-i (#) [various possibilities]
Fr.: [various possibilities]
A native English suffix attached to adjectives and participles, forming abstract nouns denoting quality and state, such as brightness, cloudiness, compactness, skewness, and so on.
M.E., O.E. -nes(s), cf. M.Du. -nisse, O.H.G. -nissa, Ger. -niss.
-dât, -dâti, -šenâsi, -nâmusi
From Gk. -nomia "law," from nomos, related to nemein "to distribute, allot, arrange."
Dât, dâd "law, justice;" dâti, from Mid.Pers. dâtik, dâdig "related to law, legal," from from O.Pes./Av. dāta- "law," from dā- "to put, make, create;" cf. Skt. dhā- "to put, to place;" Gk. tithemi "to put down, to place;" L. fecit "made;" E. do, deed; PIE *dhe- "to put, to place;" -ik, → ics; -šenâsi, → -logy; -nâmusi, from nâmus loan from Gk. -nomos, as above.
Fr.: problème de n-corps
The mathematical problem of studying the behavior (e.g., velocities, positions) of any number of objects moving under their mutual gravitational attraction for any time in the past or future. Same as the → many-body problem.
hâzandegi-ye gune-ye n
Fr.: conductivité de type n
The conductivity in a semiconductor caused by a flow of electrons, whereas p-type conductivity is caused by a flow of holes.
The largest and the most luminous → H II region in the → Small Magellanic Cloud, which contains the prominent OB star cluster → NGC 346. N66 has a diameter of about 7 arcmin on the sky corresponding to about 120 pc for a distance of about 60 kpc. Compared with the → Orion Nebula, N66 has an Hα luminosity almost 60 times higher.
Serial number in the Henize (1956) catalog, more precisely designated as LHA 115-N66.
Na I D-line
xatt-e D-ye Na I
Fr.: raie D de Na I
→ D line.
The mathematical symbol for the → del operator.
From Gk. nabla an ancient stringed instrument, triangular in shape and held like a harp, thus of the shape of ∇.
The point on the celestial sphere
blocked from view by Earth and diametrically opposite to the
→ zenith (
From M.L. nadir, from Ar. nazir "opposite to," contraction of
nazir as-samt (
Pâsu, literally "direction of the foot," from pâ "foot, step" (from Mid.Pers. pâd, pây; Khotanese fad; Av. pad- "foot;" cf. Skt. pat; Gk. pos, genitive podos; L. pes, genitive pedis; P.Gmc. *fot; E. foot; Ger. Fuss; Fr. pied; PIE *pod-/*ped-) + su "direction, side" (from Mid.Pers. sôk "direction, side").
O.E. nacod "nude;" cf. M.Du. naket, Du. naakt, Ger. nackt, cognate with Pers. berehné, as below, , from PIE base *negw-no- "naked."
Berehné, from Mid.Pers. brahnag (with secondary -r-) "naked;" Av. maγna- "naked;" cf. Skt. nagná- "naked;" Gk. gumnos "naked;" L. nudus "naked;" Arm. merk "naked;" Lith. nuogas "naked;"
cašm-e berehné (#)
Fr.: œil nu
The qualifier of an eye which is not assisted by any optical device, except for eyeglasses. Same as → unaided eye.
takini-ye berehné (#)
Fr.: singularité nue
A singularity that is not surrounded by an event horizon. It will therefore be visible and communicable to the outside world.
setâre-ye cašm-e berehné
Fr.: étoile visible à l'œil nu
A star visible without a telescope. In principle, stars down to about sixth magnitude are visible to the naked eye under ideal conditions, but this depends on the individual, the location, and the conditions of the observation.
A word or term by which somebody or something is commonly and distinctively known.
M.E., from O.E. nama; cf. O.H.G. namo, Ger. Name, Du. naam, Goth. namo "name;" cognate with Pers. nâm, as below.
Nâm "name;" Mid.Pers. nâm; O.Pers./Av. nâman-; cf. Skt. nama-; Gk. onoma, onuma; L. nomen; PIE *nomen-.
A prefix denoting 10-9.
Combining form of Gk nanos "dwarf."
The most stable carbon compound with an average particle size of about 5 → nanometers (50 Å). Nanodiamonds are synthesized by detonation of → T.N.T. and then gathering the soot that remains from the explosion.
A unit of length equal to 10-9 m, or 10 Å.
The size range from approximately 1 → nanometer (nm) to 100 nm.
The science and technology of producing and exploiting structures and systems at dimensions of roughly 1 to 100 → nanometers, that is those of single atoms and molecules. Materials with such minute structures possess mechanical, optical, chemical, magnetic or electronic properties not found in ordinary materials.