lojbo jufsisku
Lojban sentence search

Total: 89 result(s)
lujvo b1=j1 comes to the conclusion that j2 [opinion] (du'u) is true about subject/issue j3 on grounds j4, under conditions b3. Cf. jinvi, binxo, lojycpa, ja'o.
lujvo b1=z1 sits down on surface z2. Cf. zutse, binxo, cfatse, nitytse. Simple zutse refers to the act of sitting, whereas tsebi'o means the act of becoming seated.
lujvo xa2=b1=m1 is adolescent/pubescent/in puberty/maturing in physical/bodily development-quality m2 (ka). Cf. xadni, binxo, makcu, bixma'u, bavyfarvi, citnau. Between prepubescent child and post-pubescent adult.
lujvo x1=b1=m1=t1 finishes reading what is expressed by x2=c1=t2 to x3=c3 in medium x4=c4=t3, by completion standard x5=m3, under conditions x6=b3. See also cusku, tcidu, mulno, binxo.
gismu rafsi: tik x1 (event) adjusts/regulates/changes x2 (ka/ni) in amount/degree x3. Non-resultative, causal change; agentive adjust (= tikygau, tikyzu'e). See also cenba which need not be causal, galfi which is causal and resultative, binxo which need not be causal but is resultative, zasni, stodi.
gismu rafsi: zas x1 is temporary/not permanent/expected to change in property x2 (ka) by standard/expectant x3. Also transient. See also vitno, stodi, cenba, galfi, binxo, stika, stali, tcini, vitke.
gismu rafsi: cne x1 varies/changes in property/quantity x2 (ka/ni) in amount/degree x3 under conditions x4. Non-resultative, not-necessarily causal change. (cf. cenba which is non-resultative, galfi which is resultative and causal, stika which is non-resultative and causal; stodi, zasni, binxo)
lujvo x1 becomes incapable of writing characters x2 of alphabet/writing system x3, which is reflects chinese culture/languge/etc. in aspect x4 and which represent x5, on writing surface/medium x6 with writing implement x7 under conditions of being incapable x8 under conditions of becoming incapable x9, as a result of x1 making excessive use of x10 which is a computer for purpose x11 or x12 which is a phone connected to network x13, used for purpose x14, excessive by amount x15. The two "under conditions" places arise from the incorporation of both kakne and binxo. They are not to be confused. Ilmen inspired the creation of this lujvo.
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.