerated in the Orthodox Church.Irish : reduced form of McDaniel, which is actually a variant of McDonnell, from the Gaelic form of Irish Donal (equivalent to Scottish Donald), erroneously associated with the Biblical personal name Daniel. See also O’Donnell.Peter Daniel was one of the pioneer settlers in the 17th century in Stafford County, VA, where he was a justice of the peace. His grandson, Peter Vivian Daniel, was a U.S. Supreme Court justice from 1841 to his death in Richmond, VA, in 1860.
Surname or Lastname
English (mainly East Anglia)
English (mainly East Anglia) : metonymic occupational name for someone who dealt in weights and measures, for example a grain factor, from Middle English pekke ‘peck’ (an old measure of dry goods equivalent to eight quarts or a quarter of a bushel).English : variant of Peak 1.Irish : variant of Peak 2.South German : variant of Beck.North German and Dutch : metonymic occupational name for someone who prepared or sold pitch, from Middle Low German pek, Middle Dutch pec, pic.Dutch : from Middle Dutch pec, pick ‘desperate straits’, hence a nickname for a person in difficult circumstances or perhaps for someone with a gloomy disposition.
COMPRESSIBILITY FACTOR
COMPRESSIBILITY FACTOR
Girl/Female
Hindu, Indian
Place
Girl/Female
Australian, Bengali, Indian, Telugu
Powerful Brain; Shadow
Girl/Female
Australian, French, German, Swedish, Swiss
God will Increase; God has Added a Little Child
Boy/Male
Hindu
Arrow like
Boy/Male
Australian, Polish
Born to Nobility; High-born; Well-born
Boy/Male
Indian
Favor
Boy/Male
Muslim
The watchful
Boy/Male
British, English, French, Jamaican
Son of the Nobleman
Male
Italian
Italian form of Latin Dominicus, DOMENICO means "belongs to the lord."
Boy/Male
Hindu
Full of nectar
COMPRESSIBILITY FACTOR
COMPRESSIBILITY FACTOR
COMPRESSIBILITY FACTOR
COMPRESSIBILITY FACTOR
COMPRESSIBILITY FACTOR
n.
A factor who is a woman.
n.
The quality of being compressible of being compressible; as, the compressibility of elastic fluids.
n.
The body of factors in any place; as, a chaplain to a British factory.
n.
The quality of being impressible; susceptibility.
v. t.
To resolve (a quantity) into its factors.
n.
The allowance given to a factor, as a compensation for his services; -- called also a commission.
n.
A house or place where factors, or commercial agents, reside, to transact business for their employers.
a.
Of or pertaining to a factory.
imp. & p. p.
of Factorize
n.
The act of resolving into factors.
n.
A name given to the factors of a continued product when the former are derivable from one and the same function F(x) by successively imparting a constant increment or decrement h to the independent variable. Thus the product F(x).F(x + h).F(x + 2h) . . . F[x + (n-1)h] is called a factorial term, and its several factors take the name of factorials.
n.
Specifically, capacity for deep feeling or emotional excitement; sensibility, in its broadest acceptation; impressibility; sensitiveness.
p. pr. & vb. n.
of Factorize
pl.
of Factory
n.
The quality of being incompressible, or incapable of reduction in volume by pressure; -- formerly supposed to be a property of liquids.
a.
Related to factorials.
n.
A building, or collection of buildings, appropriated to the manufacture of goods; the place where workmen are employed in fabricating goods, wares, or utensils; a manufactory; as, a cotton factory.
n.
The business of a factor.
n.
An instrument for measuring the compressibility of liquids.
n.
The quality of being compressible; compressibility.