lojbo jufsisku
Lojban sentence search

Total: 13 result(s)
cidro
gismu rafsi: dro x1 is a quantity of/contains/is made of hydrogen (H); [metaphor: light, flammable]. See also gapci, xukmi.
cidro
Hydrogen
lo cidro cu linto traji se ratni
Hydrogen is the lightest element.
lo kijno joi lo cidro cu se gunma lo djacu
Oxygen and hydrogen make water.
lo ratni be lo cidro cu picti lo mitre be li re mu lo ka klani ma kau
The atom of hydrogen is 25 picometers in size.
cmuxu'i
lujvo x1 is an element of kind x2 with purity x3. Cf. xumsle, ratni, jinme, trano, cidro, navni.
dropanra zei ionti
zei-lujvo x1 is a hydrogenic ion of element/isotope x2; x1 is isoelectronic to/with hydrogen; x1 is an x2 atom with exactly one electron The charge of the atom is given by its element number minus one. See also: cidro, ionti
nikyjoijimjoibordrokemdicysro
lujvo s1 is a nickel–metal hydride battery in containment s3. See also nikyjinme, jinme, cidro, dicysro.
xukmi
gismu rafsi: xum xu'i x1 is an instance of substance/chemical/drug x2 (individual or mass) with purity x3. See also curve, cidro, marna, nimre.
gapci
gismu rafsi: gac x1 is gaseous/fumes/a gas/vapor of material/composition including x2, under conditions x3. x3 includes temperature and pressure. See also pambe, vacri, litki, sligu, danmo, bumru, cidro, flecu.
rakle
experimental gismu x1 is an atomic element in group x2 [usually, vertical column; denotes electron configuration and, thereby, chemical similarity with vertical neighbors] and period x3 [usually, horizontal row; denotes similarity in size with horizontal neighbors, as well as having the same number and type of electron shells as them] and belonging to other 'class'/'category'/'type'/having other properties x4 according to scheme/organization pattern/standard/periodic table x5. x4 can be any category of similar elements, such as (but not limited to): metals, conductors, gases (at STP), or those elements which obey some sort of pattern following certain atomic/physical/chemical characteristics (such as first iönization energy, stability of nucleus, abnormalities in electron configuration according to naïve expectations, etc.). Groups may (presently) be hard to name (or unsystematic in such) since the periodic table may be infinitely large such that it is equipped with an infinite number of groups between any two mutually nonidentical groups. For now, use cmevla or brivla for designating groups; optionally, pick a representative member of that group. Periods can be designated similarly or by number (counting by ones from one (being the period containing hydrogen)). See also: ratykle, ratniklesi for non-gismu options; ratni, klesi, navni, kliru, cidro, tabno, kijno, gapci, xukmi
ratniklesi
fu'ivla x1 is an atomic element in group x2 [usually, vertical column; denotes electron configuration and, thereby, chemical similarity with vertical neighbors] and period x3 [usually, horizontal row; denotes similarity in size with horizontal neighbors, as well as having the same number and type of electron shells as them] and belonging to other 'class'/'category'/'type'/having other properties x4 according to scheme/organization pattern/standard/periodic table x5. Non-gismu version of rakle. x4 can be any category of similar elements, such as (but not limited to): metals, conductors, gases (at STP), or those elements which obey some sort of pattern following certain atomic/physical/chemical characteristics (such as first iönization energy, stability of nucleus, abnormalities in electron configuration according to naïve expectations, etc.). Groups may (presently) be hard to name (or unsystematic in such) since the periodic table may be infinitely large such that it is equipped with an infinite number of groups between any two mutually nonidentical groups. For now, use cmevla or brivla for designating groups; optionally, pick a representative member of that group. Periods can be designated similarly or by number (counting by ones from one (being the period containing hydrogen)). See also: rakle, ratykle; ratni, klesi, navni, kliru, cidro, tabno, kijno, gapci, xukmi
xipfne
obsolete fu'ivla x1 emits light characteristic of/is of the color that is described by/(as) arising from/associated with the approximately twenty-one centimeter wavelength, hydrogen hyperfine proton/electron spin-flip transition (from parallel to antiparallel configuration, id est: from the higher energy state to the lower energy state), electromagnetic radiation In analogy to xunre and the like. See also: skari, blabi, xekri, kandi, carmi, nukni, narju, rozgu, zirpu, pelxu, xunre, cidro, lektoni, protoni, dikca, maksi, guska'u, gusni, cradi. This color is a subset/element (depending on interpretation/usage) of the colors associated with light in the radio and microwave regions of the electromagnetic spectrum. Speaker determines how close "approximately twenty-one centimeters" is to exactly twenty-one centimeters. Technically can only be used for the coloration of light that would arise from the hyperfine spin-flip transition of a hydrogen atom (without any neutrons) in which the proton-electron quantum spin configuration abruptly changes from parallel to antiparallel in the 1s groundstate. But other isotopes and/or hydrogenic (id est: single-electron) atoms can be referenced by semantic broadening; note that in any case, this word always refers to the color of the light emitted from such an object. This is a color, not a description of the process, conditions under which the light of this color is emitted, etc., nor is it the light itself nor wavelength of the light. However, this term probably will come up in all such descriptions. For example, "hyperfine spin-flip transition" might be rendered {xipfne binxo}. Technically, any object that emits photons with wavelengths of approximately twenty-one centimeters will be of the color xipfne, regardless of why such emission is occurring (id est: it need not be due to hydrogen hyperfine, proton/electron spin-flip transitions). Usage in such a case is perfectly acceptable. However, in practice, such occasions/contexts will be rare (essentially completely absent except in theory) and the only common usage will be in the context of hydrogen hyperfine proton/electron spin-flip transitions (as in astronomy, chemistry, or quantum mechanics). This is an electromagnetic (id est: light, photon) color. It is physical (being derived from the properties of the wavelength of the emitted and received photon(s)), but is interpreted by some instrument (such as a telescope/camera system, an animal's optical system, etc.). Usage need not be technical.