Search by property

This page provides a simple browsing interface for finding entities described by a property and a named value. Other available search interfaces include the page property search, and the ask query builder.

List of results

MolarInternalEnergy + (Internal energy per amount of substance.)
SpecificInternalEnergy + (Internal energy per unit mass.)
Internal pressure (coin cell) + (Internal pressure (coin cell))
Internal pressure (full cell) + (Internal pressure (full cell))
Display title of lowercase + (Internal property that stores the lowercase version of Display_title_of to enable case insensitive search)
Display title of normalized + (Internal property that stores the lowercase version of Display_title_of with all non-alphanumeric chars removed to enable a normalized search)
Internal resistance cell (after formation) + (Internal resistance cell (after formation))
Internal resistance cell (end of test) + (Internal resistance cell (end of test))
InternalApparentResistance + (InternalApparentResistance)
InternalConductance + (InternalConductance)
InternalConversionFactor + (InternalConversionFactor)
InternalEnergy + (InternalEnergy)
InternalResistance + (InternalResistance)
InternalTask + (InternalTask)
International System of Quantities (ISQ) + (International System of Quantities (ISQ))
InternationalSystemOfQuantity + (InternationalSystemOfQuantity)
Interphase + (Interphase)
InterphaseGrowth + (InterphaseGrowth)
Interpretant + (Interpretant)
Interpreter + (Interpreter)
InterpreterByReferent + (Interpreter classified by how the sign stands for its reference object.)
InterpreterByReferent + (InterpreterByReferent)
IntrinsicCarrierDensity + (IntrinsicCarrierDensity)
Intro to OSL infobox.png + (Intro to OSL infobox.png)
Elementary Multiperspective Material Ontology + (Introduces the fundamental mereocausal (an … Introduces the fundamental mereocausal (and mereotopological) concepts of EMMO and their relations with the real world entities that they represent. EMMO uses mereocausality as the ground for all the subsequent ontology modules.</br>The concept of causal connection is used to distinguish between ontology entities: items are causally self-connected objects, while collections are causally disconnected.</br>Quantum mereology is based on the concept of quantum entity.</br>This module introduces also the fundamental mereotopological relations used to distinguish between space and time dimensions, making spacetime emerge from underlying network of causal relations between quantum entities.causal relations between quantum entities.)

Admittance + (Inverse of the impendance.)

JosephsonConstant + (Inverse of the magnetic flux quantum.)
LossFactor + (Inverse of the quality factor.)
Curvature + (Inverse of the radius of curvature.)
Permeance + (Inverse of the reluctance.)
DampingCoefficient + (Inverse of the time constant of an exponentially varying quantity.)
InversePermittivityUnit + (InversePermittivityUnit)
InverseSquareMassUnit + (InverseSquareMassUnit)
Ionic Liquids Technologies + (IoLiTec)
Iodine + (Iodine)
IodineAtom + (IodineAtom)
IodineSymbol + (IodineSymbol)
Ion + (Ion)
Ion Chromatography (IC) + (Ion Chromatography (IC))
IonChromatography + (Ion chromatography (or ion-exchange chromatography) is a form of chromatography that separates ions and ionizable polar molecules based on their affinity to the ion exchanger.)
IonMobilitySpectrometry + (Ion mobility spectrometry (IMS) It is a me … Ion mobility spectrometry (IMS) It is a method of conducting analytical research that separates and identifies ionized molecules present in the gas phase based on the mobility of the molecules in a carrier buffer gas. Even though it is used extensively for military or security objectives, such as detecting drugs and explosives, the technology also has many applications in laboratory analysis, including studying small and big biomolecules. IMS instruments are extremely sensitive stand-alone devices, but are often coupled with mass spectrometry, gas chromatography or high-performance liquid chromatography in order to achieve a multi-dimensional separation. They come in various sizes, ranging from a few millimeters to several meters depending on the specific application, and are capable of operating under a broad range of conditions. IMS instruments such as microscale high-field asymmetric-waveform ion mobility spectrometry can be palm-portable for use in a range of applications including volatile organic compound (VOC) monitoring, biological sample analysis, medical diagnosis and food quality monitoring.cal diagnosis and food quality monitoring.)
IonActivity + (IonActivity)
IonAtom + (IonAtom)
IonChromatography + (IonChromatography)
IonConcentration + (IonConcentration)
IonExchangeMembrane + (IonExchangeMembrane)
IonMobilitySpectrometry + (IonMobilitySpectrometry)
IonNumberDensity + (IonNumberDensity)
IonTransportNumber + (IonTransportNumber)
Ionic Liquids Technologies + (Ionic Liquids Technologies)
IonicConductivity + (IonicConductivity)