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

• AmountFraction  + (AmountFraction)
• AmountFractionUnit  + (AmountFractionUnit)
• AmountOfSubstance  + (AmountOfSubstance)
• AmountPerAreaTimeUnit  + (AmountPerAreaTimeUnit)
• AmountPerAreaUnit  + (AmountPerAreaUnit)
• AmountPerMassPressureUnit  + (AmountPerMassPressureUnit)
• AmountPerMassTimeUnit  + (AmountPerMassTimeUnit)
• AmountPerMassUnit  + (AmountPerMassUnit)
• AmountPerVolumeTimeUnit  + (AmountPerVolumeTimeUnit)
• AmountSquareTimePerMassVolumeUnit  + (AmountSquareTimePerMassVolumeUnit)
• AmountTemperatureUnit  + (AmountTemperatureUnit)
• AmountUnit  + (AmountUnit)
• Ampere  + (Ampere)
• AmperePerSquareMetreSquareKelvin  + (Ampere per square metre and square Kelvin.)
• AmperePerCentiMetre  + (AmperePerCentiMetre)
• AmperePerDegreeCelsius  + (AmperePerDegreeCelsius)
• AmperePerGram  + (AmperePerGram)
• AmperePerJoule  + (AmperePerJoule)
• AmperePerMetre  + (AmperePerMetre)
• AmperePerMilliMetre  + (AmperePerMilliMetre)
• AmperePerRadian  + (AmperePerRadian)
• AmperePerSquareCentiMetre  + (AmperePerSquareCentiMetre)
• AmperePerSquareMetre  + (AmperePerSquareMetre)
• AmperePerSquareMetreSquareKelvin  + (AmperePerSquareMetreSquareKelvin)
• AmperePerSquareMilliMetre  + (AmperePerSquareMilliMetre)

• AmpereSecond  + (AmpereSecond)

• AmpereSquareMetre  + (AmpereSquareMetre)
• AmpereSquareMetrePerJouleSecond  + (AmpereSquareMetrePerJouleSecond)
• Amperometry  + (Amperometry)
• Amperometry  + (Amperometry)
• Amperometry  + (Amperometry can be distinguished from volt … Amperometry can be distinguished from voltammetry by the parameter being controlled (electrode potential E) and the parameter being measured (electrode current I which is usually a function of time – see chronoamperometry). In a non-stirred solution, a diffusion-limited current is usually measured, which is propor-tional to the concentration of an electroactive analyte. The current is usually faradaic and the applied potential is usually constant. The integral of current with time is the electric charge, which may be related to the amount of substance reacted by Faraday’s laws of electrolysis. The amperometric method provides the ability to distinguish selectively between a number of electroactive species in solution by judicious selection of the applied potential and/or choice of electrode material.ntial and/or choice of electrode material.)
• Chronoamperometry  + (Amperometry in which the current is measur … Amperometry in which the current is measured as a function of time after a change in the applied potential. If the potential step is from a potential at which no current flows (i.e., at which the oxidation or reduction of the electrochemically active species does not take place) to one at which the current is limited by diffusion (see diffusion-limited current), the current obeys the Cottrell equation., the current obeys the Cottrell equation.)
• AmphotericCompound  + (AmphotericCompound)
• AmplitudeOfAlternatingCurrent  + (AmplitudeOfAlternatingCurrent)
• AmplitudeOfAlternatingVoltage  + (AmplitudeOfAlternatingVoltage)
• NominalProperty  + (An 'ObjectiveProperty' that cannot be quantified.)
• Sign  + (An 'Physical' that is used as sign ("semeion" in greek) that stands for another 'Physical' through an semiotic process.)
• PhysicsEquation  + (An 'equation' that stands for a 'physical_law' by mathematically defining the relations between physics_quantities.)
• MaterialRelation  + (An 'equation' that stands for a physical assumption specific to a material, and provides an expression for a 'physics_quantity' (the dependent variable) as function of other variables, physics_quantity or data (independent variables).)
• Determiner  + (An 'interpreter' that perceives another 'entity' (the 'object') through a specific perception mechanism and produces a 'property' (the 'sign') that stands for the result of that particular perception.)
• Measurement  + (An 'observation' that results in a quantitative comparison of a 'property' of an 'object' with a standard reference based on a well defined mesurement procedure.)
• Simon Clark  + (An American-Norwegian Scientist. Dr. Clark works on battery digitalization topics and is a leader in European battery research policy and coordination groups. He is currently employed as a Senior Research Scientist at SINTEF.)
• AttoCoulomb  + (An AttoColomb is 10⁻¹⁸ C. -- QUDT)
• EMIRI General Assembly  + (An EMIRI event)
• SENSIBAT  + (An EU Horizon 2020 research project and part of the Batterey2030+ initiative)
• BIG-MAP  + (An EU Horizon 2020 research project and part of the Batterey2030+ initiative)
• INSTABAT  + (An EU Horizon 2020 research project and part of the Batterey2030+ initiative)
• SPARTACUS  + (An EU Horizon 2020 research project and part of the Batterey2030+ initiative)
• HYDRA  + (An EU Horizon 2020 research project developing Generation 3b Li-ion batteries)
• HIDDEN  + (An EU Horizon 2020 research project on Self-Healing and part of the Batterey2030+ initiative)
• Bat4Ever  + (An EU Horizon 2020 research project on Self-Healing and part of the Batterey2030+ initiative)