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In [[dimensional analysis]], a '''dimensionless quantity''' or '''quantity of dimension one''' is a [[quantity]] without an associated [[dimensional analysis|physical dimension]]. It is thus a "pure" number, and as such always has a dimension of 1.<ref>{{cite web|url=http://www.iso.org/sites/JCGM/VIM/JCGM_200e_FILES/MAIN_JCGM_200e/01_e.html#L_1_8|title='''1.8''' (1.6) '''quantity of dimension one''' dimensionless quantity|work=International vocabulary of metrology — Basic and general concepts and associated terms (VIM)|publisher=[[International Organization for Standardization|ISO]]|year=2008|accessdate=2011-03-22}}</ref> Dimensionless quantities are widely used in [[mathematics]], [[physics]], [[engineering]], [[economics]], and in everyday life (such as in counting). Numerous well-known quantities, such as [[pi|π]], [[Euler's number|e]], and [[Golden ratio|φ]], are dimensionless. By contrast, non-dimensionless quantities are measured in units of length, area, time, etc.
 
Dimensionless quantities are often defined as [[product (mathematics)|product]]s or [[ratio]]s of [[quantity|quantities]] that are not dimensionless, but whose dimensions cancel out when their [[Exponentiation|powers]] are multiplied. This is the case, for instance, with the [[engineering strain]], a measure of deformation. It is defined as change in length over initial length but, since these quantities both have dimensions ''L'' (length), the result is a dimensionless quantity.
 
== Properties ==
{{unreferenced section|date=June 2013}}
* Even though a dimensionless quantity has no physical dimension associated with it, it can still have dimensionless [[Units of measurement|units]]. To show the quantity being measured (for example [[mass fraction (chemistry)|mass fraction]] or [[mole fraction]]), it is sometimes helpful to use the same units in both the numerator and denominator (kg/kg or mol/mol). The quantity may also be given as a ratio of two different units that have the same dimension (for instance, [[light year]]s over [[meter]]s). This may be the case when calculating [[slope]]s in graphs, or when making unit conversions. Such notation does not indicate the presence of physical dimensions, and is purely a notational convention. Other common dimensionless units are &nbsp;%&nbsp;(=&nbsp;0.01), &nbsp;‰&nbsp;(=&nbsp;0.001), ppm (=&nbsp;10<sup>&minus;6</sup>), ppb (=&nbsp;10<sup>&minus;9</sup>), [[Parts per trillion|ppt]] (=&nbsp;10<sup>&minus;12</sup>) and angle units (degrees, radians, grad). Units of number such as the [[dozen]] and the [[Gross (unit)|gross]] are also dimensionless.
 
* The ratio of two quantities with the same dimensions is dimensionless, and has the same value regardless of the units used to calculate them. For instance, if body '''A''' exerts a force of magnitude ''F'' on body '''B''', and '''B''' exerts a force of magnitude ''f'' on '''A''', then the ratio ''F''/''f'' is always equal to [[Newton's Third Law of Motion|1]], regardless of the actual units used to measure ''F'' and ''f''. This is a fundamental property of dimensionless proportions and follows from the assumption that the laws of physics are independent of the system of units used in their expression. In this case, if the ratio ''F''/''f'' was not always equal to 1, but changed if we switched from [[SI]] to [[CGS]], that would mean that [[Newton's Third Law]]'s truth or falsity would depend on the system of units used, which would contradict this fundamental hypothesis. This assumption that the laws of physics are not contingent upon a specific unit system is the basis for the [[Buckingham π theorem]]. A statement of this theorem is that any physical law can be expressed as an [[Identity (mathematics)|identity]] involving only dimensionless combinations (ratios or products) of the variables linked by the law (e. g., pressure and volume are linked by [[Boyle's Law]] – they are inversely proportional). If the dimensionless combinations' values changed with the systems of units, then the equation would not be an identity, and Buckingham's theorem would not hold.
 
==Buckingham π theorem==
Another consequence of the [[Buckingham π theorem]] of [[dimensional analysis]] is that the [[Function (mathematics)|functional]] dependence between a certain number (say, ''n'') of [[variable (mathematics)|variables]] can be reduced by the number (say, ''k'') of [[independent variable|independent]] [[dimension]]s occurring in those variables to give a set of ''p'' = ''n'' &minus; ''k'' independent, dimensionless [[quantity|quantities]]. For the purposes of the experimenter, different systems that share the same description by dimensionless [[quantity]] are equivalent.
 
===Example===
The [[electric power|power]] consumption of a [[stirrer]] with a given shape is a function of the [[density]] and the [[viscosity]] of the fluid to be stirred, the size of the stirrer given by its [[diameter]], and the [[speed]] of the stirrer. Therefore, we have ''n'' = 5 variables representing our example.
 
Those ''n'' = 5 variables are built up from ''k'' = 3 dimensions:
* Length: ''L'' (m)
* Time: ''T'' (s)
* Mass: ''M'' (kg)
 
According to the π-theorem, the ''n'' = 5 variables can be reduced by the ''k'' = 3 dimensions to form ''p'' = ''n'' &minus; ''k'' = 5 &minus; 3 = 2 independent dimensionless numbers, which are, in case of the stirrer:
 
* [[Reynolds number]] (a dimensionless number describing the fluid flow regime)
* [[Power number]] (describing the stirrer and also involves the density of the fluid)
 
==Standards efforts==
The [[International Committee for Weights and Measures]] contemplated defining the unit of 1 as the 'uno', but the idea was dropped.<ref>{{Cite web|url=http://www.bipm.fr/utils/common/pdf/CCU15.pdf|format=PDF|title=BIPM Consultative Committee for Units (CCU), 15th Meeting|date=17–18 April 2003|accessdate=2010-01-22}}</ref><ref>{{Cite web|format=PDF|url=http://www.bipm.fr/utils/common/pdf/CCU16.pdf|title=BIPM Consultative Committee for Units (CCU), 16th Meeting|accessdate=2010-01-22}}</ref><ref>{{cite journal |author=Dybkaer, René |title=An ontology on property for physical, chemical, and biological systems |journal=APMIS Suppl. |issue=117 |pages=1–210 |year=2004 |pmid=15588029 |url=http://www.iupac.org/publications/ci/2005/2703/bw1_dybkaer.html}}</ref>
 
==Examples==
*Consider this example: Sarah says, "Out of every 10 apples I gather, 1&nbsp;is rotten." The rotten-to-gathered ratio is (1&nbsp;apple)&nbsp;/&nbsp;(10&nbsp;apples) =&nbsp;0.1 =&nbsp;10%, which is a dimensionless quantity.
* [[Plane angle]]s – An angle is measured as the ratio of the length of a circle's arc subtended by an angle whose vertex is the centre of the circle to some other length. The ratio—i.e.,&nbsp;length divided by length—is dimensionless. When using [[radian]]s as the unit, the length that is compared is the length of the [[radius]] of the circle. When using [[degree (angle)|degree]] as the units, the arc's length is compared to 1/360 of the [[circumference]] of the circle.
*In the case of the dimensionless quantity π, being the ratio of a circle's circumference to its diameter, the number would be constant regardless of what unit is used to measure a circle's circumference and diameter (e.g.,&nbsp;centimetres, miles, [[light-year]]s, etc.), as long as the same unit is used for both.
 
==Dimensionless physical constants==
Certain [[fundamental physical constant]]s, such as the [[speed of light]] in a vacuum, the [[universal gravitational constant]], [[Planck's constant]] and [[Boltzmann's constant]] can be normalized to 1 if appropriate units for [[time]], [[length]], [[mass]], [[electric charge|charge]], and [[temperature]] are chosen. The resulting [[system of units]] is known as the [[natural units]]. However, not all [[physical constant]]s can be normalized in this fashion. For example, the values of the following constants are independent of the system of units and must be determined experimentally:
* α ≈ 1/137.036, the [[fine structure constant]] which is the [[coupling constant]] for the [[electromagnetic interaction]];
* β (or μ) ≈ 1836, the [[proton-to-electron mass ratio]]. This ratio is the [[rest mass]] of the [[proton]] divided by that of the [[electron]]. An analogous ratio can be defined for any [[elementary particle]];
* α<sub>s</sub>, the [[coupling constant]] for the [[strong force]];
* α<sub>G</sub> ≈ 1.75×10<sup>−45</sup>, the [[gravitational coupling constant]].
 
==List of dimensionless quantities==
All numbers are dimensionless [[quantity|quantities]]. Certain dimensionless quantities of some importance are given below:
{| class="wikitable sortable" border="1"
|-
! scope="col" | Name
! scope="col" | Standard symbol
! scope="col" class="unsortable" | Definition
! scope="col" | Field of application
|-
|-
| [[Abbe number]]        || ''V''      || <math>V = \frac{ n_d - 1 }{ n_F - n_C }</math>|| [[optics]] ([[dispersion (optics)|dispersion]] in optical materials)
|-
| [[Activity coefficient]]        || <math>\gamma</math>  || <math> \gamma= \frac {{a}}{{x}} </math>|| [[chemistry]] (Proportion of "active" molecules or atoms)
|-
| [[Albedo]] || <math>\alpha</math>  ||<math>\alpha= (1-D) \bar \alpha(\theta_i) + D \bar{ \bar \alpha}</math>|| [[climatology]], [[astronomy]] ([[reflectivity]] of surfaces or bodies)
|-
| [[Archimedes number]]  || Ar    || <math> \mathrm{Ar} = \frac{g L^3 \rho_\ell (\rho - \rho_\ell)}{\mu^2}</math>|| [[fluid mechanics]] (motion of [[fluid]]s due to [[density]] differences)
|-
| [[Arrhenius equation|Arrhenius number]]    || <math>\alpha</math>  || <math>\alpha = \frac{E_a}{RT} </math> || [[chemistry]] (ratio of [[activation energy]] to [[thermal energy]])<ref name="berkley" />
|-
| [[Atomic weight]]      || ''M''      || || [[chemistry]] ([[mass]] of [[atom]] over one [[atomic mass unit]], u, where [[carbon-12]] is exactly 12 u)
|-
| [[Atwood number]]      || A      || <math>\mathrm{A} = \frac{\rho_1 - \rho_2} {\rho_1 + \rho_2} </math>  || [[fluid mechanics]] (onset of instabilities in [[fluid]] mixtures due to [[density]] differences)
|-
| [[Bagnold number]]      || Ba    ||<math>\mathrm{Ba} = \frac{\rho d^2 \lambda^{1/2} \gamma}{\mu}</math>|| [[fluid mechanics]], [[geology]] (ratio of grain collision stresses to viscous fluid [[Stress (mechanics)|stresses]] in flow of a [[granular material]] such as [[grain]] and [[sand]])<ref>[http://www2.umt.edu/Geology/faculty/hendrix/g432/g432_L6.htm Bagnold number]</ref>
|-
| [[Bejan number]]<br/><small>([[fluid mechanics]])</small>|| Be    || <math>\mathrm{Be} = \frac{\Delta P L^2} {\mu \alpha}</math> || [[fluid mechanics]] (dimensionless [[pressure]] drop along a [[Channel (geography)|channel]])<ref>{{cite journal |author=Bhattacharjee S., Grosshandler W.L. |title=The formation of wall jet near a high temperature wall under microgravity environment |journal=ASME MTD |volume=96 |pages=711–6 |year=1988 }}</ref>
|-
| [[Bejan number]]<br/><small>([[thermodynamics]])</small>|| Be    || <math>\mathrm{Be} = \frac{\dot S'_{\mathrm{gen},\, \Delta T}}{\dot S'_{\mathrm{gen},\, \Delta T}+ \dot S'_{\mathrm{gen},\, \Delta p}}</math> || [[thermodynamics]] (ratio of [[heat transfer]] [[Irreversible process|irreversibility]] to total irreversibility due to heat transfer and [[fluid]] friction)<ref>{{cite journal |author=Paoletti S., Rispoli F., Sciubba E. |title=Calculation of exergetic losses in compact heat exchanger passager |journal=ASME AES |volume=10 |issue=2 |pages=21–9 |year=1989 }}</ref>
|-
| [[Herschel–Bulkley fluid#Channel flow|Bingham number]]    || Bm    ||<math>\mathrm{Bm} = \frac{ \tau_y L }{ \mu V }</math>|| [[fluid mechanics]], [[rheology]] (ratio of yield stress to viscous stress)<ref name="berkley" />
|-
| [[Biot number]]        || Bi    ||<math>\mathrm{Bi} = \frac{h L_C}{k_b}</math>|| [[heat transfer]] (surface vs. volume [[thermal conductivity|conductivity]] of solids)
|-
| [[Blake number]]        || Bl or B ||<math>\mathrm{B} = \frac{u \rho}{\mu (1 - \epsilon) D}</math> || [[geology]], [[fluid mechanics]], [[porous media]] (inertial over [[Viscosity|viscous forces]] in fluid flow through porous media)
|-
| [[Bodenstein number]]  || Bo or Bd || <math>\mathrm{Bo} = vL/\mathcal{D} = \mathrm{Re}\, \mathrm{Sc} </math>  || [[chemistry]] ([[residence time|residence-time]] distribution; similar to the axial [[mass transfer]] [[Peclet number]])<ref>{{cite doi|10.1016/S0008-6223(97)00175-9}}</ref>
|-
| [[Bond number]]        || Bo    ||<math>\mathrm{Bo} = \frac{\rho a L^2}{\gamma}</math>|| [[geology]], [[fluid mechanics]], [[porous media]] ([[buoyancy|buoyant]] versus [[capilary]] forces, similar to the [[Eötvös number]]) <ref>[http://ising.phys.cwru.edu/plt/PapersInPdf/181BridgeCollapse.pdf Bond number]</ref>
|-
| [[Brinkman number]]    || Br    ||<math> \mathrm{Br} = \frac {\mu U^2}{\kappa (T_w - T_0)}</math>|| [[heat transfer]], [[fluid mechanics]] ([[Thermal conductivity|conduction]] from a wall to a [[viscosity|viscous]] [[fluid]])
|-
| [[Brownell–Katz number]] || N<sub>BK</sub>      || <math>\mathrm{N}_\mathrm{BK} = \frac{u \mu}{k_\mathrm{rw}\sigma} </math> || [[fluid mechanics]] (combination of [[capillary number]] and [[Bond number]]) <ref>http://www.onepetro.org/mslib/servlet/onepetropreview?id=00020506</ref>
|-
| [[Capillary number]]    || Ca    || <math>\mathrm{Ca} = \frac{\mu V}{\gamma} </math> || [[porous media]], [[fluid mechanics]] ([[viscous forces]] versus [[surface tension]])
|-
| [[Chandrasekhar number]]    || Q      ||<math> \mathrm{Q} = \frac{{B_0}^2 d^2}{\mu_0 \rho \nu \lambda} </math> || [[magnetohydrodynamics]] (ratio of the [[Lorentz force]] to the [[viscosity]] in magnetic [[convection]])
|-
| [[Chilton and Colburn J-factor analogy|Colburn J factors]]  ||  ''J''<sub>M</sub>, ''J''<sub>H</sub>, ''J''<sub>D</sub> || || [[turbulence]]; [[heat transfer|heat]], [[mass transfer|mass]], and [[fluid mechanics|momentum]] transfer (dimensionless transfer coefficients)
|-
| [[Coefficient of friction|Coefficient of kinetic friction]]  || <math>\mu_k</math> || || [[mechanics]] (friction of solid bodies in translational motion)
|-
| [[Coefficient of static friction]]  || <math>\mu_s</math>  || || [[mechanics]] (friction of solid bodies at rest)
|-
| [[Coefficient of determination]] || <math>R^2</math> ||  || [[statistics]] (proportion of variance explained by a statistical model)
|-
| [[Coefficient of variation]] || <math>\frac{\sigma}{\mu}</math> || <math>\frac{\sigma}{\mu}</math> || [[statistics]] (ratio of standard deviation to expectation)
|-
| [[Correlation]] || ''ρ'' or ''r'' || <math>\frac{{\mathbb E}[(X-\mu_X)(Y-\mu_Y)]}{\sigma_X \sigma_Y}</math> or <math> \frac{\sum_{k=1}^n (x_k-\bar x)(y_k-\bar y)}{\sqrt{\sum_{k=1}^n (x_k-\bar x)^2 \sum_{k=1}^n (y_k-\bar y)^2}} </math> where <math>\bar x = \sum_{k=1}^n x_k/n</math> and similarly for <math>\bar y</math> || [[statistics]] (measure of linear dependence)
|-
| [[Courant–Friedrich–Levy number]]  || ''C'' or ''𝜈''  || <math>C = \frac {u\,\Delta t} {\Delta x}</math> || [[mathematics]] (numerical solutions of [[hyperbolic PDE]]s)<ref>[http://www.cnrm.meteo.fr/aladin/newsletters/news22/J_Vivoda/Texte.html Courant–Friedrich–Levy number]</ref>
|-
| [[Damkohler number]]    || Da    ||<math> \mathrm{Da} = k \tau</math>|| [[chemistry]] (reaction time scales vs. residence time)
|-
| [[Damping ratio]]      ||  <math>\zeta</math> ||<math> \zeta = \frac{c}{2 \sqrt{km}}</math>|| [[mechanics]] (the level of [[damping]] in a system)
|-
| [[Darcy friction factor]] || ''C''<sub>f</sub> or ''f''<sub>D</sub> || || [[fluid mechanics]] (fraction of [[pressure]] losses due to [[friction]] in a [[pipe (fluid conveyance)|pipe]]; four times the [[Fanning friction factor]])
|-
| [[Darcy number]]    || Da    ||<math> \mathrm{Da} = \frac{K}{d^2}</math>|| [[porous media]] (ratio of [[Hydraulic conductivity|permeability]] to cross-sectional area)
|-
| [[Dean number]]        || D      || <math>\mathrm{D} = \frac{\rho V d}{\mu} \left( \frac{d}{2 R} \right)^{1/2}</math> || [[Turbulence|turbulent flow]] ([[Vortex|vortices]] in curved ducts)
|-
| [[Deborah number]]      || De    || <math> \mathrm{De} = \frac{t_\mathrm{c}}{t_\mathrm{p}}</math> || [[rheology]] ([[viscoelastic]] fluids)
|-
| [[Decibel]]            || ''dB''    ||  || [[acoustics]], [[electronics]], [[control theory]] (ratio of two [[Intensity (physics)|intensities]] or [[power (physics)|powers]] of a [[wave]])
|-
| [[Drag coefficient]]    || ''c''<sub>d</sub>    || <math>c_\mathrm{d} = \dfrac{2 F_\mathrm{d}}{\rho v^2 A}\, ,</math> || [[aeronautics]], [[fluid dynamics]] (resistance to fluid motion)
|-
| [[Dukhin number]]      || Du    || <math> \mathrm{Du} = \frac{\kappa^{\sigma}}{{\Kappa_m} a}</math> || [[Interface and colloid science|colloid science]] (ratio of electric [[surface conductivity]] to the electric bulk conductivity in [[heterogeneous]] systems)
|-
| [[Eckert number]]      || Ec    || <math> \mathrm{Ec} = \frac{V^2}{c_p\Delta T}  </math> || [[convective heat transfer]] (characterizes [[dissipation]] of [[energy]]; ratio of [[kinetic energy]] to [[enthalpy]])
|-
| [[Ekman number]]        || Ek    || <math>\mathrm{Ek} = \frac{\nu}{2D^2\Omega\sin\varphi} </math> || [[geophysics]] ([[viscosity|viscous]] versus [[Coriolis force]]s)
|-
| [[Elasticity (economics)|Elasticity]]<br/><small>([[economics]])</small> || ''E''  || || [[economics]] (response of [[demand]] or [[supply and demand|supply]] to [[price]] changes)
|-
| [[Eötvös number]]      || Eo    || <math>\mathrm{Eo}=\frac{\Delta\rho \,g \,L^2}{\sigma}</math> || [[fluid mechanics]] (shape of [[Liquid bubble|bubbles]] or [[drop (liquid)|drops]])
|-
| [[Ericksen number]]      || Er    || <math>\mathrm{Er}=\frac{\mu v L}{K}</math> || [[fluid dynamics]] ([[liquid crystal]] flow behavior; [[viscous]] over [[Elasticity (physics)|elastic]] forces)
|-
| [[Euler number (physics)|Euler number]] || Eu    || <math> \mathrm{Eu}=\frac{\Delta{}p}{\rho V^2} </math> || [[hydrodynamics]] (stream [[pressure]] versus [[inertia]] forces)
|-
| [[Euler's number]]      || ''e''      || <math> e = \sum_{k = 0}^n \frac{1}{k!} \approx 2.71828 </math> || [[mathematics]] ([[logarithm|base]] of the [[natural logarithm]])
|-
| [[Excess temperature coefficient]]      || <math>\Theta_r</math>    ||<math>\Theta_r = \frac{c_p (T-T_e)}{U_e^2/2}</math>|| [[heat transfer]], [[fluid dynamics]] (change in [[internal energy]] versus [[kinetic energy]])<ref>{{cite book|last=Schetz|first=Joseph A.|title=Boundary Layer Analysis|year=1993|publisher=Prentice-Hall, Inc.|location=Englewood Cliffs, NJ|isbn=0-13-086885-X|pages=132–134}}</ref>
|-
| [[Fanning friction factor]] || ''f''      || || [[fluid mechanics]] (fraction of [[pressure]] losses due to [[friction]] in a [[pipe (fluid conveyance)|pipe]]; 1/4<sup>th</sup> the [[Darcy friction factor]])<ref>[http://www.engineering.uiowa.edu/~cee081/Exams/Final/Final.htm Fanning friction factor]</ref>
|-
| [[Feigenbaum constants]] || <math>\alpha</math>, <math>\delta</math> ||<math>\alpha \approx 2.50290,</math><br/><math>\ \delta \approx 4.66920 </math> || [[chaos theory]] ([[Period-doubling bifurcation|period doubling]])<ref>[http://www.drchaos.net/drchaos/Book/node44.html Feigenbaum constants]</ref>
|-
| [[Fine structure constant]] || <math>\alpha</math> ||<math>\alpha = \frac{e^2}{2\varepsilon_0 hc}</math>|| [[quantum electrodynamics|quantum electrodynamics (QED)]] ([[coupling constant]] characterizing the strength of the [[electromagnetic interaction]])
|-
| [[f-number]]                || ''f''      || <math> f = \frac {{\ell}}{{D}}</math> || [[optics]], [[photography]] (ratio of [[focal length]] to [[diameter]] of [[aperture]])
|-
| [[Föppl–von Kármán equations|Föppl–von Kármán number]] || <math>\gamma</math>  || <math>\gamma = \frac{Y r^2}{\kappa}</math> || [[virology]], [[solid mechanics]] (thin-shell buckling)
|-
| [[Fourier number]]      || Fo    || <math>\mathrm{Fo} = \frac{\alpha t}{L^2}</math> || [[heat transfer]], [[mass transfer]] (ratio of diffusive rate versus storage rate)
|-
| [[Fresnel number]]      || ''F''    || <math>\mathit{F} = \frac{a^{2}}{L \lambda}</math> || [[optics]] (slit [[diffraction]])<ref>[http://www.ilt.fraunhofer.de/default.php?web=1&id=100050&lan=eng&dat=2 Fresnel number]</ref>
|-
| [[Froude number]]        || Fr    || <math>\mathrm{Fr} = \frac{v}{\sqrt{g\ell}}</math> || [[fluid mechanics]] ([[wave]] and [[surface wave|surface]] behaviour; ratio of a body's [[inertia]] to [[gravity|gravitational forces]])
|-
| [[Gain]]                || –      || || [[electronics]] (signal output to signal input)
|-
| [[Bicycle gearing|Gain ratio]]          || –        || || [[bicycle|bicycling]] (system of representing gearing; length traveled over length pedaled)<ref>[http://sheldonbrown.com/gain.html Gain Ratio - Sheldon Brown]</ref>
|-
| [[Galilei number]]      || Ga    || <math>\mathrm{Ga} = \frac{g\, L^3}{\nu^2}</math> || [[fluid mechanics]] ([[gravity|gravitational]] over [[viscosity|viscous]] forces)
|-
| [[Golden ratio]]        || <math>\varphi</math> || <math>\varphi = \frac{1+\sqrt{5}}{2} \approx 1.61803</math> || [[mathematics]], [[aesthetics]] (long side length of self-similar [[rectangle]])
|-
| [[Görtler vortices|Görtler number]]        || G      || <math>\mathrm{G} = \frac{U_e \theta}{\nu} \left( \frac{\theta}{R} \right)^{1/2}</math> || [[fluid dynamics]] ([[boundary layer flow]] along a concave wall)
|-
| [[Graetz number]]        || Gz    || <math>\mathrm{Gz} = {D_H \over L} \mathrm{Re}\, \mathrm{Pr}</math> || [[heat transfer]], [[fluid mechanics]] ([[laminar flow]] through a conduit; also used in [[mass transfer]])
|-
| [[Grashof number]]      || Gr    || <math> \mathrm{Gr}_L = \frac{g \beta (T_s - T_\infty ) L^3}{\nu ^2}</math> || [[heat transfer]], [[natural convection]] (ratio of the [[buoyancy]] to [[viscous]] force)
|-
| [[Gravitational coupling constant]]      || <math>\alpha_G</math>  ||<math>\alpha_G=\frac{Gm_e^2}{\hbar c}</math>|| [[gravitation]] (attraction between two [[mass]]y [[elementary particles]]; analogous to the [[Fine structure constant]])
|-
| [[Hatta number]]        || Ha    || <math>\mathrm{Ha} = \frac{N_{\mathrm{A}0}}{N_{\mathrm{A}0}^{\mathrm{phys}}} </math> || [[chemical engineering]] ([[adsorption]] enhancement due to [[chemical reaction]])
|-
| [[Hagen number]]        || Hg    || <math> \mathrm{Hg} = -\frac{1}{\rho}\frac{\mathrm{d} p}{\mathrm{d} x}\frac{L^3}{\nu^2} </math> || [[heat transfer]] (ratio of the [[buoyancy]] to [[viscous]] force in [[forced convection]])
|-
| [[Hydraulic gradient]]  || ''i''    || <math>i = \frac{\mathrm{d}h}{\mathrm{d}l} = \frac{h_2 - h_1}{\mathrm{length}}</math> || [[fluid mechanics]], [[groundwater]] flow ([[hydraulic head|pressure head]] over distance)
|-
| [[Iribarren number]]  || Ir    || <math>\mathrm{Ir} = \frac{\tan \alpha}{\sqrt{H/L_0}}</math> || [[wave|wave mechanics]] (breaking [[surface gravity wave]]s on a slope)
|-
| [[Jakob number]]        || Ja      ||<math>\mathrm{Ja} = \frac{c_p (T_\mathrm{s} - T_\mathrm{sat}) }{\Delta H_{\mathrm{f}} }</math>|| [[chemistry]] (ratio of [[Sensible heat|sensible]] to [[Enthalpy of vaporization|latent energy]] absorbed during liquid-vapor [[phase transition|phase change]])<ref>{{cite book |last=Incropera |first=Frank P. |title= Fundamentals of heat and mass transfer |page=376 |year=2007 |publisher=John Wiley & Sons, Inc}}</ref>
|-
| [[Béla Karlovitz|Karlovitz number]]    || Ka      || <math>\mathrm{Ka} = k t_c</math> ||  [[Turbulence|turbulent]] [[combustion]] (characteristic flow time times flame stretch rate)
|-
| [[Keulegan–Carpenter number]] || K<sub>C</sub>  || <math>\mathrm{K_C} = \frac{V\,T}{L}</math> || [[fluid dynamics]] (ratio of [[drag force]] to [[inertia]] for a bluff object in [[oscillation|oscillatory]] fluid flow)
|-
| [[Knudsen number]]      || Kn      || <math>\mathrm{Kn} = \frac {\lambda}{L}</math> || [[gas dynamics]] (ratio of the molecular [[mean free path]] length to a representative physical length scale)
|-
| [[Kt/V]]                || ''Kt''/''V''      ||  || [[medicine]] ([[hemodialysis]] and [[peritoneal dialysis]] treatment; dimensionless [[time]])
|-
| [[Kutateladze number]]  || Ku      || <math>\mathrm{Ku} = \frac{U_h \rho_g^{1/2}}{\left({\sigma g (\rho_l - \rho_g)}\right)^{1/4}}</math> || [[fluid mechanics]] (counter-current [[two-phase flow]])<ref>{{cite doi|10.1016/S0009-2509(01)00247-0}}</ref>
|-
| [[Laplace number]]      || La      || <math>\mathrm{La} = \frac{\sigma \rho L}{\mu^2}</math> || [[fluid dynamics]] ([[free convection]] within [[Miscibility|immiscible]] fluids; ratio of [[surface tension]] to [[momentum]]-transport)
|-
| [[Lewis number]]        || Le      || <math>\mathrm{Le} = \frac{\alpha}{D} = \frac{\mathrm{Sc}}{\mathrm{Pr}}</math> || [[heat transfer|heat]] and [[mass transfer]] (ratio of [[thermal diffusivity|thermal]] to [[mass diffusivity]])
|-
| [[Lift coefficient]]    || ''C''<sub>L</sub>  || <math>C_\mathrm{L} = \frac{L}{q\,S}</math> || [[aerodynamics]] ([[lift (force)|lift]] available from an [[airfoil]] at a given [[angle of attack]])
|-
| [[Lockhart–Martinelli parameter]]  || <math>\chi</math> || <math>\chi = \frac{m_\ell}{m_g} \sqrt{\frac{\rho_g}{\rho_\ell}}</math> || [[two-phase flow]] (flow of [[wet gas]]es; [[liquid]] fraction)<ref>[http://www.flowprogramme.co.uk/publications/guidancenotes/GN40.pdf Lockhart–Martinelli parameter]</ref>
|-
| [[Love number]]s || ''h'', ''k'', ''l'' || || [[geophysics]] ([[solidity]] of [[earth]] and other [[planet]]s)
|-
| [[Lundquist number]] || ''S''    || <math>S = \frac{\mu_0LV_A}{\eta}</math> || [[plasma physics]] (ratio of a resistive time to an [[Alfvén wave]] crossing time in a plasma)
|-
| [[Mach number]]          || M or Ma    ||<math> \mathrm{M} = \frac{{v}}{{v_\mathrm{sound}}}</math> || [[gas dynamics]] ([[compressible flow]]; dimensionless [[velocity]])
|-
| [[Magnetic Reynolds number]] || R<sub>m</sub> || <math>\mathrm{R}_\mathrm{m} = \frac{U L}{\eta}</math> || [[magnetohydrodynamics]] (ratio of magnetic [[advection]] to magnetic [[diffusion]])
|-
| [[Manning formula|Manning roughness coefficient]]  || ''n''    || || [[open channel flow]] (flow driven by [[gravity]])<ref>{{PDFlink|[http://www.epa.gov/ORD/NRMRL/pubs/600r01043/600R01043chap2.pdf Manning coefficient]|109&nbsp;KB}}</ref>
|-
| [[Marangoni number]]    || Mg    || <math>\mathrm{Mg} = - {\frac{\mathrm{d}\sigma}{\mathrm{d}T}}\frac{L \Delta T}{\eta \alpha} </math> || [[fluid mechanics]] ([[Marangoni flow]]; thermal [[surface tension]] forces over [[viscosity|viscous]] forces)
|-
| [[Morton number]]        || Mo    || <math>\mathrm{Mo} = \frac{g \mu_c^4 \, \Delta \rho}{\rho_c^2 \sigma^3}  </math> ||  [[fluid dynamics]] (determination of [[Liquid bubble|bubble]]/[[drop (liquid)|drop]] shape)
|-
| [[Nusselt number]]      || Nu    ||<math>\mathrm{Nu} =\frac{hd}{k}</math> || [[heat transfer]] (forced [[convection]]; ratio of [[convection|convective]] to [[heat conduction|conductive]] heat transfer)
|-
| [[Ohnesorge number]]    || Oh    || <math> \mathrm{Oh} = \frac{ \mu}{ \sqrt{\rho \sigma L }} = \frac{\sqrt{\mathrm{We}}}{\mathrm{Re}} </math> || [[fluid dynamics]] (atomization of liquids, [[Marangoni flow]])
|-
| [[Péclet number]]        || Pe    ||<math>\mathrm{Pe} =  \frac{du\rho c_p}{k} = \mathrm{Re}\, \mathrm{Pr}</math>|| [[heat transfer]] ([[advection]]&ndash;[[diffusion]] problems;  total [[momentum transfer]] to molecular heat transfer)
|-
| [[Peel number]]          || ''N''<sub>P</sub>    || <math>N_\mathrm{P} = \frac{\text{Restoring force}}{\text{Adhesive force}}</math> || [[coating]] ([[adhesion]] of [[microstructure]]s with [[substrate (chemistry)|substrate]])<ref>{{Cite doi|10.1109/TDMR.2003.820295}}</ref>
|-
| [[Perveance]]          ||  ''K''    || <math>{K} = \frac{{I}}{{I_0}}\,\frac{{2}}{{\beta}^3{\gamma}^3} (1-\gamma^2f_e)</math> || [[Charged particle|charged particle transport]] (measure of the strength of space charge in a charged particle beam)
|-
| [[Pi]]                  || <math>\pi</math> || <math>\pi = \frac{C}{d} \approx 3.14159</math> || [[mathematics]] (ratio of a [[circle]]'s [[circumference]] to its [[diameter]])
|-
| [[Poisson's ratio]]      || <math>\nu</math>  || <math>\nu = -\frac{\mathrm{d}\varepsilon_\mathrm{trans}}{\mathrm{d}\varepsilon_\mathrm{axial}} </math> || [[elasticity (physics)|elasticity]] ([[Structural load|load]] in transverse and longitudinal direction)
|-
| [[Porosity]]            || <math>\phi</math> || <math>\phi = \frac{V_\mathrm{V}}{V_\mathrm{T}}</math> || [[geology]], [[porous media]] (void fraction of the medium)
|-
| [[Power factor]]        || ''P''/''S''      ||  || [[electronics]] (real power to apparent power)
|-
| [[Power number]]        || ''N''<sub>''p''</sub> || <math> N_p = {P\over \rho n^3 d^5} </math> || [[electronics]] (power consumption by agitators; [[resistance force]] versus [[inertia|inertia force]])
|-
| [[Prandtl number]]      || Pr    ||<math>\mathrm{Pr} = \frac{\nu}{\alpha}  = \frac{c_p \mu}{k}</math>|| [[heat transfer]] (ratio of [[viscosity|viscous diffusion]] rate over [[Thermal conductivity|thermal diffusion]] rate)
|-
| [[Prater number]]  || ''β''    || <math>\beta = \frac{-\Delta H_r D_{TA}^e C_{AS}}{\lambda^e T_s}</math>  || [[chemical reaction engineering|reaction engineering]] (ratio of heat evolution to [[heat conduction]] within a [[catalyst]] pellet)<ref>{{cite book |last1=Davis |first1=Mark E. |last2=Davis |first2=Robert J. |title=Fundamentals of Chemical Reaction Engineering |year=2012 |publisher=Dover |isbn=978-0486488554 |page=215}}</ref>
|-
| [[Pressure coefficient]] ||  ''C<sub>P</sub>''  || <math>C_p = {p - p_\infty \over \frac{1}{2} \rho_\infty V_\infty^2}</math> || [[aerodynamics]], [[hydrodynamics]] ([[pressure]] experienced at a point on an [[airfoil]]; dimensionless pressure variable)
|-
| [[Q factor]] ||  ''Q''    ||  || [[physics]], [[engineering]] ([[damping]] of [[oscillation|oscillator]] or [[resonator]]; [[energy]] stored versus energy lost)
|-
| [[Radian]] measure      || rad    ||<math>\text{arc length}/\text{radius}</math> || [[mathematics]] (measurement of planar [[angles]], 1 radian = 180/[[pi|π]] [[degree (angle)|degrees]])
|-
| [[Rayleigh number]]      || Ra    || <math>\mathrm{Ra}_{x} = \frac{g \beta} {\nu \alpha} (T_s - T_\infin) x^3 </math> || [[heat transfer]] ([[buoyancy]] versus [[viscous forces]] in [[free convection]])
|-
| [[Refractive index]]    || ''n''    || <math>n=\frac{c}{v}</math> || [[electromagnetism]], [[optics]] ([[speed of light]] in a vacuum over speed of light in a material)
|-
| [[Relative density]]    || ''RD''    || <math>RD = \frac{\rho_\mathrm{substance}}{\rho_\mathrm{reference}}</math> || [[hydrometer]]s, material comparisons (ratio of [[density]] of a material to a reference material—usually [[water]])
|-
| [[Permeability (electromagnetism)|Relative permeability]] || <math>\mu_r</math> || <math>\mu_r = \frac{\mu}{\mu_0}</math> ||  [[magnetostatics]] (ratio of the permeability of a specific medium to free space)
|-
| [[Relative permittivity]] || <math>\varepsilon_r</math> || <math>\varepsilon_{r} = \frac{C_{x}} {C_{0}}</math> || [[electrostatics]] (ratio of [[capacitance]] of test [[capacitor]] with [[dielectric]] material versus [[vacuum]])
|-
| [[Reynolds number]]      || Re    || <math>\mathrm{Re} = \frac{vL\rho}{\mu}</math> || [[fluid mechanics]] (ratio of fluid [[inertia]]l and [[viscosity|viscous]] forces)<ref name="berkley">{{Cite web|title=Table of Dimensionless Numbers |format=PDF |url=http://www.cchem.berkeley.edu/gsac/grad_info/prelims/binders/dimensionless_numbers.pdf|accessdate=2009-11-05}}</ref>
|-
| [[Richardson number]]    || Ri    || <math> \mathrm{Ri} = \frac{gh}{u^2} = \frac{1}{\mathrm{Fr}^2} </math> || [[fluid dynamics]] (effect of [[buoyancy]] on flow stability; ratio of [[Potential Energy|potential]] over [[kinetic energy]])<ref>[http://apollo.lsc.vsc.edu/classes/met455/notes/section4/2.html Richardson number]</ref>
|-
| [[Rockwell scale]]      || –      ||  || [[hardness|mechanical hardness]] ([[indentation hardness]] of a material)
|-
| [[Rolling resistance#Rolling resistance coefficient examples|Rolling resistance coefficient]]  || ''C<sub>rr</sub>'' ||<math>C_{rr} = \frac{F}{N_f} </math>|| [[vehicle dynamics]] (ratio of [[force]] needed for motion of a [[wheel]] over the [[normal force]])
|-
| [[Roshko number]]        ||  Ro    || <math> \mathrm{Ro} = {f L^{2}\over \nu} =\mathrm{St}\,\mathrm{Re} </math> || [[fluid dynamics]] (oscillating flow, [[vortex]] [[vortex shedding|shedding]])
|-
| [[Rossby number]]        || Ro    || <math>\mathrm{Ro}=\frac{U}{Lf}</math> ||  [[geophysics]] (ratio of [[inertia]]l to [[Coriolis force]])
|-
| [[Rouse number]]        || P or Z || <math>\mathrm{P} = \frac{w_s}{\kappa u_*}</math> || [[sediment transport]] (ratio of the sediment [[terminal velocity|fall velocity]] and the upwards velocity of grain)
|-
| [[Schmidt number]]      || Sc    || <math>\mathrm{Sc} = \frac{\nu}{D}</math>  || [[mass transfer]] ([[viscosity|viscous]] over molecular [[diffusion]] rate)<ref>[http://www.ent.ohiou.edu/~hbwang/fluidynamics.htm Schmidt number]</ref>
|-
| [[Shape factor (boundary layer flow)|Shape factor]] || ''H''    || <math>H = \frac {\delta^*}{\theta}</math> || [[boundary layer flow]] (ratio of displacement thickness to momentum thickness)
|-
| [[Sherwood number]]      || Sh    || <math>\mathrm{Sh} = \frac{K L}{D} </math> || [[mass transfer]] ([[forced convection]]; ratio of [[convection|convective]] to [[diffusion|diffusive]] mass transport)
|-
| [[Shields parameter]]    || <math>\tau_*</math> or <math>\theta</math> || <math>\tau_{\ast} = \frac{\tau}{(\rho_s - \rho) g D}</math> || [[sediment transport]] (threshold of [[sediment transport|sediment movement]] due to fluid motion; dimensionless [[shear stress]])
|-
| [[Sommerfeld number]]    ||  S    || <math> \mathrm{S} = \left( \frac{r}{c} \right)^2 \frac {\mu N}{P}</math> || [[hydrodynamic lubrication]] (boundary [[lubrication]])<ref>[http://epubl.luth.se/avslutade/0348-8373/41/ Sommerfeld number]</ref>
|-
| [[Specific gravity]] || ''SG''    || || (same as [[Relative density]])
|-
| [[Stanton number]]      || St    || <math>\mathrm{St} = \frac{h}{c_p \rho V} = \frac{\mathrm{Nu}}{\mathrm{Re}\,\mathrm{Pr}} </math> || [[heat transfer]] and [[fluid dynamics]] (forced [[convection]])
|-
| [[Stefan number]]        || Ste    ||<math>\mathrm{Ste} = \frac{c_p \Delta T}{L}</math>|| [[phase transition|phase change]], [[thermodynamics]] (ratio of [[sensible heat]] to [[latent heat]])
|-
| [[Stokes number]]        || Stk  or S<sub>k</sub> ||<math>\mathrm{Stk} = \frac{\tau U_o}{d_c}</math>|| [[Suspension (chemistry)|particles suspensions]] (ratio of characteristic [[time]] of particle to time of flow)
|-
| [[Strain (materials science)|Strain]]      || <math>\epsilon</math> ||<math>\epsilon = \cfrac{\partial{F}}{\partial{X}} - 1</math>|| [[materials science]], [[elasticity (physics)|elasticity]] (displacement between particles in the body relative to a reference length)
|-
| [[Strouhal number]]      || St  or Sr  ||<math>\mathrm{St} = {\omega L\over v} </math>|| [[fluid dynamics]] (continuous and pulsating flow; nondimensional [[frequency]])<ref>[http://www.engineeringtoolbox.com/strouhal-number-d_582.html Strouhal number], Engineering Toolbox</ref>
|-
| [[Stuart number]]        || N    || <math> \mathrm{N} = \frac {B^2 L_{c} \sigma}{\rho U} = \frac{\mathrm{Ha}^2}{\mathrm{Re}} </math> || [[magnetohydrodynamics]] (ratio of [[electromagnetic force|electromagnetic]] to inertial forces)
|-
| [[Taylor number]]        || Ta    ||<math> \mathrm{Ta} = \frac{4\Omega^2 R^4}{\nu^2}</math>|| [[fluid dynamics]] (rotating fluid flows; inertial forces due to [[rotation]] of a [[fluid]] versus [[viscosity|viscous forces]])
|-
| [[Ursell number]]        || U    ||<math>\mathrm{U} = \frac{H\, \lambda^2}{h^3}</math>|| [[wave|wave mechanics]] (nonlinearity of [[ocean surface wave|surface gravity waves]] on a shallow fluid layer)
|-
| [[Vadasz number]]        || Va    ||<math>\mathrm{Va} = \frac{\phi\, \mathrm{Pr}}{\mathrm{Da}}</math>|| [[porous medium|porous media]] (governs the effects of [[porosity]] <math>\phi</math>, the [[Prandtl number]] and the [[Darcy number]] on flow in a [[porous medium]]) <ref>{{Cite doi|10.1098/rspa.2000.0657}}</ref>
|-
| [[van 't Hoff factor]]  || ''i''    ||<math> i = 1 + \alpha (n - 1)</math>|| [[quantitative analysis (chemistry)|quantitative analysis]] ([[Freezing-point depression|''K''<sub>f</sub>]] and [[Boiling point elevation|''K''<sub>b</sub>]])
|-
| [[Wallis parameter]]    || ''j''<sup>*</sup>    ||<math>j^* = R \left( \frac{\omega \rho}{\mu} \right)^\frac{1}{2}</math>|| [[multiphase flow]]s (nondimensional [[superficial velocity]])<ref>{{cite doi|10.1016/S0029-5493(99)00005-9}}</ref>
|-
| [[Weaver flame speed number]] || Wea    ||<math>\mathrm{Wea} = \frac{w}{w_\mathrm{H}} 100</math>  || [[combustion]] ([[laminar flow|laminar]] burning [[velocity]] relative to [[hydrogen]] gas)<ref>{{Cite doi|10.1016/B978-0-12-416013-2.00008-7}}</ref>
|-
| [[Weber number]]        || We      ||<math>\mathrm{We} = \frac{\rho v^2 l}{\sigma}</math>|| [[multiphase flow]] (strongly curved surfaces; ratio of [[inertia]] to [[surface tension]])
|-
| [[Weissenberg number]]  || Wi    ||<math>\mathrm{Wi} = \dot{\gamma} \lambda </math>|| [[viscoelastic]] flows ([[shear rate]] times the relaxation time)<ref>[http://physics.ucsd.edu/~des/Shear1999.pdf Weissenberg number]</ref>
|-
| [[Womersley number]]    || <math>\alpha</math> ||<math>\alpha = R \left( \frac{\omega \rho}{\mu} \right)^\frac{1}{2}</math>|| [[biofluid mechanics]] (continuous and pulsating flows; ratio of [[pulsatile flow]] [[frequency]] to [[viscosity|viscous effects]])<ref>[http://www.seas.upenn.edu/courses/belab/LabProjects/2001/be310s01m2.doc Womersley number]</ref>
|}
 
==See also==
* [[Similitude (model)]]
* [[Orders of magnitude (numbers)]]
* [[Dimensional analysis]]
* [[Dimensionless physical constant]]
* [[Normalization (statistics)]] and [[standardized moment]], the analogous concepts in [[statistics]]
* [[Buckingham π theorem]]
 
==References==
{{Reflist|2}}
 
==External links==
* [[John Baez]], "[http://math.ucr.edu/home/baez/constants.html  How Many Fundamental Constants Are There?]"
* Huba, J. D., 2007, ''[http://www.ipp.mpg.de/~dpc/nrl/ NRL Plasma Formulary: Dimensionless Numbers of Fluid Mechanics.]'' [[United States Naval Research Laboratory|Naval Research Laboratory]]. p. [http://www.ipp.mpg.de/~dpc/nrl/23.html 23], [http://www.ipp.mpg.de/~dpc/nrl/24.html 24], [http://www.ipp.mpg.de/~dpc/nrl/25.html 25]
* Sheppard, Mike, 2007, "[http://www.mit.edu/~mi22295/constants/constants.html Systematic Search for Expressions of Dimensionless Constants using the NIST database of Physical Constants.]"
 
{{NonDimFluMech}}
 
{{DEFAULTSORT:Dimensionless Quantity}}
[[Category:Physical constants]]
[[Category:Dimensionless numbers| ]]

Revision as of 03:13, 29 January 2014

In dimensional analysis, a dimensionless quantity or quantity of dimension one is a quantity without an associated physical dimension. It is thus a "pure" number, and as such always has a dimension of 1.[1] Dimensionless quantities are widely used in mathematics, physics, engineering, economics, and in everyday life (such as in counting). Numerous well-known quantities, such as π, e, and φ, are dimensionless. By contrast, non-dimensionless quantities are measured in units of length, area, time, etc.

Dimensionless quantities are often defined as products or ratios of quantities that are not dimensionless, but whose dimensions cancel out when their powers are multiplied. This is the case, for instance, with the engineering strain, a measure of deformation. It is defined as change in length over initial length but, since these quantities both have dimensions L (length), the result is a dimensionless quantity.

Properties

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  • Even though a dimensionless quantity has no physical dimension associated with it, it can still have dimensionless units. To show the quantity being measured (for example mass fraction or mole fraction), it is sometimes helpful to use the same units in both the numerator and denominator (kg/kg or mol/mol). The quantity may also be given as a ratio of two different units that have the same dimension (for instance, light years over meters). This may be the case when calculating slopes in graphs, or when making unit conversions. Such notation does not indicate the presence of physical dimensions, and is purely a notational convention. Other common dimensionless units are  % (= 0.01),  ‰ (= 0.001), ppm (= 10−6), ppb (= 10−9), ppt (= 10−12) and angle units (degrees, radians, grad). Units of number such as the dozen and the gross are also dimensionless.
  • The ratio of two quantities with the same dimensions is dimensionless, and has the same value regardless of the units used to calculate them. For instance, if body A exerts a force of magnitude F on body B, and B exerts a force of magnitude f on A, then the ratio F/f is always equal to 1, regardless of the actual units used to measure F and f. This is a fundamental property of dimensionless proportions and follows from the assumption that the laws of physics are independent of the system of units used in their expression. In this case, if the ratio F/f was not always equal to 1, but changed if we switched from SI to CGS, that would mean that Newton's Third Law's truth or falsity would depend on the system of units used, which would contradict this fundamental hypothesis. This assumption that the laws of physics are not contingent upon a specific unit system is the basis for the Buckingham π theorem. A statement of this theorem is that any physical law can be expressed as an identity involving only dimensionless combinations (ratios or products) of the variables linked by the law (e. g., pressure and volume are linked by Boyle's Law – they are inversely proportional). If the dimensionless combinations' values changed with the systems of units, then the equation would not be an identity, and Buckingham's theorem would not hold.

Buckingham π theorem

Another consequence of the Buckingham π theorem of dimensional analysis is that the functional dependence between a certain number (say, n) of variables can be reduced by the number (say, k) of independent dimensions occurring in those variables to give a set of p = nk independent, dimensionless quantities. For the purposes of the experimenter, different systems that share the same description by dimensionless quantity are equivalent.

Example

The power consumption of a stirrer with a given shape is a function of the density and the viscosity of the fluid to be stirred, the size of the stirrer given by its diameter, and the speed of the stirrer. Therefore, we have n = 5 variables representing our example.

Those n = 5 variables are built up from k = 3 dimensions:

  • Length: L (m)
  • Time: T (s)
  • Mass: M (kg)

According to the π-theorem, the n = 5 variables can be reduced by the k = 3 dimensions to form p = nk = 5 − 3 = 2 independent dimensionless numbers, which are, in case of the stirrer:

  • Reynolds number (a dimensionless number describing the fluid flow regime)
  • Power number (describing the stirrer and also involves the density of the fluid)

Standards efforts

The International Committee for Weights and Measures contemplated defining the unit of 1 as the 'uno', but the idea was dropped.[2][3][4]

Examples

  • Consider this example: Sarah says, "Out of every 10 apples I gather, 1 is rotten." The rotten-to-gathered ratio is (1 apple) / (10 apples) = 0.1 = 10%, which is a dimensionless quantity.
  • Plane angles – An angle is measured as the ratio of the length of a circle's arc subtended by an angle whose vertex is the centre of the circle to some other length. The ratio—i.e., length divided by length—is dimensionless. When using radians as the unit, the length that is compared is the length of the radius of the circle. When using degree as the units, the arc's length is compared to 1/360 of the circumference of the circle.
  • In the case of the dimensionless quantity π, being the ratio of a circle's circumference to its diameter, the number would be constant regardless of what unit is used to measure a circle's circumference and diameter (e.g., centimetres, miles, light-years, etc.), as long as the same unit is used for both.

Dimensionless physical constants

Certain fundamental physical constants, such as the speed of light in a vacuum, the universal gravitational constant, Planck's constant and Boltzmann's constant can be normalized to 1 if appropriate units for time, length, mass, charge, and temperature are chosen. The resulting system of units is known as the natural units. However, not all physical constants can be normalized in this fashion. For example, the values of the following constants are independent of the system of units and must be determined experimentally:

List of dimensionless quantities

All numbers are dimensionless quantities. Certain dimensionless quantities of some importance are given below:

Name Standard symbol Definition Field of application
Abbe number V V=nd1nFnC optics (dispersion in optical materials)
Activity coefficient γ γ=ax chemistry (Proportion of "active" molecules or atoms)
Albedo α α=(1D)α¯(θi)+Dα¯¯ climatology, astronomy (reflectivity of surfaces or bodies)
Archimedes number Ar Ar=gL3ρ(ρρ)μ2 fluid mechanics (motion of fluids due to density differences)
Arrhenius number α α=EaRT chemistry (ratio of activation energy to thermal energy)[5]
Atomic weight M chemistry (mass of atom over one atomic mass unit, u, where carbon-12 is exactly 12 u)
Atwood number A A=ρ1ρ2ρ1+ρ2 fluid mechanics (onset of instabilities in fluid mixtures due to density differences)
Bagnold number Ba Ba=ρd2λ1/2γμ fluid mechanics, geology (ratio of grain collision stresses to viscous fluid stresses in flow of a granular material such as grain and sand)[6]
Bejan number
(fluid mechanics)
Be Be=ΔPL2μα fluid mechanics (dimensionless pressure drop along a channel)[7]
Bejan number
(thermodynamics)
Be Be=S˙'gen,ΔTS˙'gen,ΔT+S˙'gen,Δp thermodynamics (ratio of heat transfer irreversibility to total irreversibility due to heat transfer and fluid friction)[8]
Bingham number Bm Bm=τyLμV fluid mechanics, rheology (ratio of yield stress to viscous stress)[5]
Biot number Bi Bi=hLCkb heat transfer (surface vs. volume conductivity of solids)
Blake number Bl or B B=uρμ(1ϵ)D geology, fluid mechanics, porous media (inertial over viscous forces in fluid flow through porous media)
Bodenstein number Bo or Bd Bo=vL/𝒟=ReSc chemistry (residence-time distribution; similar to the axial mass transfer Peclet number)[9]
Bond number Bo Bo=ρaL2γ geology, fluid mechanics, porous media (buoyant versus capilary forces, similar to the Eötvös number) [10]
Brinkman number Br Br=μU2κ(TwT0) heat transfer, fluid mechanics (conduction from a wall to a viscous fluid)
Brownell–Katz number NBK NBK=uμkrwσ fluid mechanics (combination of capillary number and Bond number) [11]
Capillary number Ca Ca=μVγ porous media, fluid mechanics (viscous forces versus surface tension)
Chandrasekhar number Q Q=B02d2μ0ρνλ magnetohydrodynamics (ratio of the Lorentz force to the viscosity in magnetic convection)
Colburn J factors JM, JH, JD turbulence; heat, mass, and momentum transfer (dimensionless transfer coefficients)
Coefficient of kinetic friction μk mechanics (friction of solid bodies in translational motion)
Coefficient of static friction μs mechanics (friction of solid bodies at rest)
Coefficient of determination R2 statistics (proportion of variance explained by a statistical model)
Coefficient of variation σμ σμ statistics (ratio of standard deviation to expectation)
Correlation ρ or r 𝔼[(XμX)(YμY)]σXσY or k=1n(xkx¯)(yky¯)k=1n(xkx¯)2k=1n(yky¯)2 where x¯=k=1nxk/n and similarly for y¯ statistics (measure of linear dependence)
Courant–Friedrich–Levy number C or 𝜈 C=uΔtΔx mathematics (numerical solutions of hyperbolic PDEs)[12]
Damkohler number Da Da=kτ chemistry (reaction time scales vs. residence time)
Damping ratio ζ ζ=c2km mechanics (the level of damping in a system)
Darcy friction factor Cf or fD fluid mechanics (fraction of pressure losses due to friction in a pipe; four times the Fanning friction factor)
Darcy number Da Da=Kd2 porous media (ratio of permeability to cross-sectional area)
Dean number D D=ρVdμ(d2R)1/2 turbulent flow (vortices in curved ducts)
Deborah number De De=tctp rheology (viscoelastic fluids)
Decibel dB acoustics, electronics, control theory (ratio of two intensities or powers of a wave)
Drag coefficient cd cd=2Fdρv2A, aeronautics, fluid dynamics (resistance to fluid motion)
Dukhin number Du Du=κσKma colloid science (ratio of electric surface conductivity to the electric bulk conductivity in heterogeneous systems)
Eckert number Ec Ec=V2cpΔT convective heat transfer (characterizes dissipation of energy; ratio of kinetic energy to enthalpy)
Ekman number Ek Ek=ν2D2Ωsinφ geophysics (viscous versus Coriolis forces)
Elasticity
(economics)
E economics (response of demand or supply to price changes)
Eötvös number Eo Eo=ΔρgL2σ fluid mechanics (shape of bubbles or drops)
Ericksen number Er Er=μvLK fluid dynamics (liquid crystal flow behavior; viscous over elastic forces)
Euler number Eu Eu=ΔpρV2 hydrodynamics (stream pressure versus inertia forces)
Euler's number e e=k=0n1k!2.71828 mathematics (base of the natural logarithm)
Excess temperature coefficient Θr Θr=cp(TTe)Ue2/2 heat transfer, fluid dynamics (change in internal energy versus kinetic energy)[13]
Fanning friction factor f fluid mechanics (fraction of pressure losses due to friction in a pipe; 1/4th the Darcy friction factor)[14]
Feigenbaum constants α, δ α2.50290,
δ4.66920
chaos theory (period doubling)[15]
Fine structure constant α α=e22ε0hc quantum electrodynamics (QED) (coupling constant characterizing the strength of the electromagnetic interaction)
f-number f f=D optics, photography (ratio of focal length to diameter of aperture)
Föppl–von Kármán number γ γ=Yr2κ virology, solid mechanics (thin-shell buckling)
Fourier number Fo Fo=αtL2 heat transfer, mass transfer (ratio of diffusive rate versus storage rate)
Fresnel number F F=a2Lλ optics (slit diffraction)[16]
Froude number Fr Fr=vg fluid mechanics (wave and surface behaviour; ratio of a body's inertia to gravitational forces)
Gain electronics (signal output to signal input)
Gain ratio bicycling (system of representing gearing; length traveled over length pedaled)[17]
Galilei number Ga Ga=gL3ν2 fluid mechanics (gravitational over viscous forces)
Golden ratio φ φ=1+521.61803 mathematics, aesthetics (long side length of self-similar rectangle)
Görtler number G G=Ueθν(θR)1/2 fluid dynamics (boundary layer flow along a concave wall)
Graetz number Gz Gz=DHLRePr heat transfer, fluid mechanics (laminar flow through a conduit; also used in mass transfer)
Grashof number Gr GrL=gβ(TsT)L3ν2 heat transfer, natural convection (ratio of the buoyancy to viscous force)
Gravitational coupling constant αG αG=Gme2c gravitation (attraction between two massy elementary particles; analogous to the Fine structure constant)
Hatta number Ha Ha=NA0NA0phys chemical engineering (adsorption enhancement due to chemical reaction)
Hagen number Hg Hg=1ρdpdxL3ν2 heat transfer (ratio of the buoyancy to viscous force in forced convection)
Hydraulic gradient i i=dhdl=h2h1length fluid mechanics, groundwater flow (pressure head over distance)
Iribarren number Ir Ir=tanαH/L0 wave mechanics (breaking surface gravity waves on a slope)
Jakob number Ja Ja=cp(TsTsat)ΔHf chemistry (ratio of sensible to latent energy absorbed during liquid-vapor phase change)[18]
Karlovitz number Ka Ka=ktc turbulent combustion (characteristic flow time times flame stretch rate)
Keulegan–Carpenter number KC KC=VTL fluid dynamics (ratio of drag force to inertia for a bluff object in oscillatory fluid flow)
Knudsen number Kn Kn=λL gas dynamics (ratio of the molecular mean free path length to a representative physical length scale)
Kt/V Kt/V medicine (hemodialysis and peritoneal dialysis treatment; dimensionless time)
Kutateladze number Ku Ku=Uhρg1/2(σg(ρlρg))1/4 fluid mechanics (counter-current two-phase flow)[19]
Laplace number La La=σρLμ2 fluid dynamics (free convection within immiscible fluids; ratio of surface tension to momentum-transport)
Lewis number Le Le=αD=ScPr heat and mass transfer (ratio of thermal to mass diffusivity)
Lift coefficient CL CL=LqS aerodynamics (lift available from an airfoil at a given angle of attack)
Lockhart–Martinelli parameter χ χ=mmgρgρ two-phase flow (flow of wet gases; liquid fraction)[20]
Love numbers h, k, l geophysics (solidity of earth and other planets)
Lundquist number S S=μ0LVAη plasma physics (ratio of a resistive time to an Alfvén wave crossing time in a plasma)
Mach number M or Ma M=vvsound gas dynamics (compressible flow; dimensionless velocity)
Magnetic Reynolds number Rm Rm=ULη magnetohydrodynamics (ratio of magnetic advection to magnetic diffusion)
Manning roughness coefficient n open channel flow (flow driven by gravity)[21]
Marangoni number Mg Mg=dσdTLΔTηα fluid mechanics (Marangoni flow; thermal surface tension forces over viscous forces)
Morton number Mo Mo=gμc4Δρρc2σ3 fluid dynamics (determination of bubble/drop shape)
Nusselt number Nu Nu=hdk heat transfer (forced convection; ratio of convective to conductive heat transfer)
Ohnesorge number Oh Oh=μρσL=WeRe fluid dynamics (atomization of liquids, Marangoni flow)
Péclet number Pe Pe=duρcpk=RePr heat transfer (advectiondiffusion problems; total momentum transfer to molecular heat transfer)
Peel number NP NP=Restoring forceAdhesive force coating (adhesion of microstructures with substrate)[22]
Perveance K K=II02β3γ3(1γ2fe) charged particle transport (measure of the strength of space charge in a charged particle beam)
Pi π π=Cd3.14159 mathematics (ratio of a circle's circumference to its diameter)
Poisson's ratio ν ν=dεtransdεaxial elasticity (load in transverse and longitudinal direction)
Porosity ϕ ϕ=VVVT geology, porous media (void fraction of the medium)
Power factor P/S electronics (real power to apparent power)
Power number Np Np=Pρn3d5 electronics (power consumption by agitators; resistance force versus inertia force)
Prandtl number Pr Pr=να=cpμk heat transfer (ratio of viscous diffusion rate over thermal diffusion rate)
Prater number β β=ΔHrDTAeCASλeTs reaction engineering (ratio of heat evolution to heat conduction within a catalyst pellet)[23]
Pressure coefficient CP Cp=pp12ρV2 aerodynamics, hydrodynamics (pressure experienced at a point on an airfoil; dimensionless pressure variable)
Q factor Q physics, engineering (damping of oscillator or resonator; energy stored versus energy lost)
Radian measure rad arc length/radius mathematics (measurement of planar angles, 1 radian = 180/π degrees)
Rayleigh number Ra Rax=gβνα(TsT)x3 heat transfer (buoyancy versus viscous forces in free convection)
Refractive index n n=cv electromagnetism, optics (speed of light in a vacuum over speed of light in a material)
Relative density RD RD=ρsubstanceρreference hydrometers, material comparisons (ratio of density of a material to a reference material—usually water)
Relative permeability μr μr=μμ0 magnetostatics (ratio of the permeability of a specific medium to free space)
Relative permittivity εr εr=CxC0 electrostatics (ratio of capacitance of test capacitor with dielectric material versus vacuum)
Reynolds number Re Re=vLρμ fluid mechanics (ratio of fluid inertial and viscous forces)[5]
Richardson number Ri Ri=ghu2=1Fr2 fluid dynamics (effect of buoyancy on flow stability; ratio of potential over kinetic energy)[24]
Rockwell scale mechanical hardness (indentation hardness of a material)
Rolling resistance coefficient Crr Crr=FNf vehicle dynamics (ratio of force needed for motion of a wheel over the normal force)
Roshko number Ro Ro=fL2ν=StRe fluid dynamics (oscillating flow, vortex shedding)
Rossby number Ro Ro=ULf geophysics (ratio of inertial to Coriolis force)
Rouse number P or Z P=wsκu* sediment transport (ratio of the sediment fall velocity and the upwards velocity of grain)
Schmidt number Sc Sc=νD mass transfer (viscous over molecular diffusion rate)[25]
Shape factor H H=δ*θ boundary layer flow (ratio of displacement thickness to momentum thickness)
Sherwood number Sh Sh=KLD mass transfer (forced convection; ratio of convective to diffusive mass transport)
Shields parameter τ* or θ τ=τ(ρsρ)gD sediment transport (threshold of sediment movement due to fluid motion; dimensionless shear stress)
Sommerfeld number S S=(rc)2μNP hydrodynamic lubrication (boundary lubrication)[26]
Specific gravity SG (same as Relative density)
Stanton number St St=hcpρV=NuRePr heat transfer and fluid dynamics (forced convection)
Stefan number Ste Ste=cpΔTL phase change, thermodynamics (ratio of sensible heat to latent heat)
Stokes number Stk or Sk Stk=τUodc particles suspensions (ratio of characteristic time of particle to time of flow)
Strain ϵ ϵ=FX1 materials science, elasticity (displacement between particles in the body relative to a reference length)
Strouhal number St or Sr St=ωLv fluid dynamics (continuous and pulsating flow; nondimensional frequency)[27]
Stuart number N N=B2LcσρU=Ha2Re magnetohydrodynamics (ratio of electromagnetic to inertial forces)
Taylor number Ta Ta=4Ω2R4ν2 fluid dynamics (rotating fluid flows; inertial forces due to rotation of a fluid versus viscous forces)
Ursell number U U=Hλ2h3 wave mechanics (nonlinearity of surface gravity waves on a shallow fluid layer)
Vadasz number Va Va=ϕPrDa porous media (governs the effects of porosity ϕ, the Prandtl number and the Darcy number on flow in a porous medium) [28]
van 't Hoff factor i i=1+α(n1) quantitative analysis (Kf and Kb)
Wallis parameter j* j*=R(ωρμ)12 multiphase flows (nondimensional superficial velocity)[29]
Weaver flame speed number Wea Wea=wwH100 combustion (laminar burning velocity relative to hydrogen gas)[30]
Weber number We We=ρv2lσ multiphase flow (strongly curved surfaces; ratio of inertia to surface tension)
Weissenberg number Wi Wi=γ˙λ viscoelastic flows (shear rate times the relaxation time)[31]
Womersley number α α=R(ωρμ)12 biofluid mechanics (continuous and pulsating flows; ratio of pulsatile flow frequency to viscous effects)[32]

See also

References

43 year old Petroleum Engineer Harry from Deep River, usually spends time with hobbies and interests like renting movies, property developers in singapore new condominium and vehicle racing. Constantly enjoys going to destinations like Camino Real de Tierra Adentro.

External links

Template:NonDimFluMech

  1. Template:Cite web
  2. Template:Cite web
  3. Template:Cite web
  4. One of the biggest reasons investing in a Singapore new launch is an effective things is as a result of it is doable to be lent massive quantities of money at very low interest rates that you should utilize to purchase it. Then, if property values continue to go up, then you'll get a really high return on funding (ROI). Simply make sure you purchase one of the higher properties, reminiscent of the ones at Fernvale the Riverbank or any Singapore landed property Get Earnings by means of Renting

    In its statement, the singapore property listing - website link, government claimed that the majority citizens buying their first residence won't be hurt by the new measures. Some concessions can even be prolonged to chose teams of consumers, similar to married couples with a minimum of one Singaporean partner who are purchasing their second property so long as they intend to promote their first residential property. Lower the LTV limit on housing loans granted by monetary establishments regulated by MAS from 70% to 60% for property purchasers who are individuals with a number of outstanding housing loans on the time of the brand new housing purchase. Singapore Property Measures - 30 August 2010 The most popular seek for the number of bedrooms in Singapore is 4, followed by 2 and three. Lush Acres EC @ Sengkang

    Discover out more about real estate funding in the area, together with info on international funding incentives and property possession. Many Singaporeans have been investing in property across the causeway in recent years, attracted by comparatively low prices. However, those who need to exit their investments quickly are likely to face significant challenges when trying to sell their property – and could finally be stuck with a property they can't sell. Career improvement programmes, in-house valuation, auctions and administrative help, venture advertising and marketing, skilled talks and traisning are continuously planned for the sales associates to help them obtain better outcomes for his or her shoppers while at Knight Frank Singapore. No change Present Rules

    Extending the tax exemption would help. The exemption, which may be as a lot as $2 million per family, covers individuals who negotiate a principal reduction on their existing mortgage, sell their house short (i.e., for lower than the excellent loans), or take part in a foreclosure course of. An extension of theexemption would seem like a common-sense means to assist stabilize the housing market, but the political turmoil around the fiscal-cliff negotiations means widespread sense could not win out. Home Minority Chief Nancy Pelosi (D-Calif.) believes that the mortgage relief provision will be on the table during the grand-cut price talks, in response to communications director Nadeam Elshami. Buying or promoting of blue mild bulbs is unlawful.

    A vendor's stamp duty has been launched on industrial property for the primary time, at rates ranging from 5 per cent to 15 per cent. The Authorities might be trying to reassure the market that they aren't in opposition to foreigners and PRs investing in Singapore's property market. They imposed these measures because of extenuating components available in the market." The sale of new dual-key EC models will even be restricted to multi-generational households only. The models have two separate entrances, permitting grandparents, for example, to dwell separately. The vendor's stamp obligation takes effect right this moment and applies to industrial property and plots which might be offered inside three years of the date of buy. JLL named Best Performing Property Brand for second year running

    The data offered is for normal info purposes only and isn't supposed to be personalised investment or monetary advice. Motley Fool Singapore contributor Stanley Lim would not personal shares in any corporations talked about. Singapore private home costs increased by 1.eight% within the fourth quarter of 2012, up from 0.6% within the earlier quarter. Resale prices of government-built HDB residences which are usually bought by Singaporeans, elevated by 2.5%, quarter on quarter, the quickest acquire in five quarters. And industrial property, prices are actually double the levels of three years ago. No withholding tax in the event you sell your property. All your local information regarding vital HDB policies, condominium launches, land growth, commercial property and more

    There are various methods to go about discovering the precise property. Some local newspapers (together with the Straits Instances ) have categorised property sections and many local property brokers have websites. Now there are some specifics to consider when buying a 'new launch' rental. Intended use of the unit Every sale begins with 10 p.c low cost for finish of season sale; changes to 20 % discount storewide; follows by additional reduction of fiftyand ends with last discount of 70 % or extra. Typically there is even a warehouse sale or transferring out sale with huge mark-down of costs for stock clearance. Deborah Regulation from Expat Realtor shares her property market update, plus prime rental residences and houses at the moment available to lease Esparina EC @ Sengkang
  5. 5.0 5.1 5.2 Template:Cite web
  6. Bagnold number
  7. One of the biggest reasons investing in a Singapore new launch is an effective things is as a result of it is doable to be lent massive quantities of money at very low interest rates that you should utilize to purchase it. Then, if property values continue to go up, then you'll get a really high return on funding (ROI). Simply make sure you purchase one of the higher properties, reminiscent of the ones at Fernvale the Riverbank or any Singapore landed property Get Earnings by means of Renting

    In its statement, the singapore property listing - website link, government claimed that the majority citizens buying their first residence won't be hurt by the new measures. Some concessions can even be prolonged to chose teams of consumers, similar to married couples with a minimum of one Singaporean partner who are purchasing their second property so long as they intend to promote their first residential property. Lower the LTV limit on housing loans granted by monetary establishments regulated by MAS from 70% to 60% for property purchasers who are individuals with a number of outstanding housing loans on the time of the brand new housing purchase. Singapore Property Measures - 30 August 2010 The most popular seek for the number of bedrooms in Singapore is 4, followed by 2 and three. Lush Acres EC @ Sengkang

    Discover out more about real estate funding in the area, together with info on international funding incentives and property possession. Many Singaporeans have been investing in property across the causeway in recent years, attracted by comparatively low prices. However, those who need to exit their investments quickly are likely to face significant challenges when trying to sell their property – and could finally be stuck with a property they can't sell. Career improvement programmes, in-house valuation, auctions and administrative help, venture advertising and marketing, skilled talks and traisning are continuously planned for the sales associates to help them obtain better outcomes for his or her shoppers while at Knight Frank Singapore. No change Present Rules

    Extending the tax exemption would help. The exemption, which may be as a lot as $2 million per family, covers individuals who negotiate a principal reduction on their existing mortgage, sell their house short (i.e., for lower than the excellent loans), or take part in a foreclosure course of. An extension of theexemption would seem like a common-sense means to assist stabilize the housing market, but the political turmoil around the fiscal-cliff negotiations means widespread sense could not win out. Home Minority Chief Nancy Pelosi (D-Calif.) believes that the mortgage relief provision will be on the table during the grand-cut price talks, in response to communications director Nadeam Elshami. Buying or promoting of blue mild bulbs is unlawful.

    A vendor's stamp duty has been launched on industrial property for the primary time, at rates ranging from 5 per cent to 15 per cent. The Authorities might be trying to reassure the market that they aren't in opposition to foreigners and PRs investing in Singapore's property market. They imposed these measures because of extenuating components available in the market." The sale of new dual-key EC models will even be restricted to multi-generational households only. The models have two separate entrances, permitting grandparents, for example, to dwell separately. The vendor's stamp obligation takes effect right this moment and applies to industrial property and plots which might be offered inside three years of the date of buy. JLL named Best Performing Property Brand for second year running

    The data offered is for normal info purposes only and isn't supposed to be personalised investment or monetary advice. Motley Fool Singapore contributor Stanley Lim would not personal shares in any corporations talked about. Singapore private home costs increased by 1.eight% within the fourth quarter of 2012, up from 0.6% within the earlier quarter. Resale prices of government-built HDB residences which are usually bought by Singaporeans, elevated by 2.5%, quarter on quarter, the quickest acquire in five quarters. And industrial property, prices are actually double the levels of three years ago. No withholding tax in the event you sell your property. All your local information regarding vital HDB policies, condominium launches, land growth, commercial property and more

    There are various methods to go about discovering the precise property. Some local newspapers (together with the Straits Instances ) have categorised property sections and many local property brokers have websites. Now there are some specifics to consider when buying a 'new launch' rental. Intended use of the unit Every sale begins with 10 p.c low cost for finish of season sale; changes to 20 % discount storewide; follows by additional reduction of fiftyand ends with last discount of 70 % or extra. Typically there is even a warehouse sale or transferring out sale with huge mark-down of costs for stock clearance. Deborah Regulation from Expat Realtor shares her property market update, plus prime rental residences and houses at the moment available to lease Esparina EC @ Sengkang
  8. One of the biggest reasons investing in a Singapore new launch is an effective things is as a result of it is doable to be lent massive quantities of money at very low interest rates that you should utilize to purchase it. Then, if property values continue to go up, then you'll get a really high return on funding (ROI). Simply make sure you purchase one of the higher properties, reminiscent of the ones at Fernvale the Riverbank or any Singapore landed property Get Earnings by means of Renting

    In its statement, the singapore property listing - website link, government claimed that the majority citizens buying their first residence won't be hurt by the new measures. Some concessions can even be prolonged to chose teams of consumers, similar to married couples with a minimum of one Singaporean partner who are purchasing their second property so long as they intend to promote their first residential property. Lower the LTV limit on housing loans granted by monetary establishments regulated by MAS from 70% to 60% for property purchasers who are individuals with a number of outstanding housing loans on the time of the brand new housing purchase. Singapore Property Measures - 30 August 2010 The most popular seek for the number of bedrooms in Singapore is 4, followed by 2 and three. Lush Acres EC @ Sengkang

    Discover out more about real estate funding in the area, together with info on international funding incentives and property possession. Many Singaporeans have been investing in property across the causeway in recent years, attracted by comparatively low prices. However, those who need to exit their investments quickly are likely to face significant challenges when trying to sell their property – and could finally be stuck with a property they can't sell. Career improvement programmes, in-house valuation, auctions and administrative help, venture advertising and marketing, skilled talks and traisning are continuously planned for the sales associates to help them obtain better outcomes for his or her shoppers while at Knight Frank Singapore. No change Present Rules

    Extending the tax exemption would help. The exemption, which may be as a lot as $2 million per family, covers individuals who negotiate a principal reduction on their existing mortgage, sell their house short (i.e., for lower than the excellent loans), or take part in a foreclosure course of. An extension of theexemption would seem like a common-sense means to assist stabilize the housing market, but the political turmoil around the fiscal-cliff negotiations means widespread sense could not win out. Home Minority Chief Nancy Pelosi (D-Calif.) believes that the mortgage relief provision will be on the table during the grand-cut price talks, in response to communications director Nadeam Elshami. Buying or promoting of blue mild bulbs is unlawful.

    A vendor's stamp duty has been launched on industrial property for the primary time, at rates ranging from 5 per cent to 15 per cent. The Authorities might be trying to reassure the market that they aren't in opposition to foreigners and PRs investing in Singapore's property market. They imposed these measures because of extenuating components available in the market." The sale of new dual-key EC models will even be restricted to multi-generational households only. The models have two separate entrances, permitting grandparents, for example, to dwell separately. The vendor's stamp obligation takes effect right this moment and applies to industrial property and plots which might be offered inside three years of the date of buy. JLL named Best Performing Property Brand for second year running

    The data offered is for normal info purposes only and isn't supposed to be personalised investment or monetary advice. Motley Fool Singapore contributor Stanley Lim would not personal shares in any corporations talked about. Singapore private home costs increased by 1.eight% within the fourth quarter of 2012, up from 0.6% within the earlier quarter. Resale prices of government-built HDB residences which are usually bought by Singaporeans, elevated by 2.5%, quarter on quarter, the quickest acquire in five quarters. And industrial property, prices are actually double the levels of three years ago. No withholding tax in the event you sell your property. All your local information regarding vital HDB policies, condominium launches, land growth, commercial property and more

    There are various methods to go about discovering the precise property. Some local newspapers (together with the Straits Instances ) have categorised property sections and many local property brokers have websites. Now there are some specifics to consider when buying a 'new launch' rental. Intended use of the unit Every sale begins with 10 p.c low cost for finish of season sale; changes to 20 % discount storewide; follows by additional reduction of fiftyand ends with last discount of 70 % or extra. Typically there is even a warehouse sale or transferring out sale with huge mark-down of costs for stock clearance. Deborah Regulation from Expat Realtor shares her property market update, plus prime rental residences and houses at the moment available to lease Esparina EC @ Sengkang
  9. Template:Cite doi
  10. Bond number
  11. http://www.onepetro.org/mslib/servlet/onepetropreview?id=00020506
  12. Courant–Friedrich–Levy number
  13. 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.

    My blog: http://www.primaboinca.com/view_profile.php?userid=5889534
  14. Fanning friction factor
  15. Feigenbaum constants
  16. Fresnel number
  17. Gain Ratio - Sheldon Brown
  18. 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.

    My blog: http://www.primaboinca.com/view_profile.php?userid=5889534
  19. Template:Cite doi
  20. Lockhart–Martinelli parameter
  21. Is a upcoming condominium situated within the neighbourhood of Hillview The Singapore authorities has put in place a brand new subsidised pancreas transplant programme (Thinkstock picture). In the latest effort to spur funding in blighted areas of one of the city's poorest neighborhoods, Chicago plans to promote several hundred properties for the worth of a sweet bar.

    When clients ask concerning the subsequent batch of items for launch, gross sales representatives might hint that subsequent phases will supply items with poorer view or lower high quality finishings, even if they are offered at greater prices. Tempted patrons are often unaware that the value of those goodies can easily be offset by a slight drop in the property's market worth. It is due to this fact more sensible to get an immediate discount off the listing worth. Ask the gross sales consultant the estimated value of that branded equipment or furnishing package, then request for a direct deduction from the unit's asking price in lieu of the developer's goodie. December 4, 2013 by iskandarinsider November four, 2013 by iskandarinsider October 23, 2013 by iskandarinsider

    With elevated accessibility from the northern a part of Singapore via the two new MRT stations, Woodlands North MRT Station and Woodlands South MRT Station , along with the longer term North South Expressway NSE, that will link Woodlands, Sembawang and Yishun to the city, journey could be made easier. To qualify for the "Giant Lot Program," applicants should already personal property on the identical block as the lot they wish to buy; they have to also be present on property taxes, have no financial obligations to the town (like water bills or parking tickets) and should tell the city how they plan to make use of the property, DNAinfo Chicago experiences. New Condo Trilinq @ Clementi New Condominium La fiesta @ Sengkang MRT Expertise Guru Property's tantalizing new property launch! And the Web site

    The Brilliant Hill Drive condominium is an exciting upcoming development in Higher Thomson space by UVD Pte Ltd, a joint venture between Singapore Land and UOL Group Restricted. Located alongside Vibrant Hill Drive, this site is well located with close proximity to Thomson Plaza and the longer term Upper Thomson MRT. Get pleasure from a inexperienced and wholesome life-style with visits to MacRitchie Reservoir, Lower Peirce Reservoir, Bishan Park and Singapore Island Golf Course which are simply minutes' drive away

    Whereas every effort has been made to ensure that all information displayed herein are correct and full, the information are indicative somewhat than definitive. Thus its accuracy, whether or not express or implicit, isn't assured and to the fullest extent permitted by relevant legal guidelines. The Creator/Developer/Huttons Actual Estate Group does not accept duty for any errors, inaccuracies, omissions or for any loss which could result immediately or indirectly from reliance on the content herein. The Creator also reserves the right to right or replace the content at any time with out prior notification. Customers are advised to contact the advertiser for any clarifications or newest updates.

    MAS agrees that it is crucial for banks to make use of valuations which are reflective of precise property values. We anticipate banks to adopt sound valuation processes. These embrace partaking independent valuers from corporations that aren't concerned within the property transaction as sales brokers or consultants, allocating valuation assignments randomly or on a rotational foundation, obtaining multiple valuations for every property, and checking that the valuations are cheap.

    residences and penthouses. Fashionable interiors and quality designer fittings. Excellent recreational amenities. You can start by having a correct dialogue with individuals near you about investing on a family. This can normally lead you to 2 most important questions; what are the benefits of investing on a new apartment and the way you are going to find the perfect individual that can assist you in investing. The Venue Residences to Stay, Store and Dine, a luxurious mixeddevelopment by CDL in preparation for launch now. Looking for registrationof curiosity. TheMidtown is a mixed improvement near Hougang MRT. It's ex-Hougang Plazaand will comprise of residences constructed above business shops, duplexrestaurants and buying a property in singapore grocery store. VVIP Preview Quickly! Register Now. Late 2012, Probably 2013
  22. Template:Cite doi
  23. 20 year-old Real Estate Agent Rusty from Saint-Paul, has hobbies and interests which includes monopoly, property developers in singapore and poker. Will soon undertake a contiki trip that may include going to the Lower Valley of the Omo.

    My blog: http://www.primaboinca.com/view_profile.php?userid=5889534
  24. Richardson number
  25. Schmidt number
  26. Sommerfeld number
  27. Strouhal number, Engineering Toolbox
  28. Template:Cite doi
  29. Template:Cite doi
  30. Template:Cite doi
  31. Weissenberg number
  32. Womersley number