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  • ¿µ¹®
    ÇѱÛ
  • density sampling
    ¹ÐµµÇ¥º»ÃßÃâ(¹ý)
  • electron density
    ÀüÀڹеµ
  • echogenic density
    ¸Þ¾Æ¸®¹ß»ý¹Ðµµ
  • epitope density
    Ç׿ø°áÁ¤ÀÎÀڹеµ
  • equilibrium density gradient centrifugation
    ÆòÇü¹Ðµµ±â¿ï±â¿ø½É¹ý
  • high density lipoprotein
    °í¹ÐµµÁöÁú´Ü¹éÁú
  • incidence density
    ¹ß»ý¹Ðµµ
  • increased parenchymal density
    ½ÇÁú¹ÐµµÁõ°¡, ½ÇÁúÀ½¿µÁõ°¡
  • innervation density
    ½Å°æºÐÆ÷¹Ðµµ
  • intermediate density lipoprotein
    Á߹еµÁöÁú´Ü¹éÁú
  • interval incidence density
    ±â°£¹ß»ý¹Ðµµ
  • linear density
    ¼±À½¿µ
  • low density lipoprotein
    Àú¹ÐµµÁöÁú´Ü¹éÁú
  • mixed density
    1. È¥Çչеµ 2. È¥ÇÕÀ½¿µ
  • nodular density
    °áÀýÀ½¿µ
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  • ¿µ¹®
    ÇѱÛ
  • density difference
    À½¿µÂ÷
  • density gradient
    ¹Ðµµ±â¿ï±â
  • density sampling
    ¹ÐµµÇ¥º»ÃßÃâ
  • density dependent inhibition
    ¹ÐµµÀÇÁ¸¾ïÁ¦
  • electron density
    ÀüÀڹеµ
  • epitope density
    Ç׿ø°áÁ¤±â¹Ðµµ
  • incidence density
    ¹ß»ý¹Ðµµ
  • innervation density
    ½Å°æºÐÆ÷¹Ðµµ
  • interval incidence density
    ±â°£Æò±Õ¹ß»ý¹Ðµµ
  • linear density
    ¼±À½¿µ
  • mixed density
    È¥Çչеµ
  • nodular density
    °áÀýÀ½¿µ
  • optical density
    Èí±¤µµ
  • pixel density
    È­¼ÒÀ½¿µ, Çȼ¿À½¿µ
  • population density
    Àα¸¹Ðµµ
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  • ¿µ¹®
    ÇѱÛ
  • apparent density
    °Ñº¸±â ¹Ðµµ.
  • grain density
    ÀÔÀÚ<±×·¡ÀÎ>¹Ðµµ.
  • high electron density
    °íÀüÀڹеµ(ÍÔï³í­ÚËöô).
  • high-density lipoprotein
    °í¹ÐµµÁö¹æ´Ü¹é
  • incidence density
    ¹ß»ý ºóµµ
  • innervation density
    ½Å°æÁö¹è¹Ðµµ(¡­ÚËöô).
  • pixel density
    Çȼ¿ À½¿µ, È­¼Ò À½¿µ
  • population density
    Àα¸¹Ðµµ(ÊÙËÑ̬).
  • postsynaptic density
    ¿¬Á¢ÀÌÈÄÄ¡¹ÐÁú
  • presynaptic density
    ¿¬Á¢ÀÌÀüÄ¡¹ÐÁú
  • proton (spin) density
    ¾çÀÚ ¹Ðµµ
  • proton density contrast
    ¾çÀÚ ¹Ðµµ ´ëÁ¶
  • proton density weighted image
    ¾çÀÚ ¹Ðµµ °­Á¶ ¿µ»ó
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  • ¿µ¹®
    ÇѱÛ
  • fringe magnetic field strength
    ÁÖº¯ ÀÚÀå ¼¼±â
  • functional magnetic resonance imaging (fMRI)
    ±â´ÉÀû ÀÚ±â°ø¸í¿µ»ó
  • gradient magnetic coil
    °æ»ç ÀÚ±â ÄÚÀÏ
  • gradient echo technique magnetic susceptibility pro
    °æ»ç ¿¡ÄÚ¹ý ÀÚ±âÈ­À² ¾ç¼ºÀÚ ÀÌ¿Ï Áõ°­
  • gradient magnetic coil
    °æ»ç ÀÚ±â ÄÚÀÏ
  • gradient magnetic field
    °æ»ç ÀÚ±âÀå
  • magnetic bead
    Àڱⱸ½½
  • magnetic coil
    ÀÚ±â(ÀÚ¼º) ÄÚÀÏ
  • magnetic dipole
    ÀÚ±â(ÀÚ¼º) ½Ö±ØÀÚ
  • magnetic dipole moment
    Àڱ⠽ֱØÀÚ ¸ð¸àÆ®
  • magnetic disk
    Àڱ⠵ð½ºÅ©
  • magnetic domain
    ÀÚ±â(ÀÚ¼º) ¿µ¿ª
  • magnetic electricity
    ÀÚÀü±â(í¸ï³Ñ¨).
  • magnetic field
    ÀÚ(±â)Àå(í¸Ñ¨íÞ).
  • magnetic field
    ÀÚÀå
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  • ¿µ¹®
    ÇѱÛ
  • nuclear magnetic resonance
    ÇÙÀÚ±â°ø¸í(ú·í¸ÐïÍìÙ°)
  • proton magnetic reasonance
    ¾ç¼ºÀÚ ÀÚ±â°ø¸í(åÕàõí­àõí¸Ñ¨ÍìÙ°)
  • buoyant density
    ºÎÀ¯¹Ðµµ(Ý©ë´ÚËÓø)
  • charge density
    ÀüÇϹеµ(ï³ùÃÚËÓø)
  • continuous density gradient
    ¿¬¼Ó¹Ðµµ±¸¹è(Ö§áÙÚËÓøÎþÛÕ)
  • density
    ¹Ðµµ(ÚËÓø)
  • density-dependent growth
    "¹ÐµµÀÇÁ¸ ¼ºÀå(ÚËÓøëîðíà÷íþ), (ÔÒ) contact inhibition"
  • density gradient
    ¹Ðµµ±¸¹è(ÚËÓøÎþÛÕ)
  • density gradient centrifugation
    ¹Ðµµ±¸¹è ¿ø½ÉºÐ¸®(ÚËÓøÎþÛÕêÀãýÝÂ×î)
  • density gradient sedimentation equilibrium
    ¹Ðµµ±¸¹è ħ°­ ÆòÇü(ÚËÓøÎþÛÕöØË½øÁû¬)
  • density gradient sedimentation velocity
    ¹Ðµµ±¸¹è ħ°­ ¼Óµµ(ÚËÓøÎþÛÕöØË½áÜÓø)
  • density gradient zonal centrifugation
    "¹Ðµµ±¸¹è ¿ª¿ø½ÉºÐ¸®(ÚËÓøÎþÛÕæ´êÀãýÝÂ×î), (ÔÒ) density gradient sedimentation velocity"
  • density inhibition
    "¹ÐµµÀúÇØ(ÚËÓøîÁúª), (ÔÒ) contact inhibition"
  • discontinuous density gradient
    ºÒ¿¬¼Ó ¹Ðµµ±¸¹è(ÝÕææáÙÚËÓøÎþÛÕ)
  • exponential density gradient
    Áö¼ö ³óµµ ±¸¹è (ò¦â¦ÒØÓøÎøÛÎ)
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  • ¿µ¹®
    ÇѱÛ
  • proton density contrast
    ¾çÀڹеµ´ëÁ¶
  • proton density weighted image
    ¾çÀڹеµ°­Á¶¿µ»ó
  • proton density weighting
    ¾çÀÚ°­Á¶
  • reticular density
    ¸Á»óÀ½¿µ
  • shadow density
    À½¿µ¹Ðµµ
  • spin density
    ½ºÇɹеµ
  • spin density weighted image
    ½ºÇɹеµ°­Á¶¿µ»ó
  • cine cardiac magnetic resonance imaging
    ¿µÈ­½ÉÀåÀÚ±â°ø¸í¿µ»ó
  • electrocardiograpic gated magnetic resonance imaging
    ½ÉÀüµµµ¿±âÀÚ±â°ø¸í¿µ»ó
  • fringe magnetic field strength
    ÁÖº¯ÀÚÀå¼¼±â
  • functional magnetic resonance imaging [=fMRI]
    ±â´ÉÀûÀÚ±â°ø¸í¿µ»ó
  • gradient echo technique magnetic susceptibility proton relaxation enhancement
    °æ»ç¿¡ÄÚ¹ý±âÈ­À²¼ºÀÚÀÌ¿ÏÁõ°­
  • gradient magnetic coil
    °æ»çÀÚ±âÄÚÀÏ
  • gradient magnetic field
    °æ»çÀÚ±âÀå
  • magnetic
    ÀÚ±âÀÇ
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MR Maddox rods; magnetic resistance; magnetic resonance; mandibular reflex; mannose-resistant; may repe...
MCD magnetic circular dichroism; mast-cell degranulation; mean cell diameter; mean of consecutive differ...
PSD particle size distribution; peptone, starch, and dextrose; periodic synchronous discharge; phase-sen...
CHFD controlled high flux dialysis
FU fecal urobilinogen; fetal urobilinogen; fluorouracil; follow-up; flux unit [ion]; fractional urinaly...
KMLE ÀÚµ¿ÃßÃâ ÀÇÇоà¾î »çÀü À¯»ç °Ë»ö °á°ú : 5 ÆäÀÌÁö: 2
NMR 1)H-nuclear magnetic resonance
(13)C NMR 13)C nuclear magnetic resonance
NMR 13)C-nuclear magnetic resonance
(31)P-MRS 31)P magnetic resonance spectroscopy
(31)P NMR 31)P nuclear magnetic resonance
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  • ¿µ¹®
    ÇѱÛ
    ¼³¸í
  • high-density lipoprotein
    °í¹Ðµµ Áö¹æ ´Ü¹é
  • low-density lipoprotein
    Àú¹Ðµµ Áö¹æ ´Ü¹é
  • minimum useful density
    ÃÖ¼Ò À¯È¿ ³óµµ
  • mosquito density
    ¸ð±â ¹Ðµµ
  • nodular density
    °áÀý¼º À½¿µ
  • perihilar density
    Æó¹® ÁÖÀ§ À½¿µ
  • photographic density
    »çÁø ÈæÈ­µµ
  • pixel density
    Çȼ¿ À½¿µ, È­¼Ò À½¿µ
  • power density
    Ãâ·Â ¹Ðµµ
    ÀÏÁ¤ Ç¥¸é¿¡ ´ëÇÑ ·¹ÀÌÀú Ãâ·ÂÀÇ ºÐÆ÷ ÃøÁ¤. Ãâ·Â ¹Ðµµ¸¦ À§ÇÑ ´ÜÀ§´Â ÀüÇüÀûÀ¸·Î ÀÏÁ¤ Ç¥¸é ȤÀº ÃÊÁ¡ Å©±â¿¡ ´ëÇÑ 1cm
  • proton density contrast
    ¾çÀÚ ¹Ðµµ ´ëÁ¶
  • proton density weighting
    ¾çÀÚ °­Á¶
  • proton spin density
    ¾çÀÚ ¹Ðµµ
  • reticular density
    ¸Á»ó À½¿µ
  • spin density weighted image
    ½ºÇÉ ¹Ðµµ °­Á¶ ¿µ»ó
  • vapo density
    Áõ±â ¹Ðµµ
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magnetic attraction The force that draws iron or steel toward a magnet.
(05 Mar 2000)
magnetic axis <physics> This typically refers to the location of the innermost flux surface in a toroidal device, the one which encloses no volume and has therefore degenerated from a flux surface into a single field line. Roughly, the circle through the middle of the dough of the donut. Additionally, in systems with magnetic islands (see entry below), each island has a local magnetic axis, distinct from the overall magnetic axis of the torus.
(09 Oct 1997)
magnetic confinement <physics> Use of magnetic fields to confine a plasma. (Confinement involves restricting the volume of the plasma and/or restricting particle or energy transport from the centre of the plasma to the edge.)
(09 Oct 1997)
magnetic confinement fusion <physics> Method of fusion which uses magnetic fields / magnetic bottles to confine a hot plasma until fusion occurs.
(09 Oct 1997)
magnetic field The sphere of influence of a magnet.
(05 Mar 2000)
magnetic field gradient In magnetic resonance imaging, a magnetic field that varies with location, superimposed on the uniform field of the magnet, to alter the resonant frequency of nuclei and allow recovery of their spatial position.
Synonym: field gradient.
(05 Mar 2000)
magnetic implant A tissue-tolerated, magnetised metal placed within the bone to aid in denture retention; a similar magnet is placed in the overlying denture to complete the field.
(05 Mar 2000)
magnetic inertia <physics> A lagging or retardation of the effect, when the forces acting upon a body are changed, as if from velocity or internal friction; a temporary resistance to change from a condition previously invuced, observed in magnetism, thermoelectricity, etc, on reversal of polarity.
Origin: NL, fr. Gr. To be behind, to lag.
Source: Websters Dictionary
(01 Mar 1998)
magnetic island <physics> A magnetic topology near a rational surface where the flux surface is broken up into tubes which are not connected with each other poloidally. Islands may develop in non-ideal magnetohydrodynamic fluids, where electrical resistance becomes important and magnetic field lines are no longer frozen-in to the fluid. Then magnetic tearing and reconnection may allow field lines to link up and form islands with a local magnetic axis in a narrow region near a rational surface. (See also magnetohydrodynamic, frozen-in law). The development of islands may be caused by a small perturbation, whether internal or external, whether deliberate or accidental, and is usually associated with enhanced transport (i.e., reduced confinement). The centres of the islands are magnetic O-points, while the boundaries between islands are marked by X-points.
(09 Oct 1997)
magnetic mach number <physics> A dimensionless number equal to the ratio of the velocity of a fluid to the velocity of Alfven waves in that fluid.
(13 Nov 1997)
magnetic moment <physics> (a) A vector associated with a magnet, current loop, or particle, the cross product of this vector with the magnetic field is equal to the torque which the field exerts on the system. (b) The adiabatic invariant associated with the rapid gyromotion of a charged particle in a slowly varying magnetic field. (The value of the magnetic moment in sense (b) is the magnitude of the vector in sense (a).)
(13 Nov 1997)
magnetic probe <radiobiology> A conducting coil (sometimes insulated and inserted into the plasma) will have an induced voltage due to changes in the magnetic flux through the coil, and can therefore be used to measure changes in magnetic field strength. Small coils used to measure the local field strength are known as probes. (Other plasma diagnostics using this effect are the Rogowski coil, the voltage loop, and the diamagnetic loop.) Magnetic probes placed outside a toroidal plasma which are used to measure the poloidal magnetic field are also called Mirnov coils.
(09 Oct 1997)
magnetic pumping <radiobiology> Form of plasma heating where the plasma is successively compressed and expanded by means of a fluctuating external magnetic field. (See also adiabatic compression, frozen-in law.)
(09 Oct 1997)
magnetic reconnection When a plasma has some resistivity, then the frozen-in flow requirement is relaxed (see frozen-in flow). In that case, the magnetic field can move through the plasma fluid on the resistive (magnetic diffusion) time scale. (Typically slow compared to magnetohydrodynamic timescales.) This allows field lines to reconnect with each other to change their topology in response to magnetic and other forces in the plasma. (see also Helicity, which is not conserved when reconnection is significant.) The predominant theory for solar flares is based on the transfer of energy from magnetic fields to plasma particles which can occur in reconnection. Reconnection can also be studied in the laboratory.
(09 Oct 1997)
magnetic resonance angiography Non-invasive method of vascular imaging and determination of internal anatomy without injection of contrast media or radiation exposure. The technique is used especially in cerebral angiography as well as for studies of other vascular structures.
(12 Dec 1998)
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  • ¿µ¹®
    ÇѱÛ
  • magnetic bubble
    Æ÷ÀÚ±¸(ÀÚ¼ºÀç ¾È¿¡ ³ªÅ¸³ª´Â ¿øÁÖ²ÃÀÇ ÀÚ±¸)
  • magnetic card
    ÀÚ±â Ä«µå
  • magnetic circuit
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  • magnetic compass
    ÀÚ±â ÄÄÆÛ½º(³ªÄ§ÀÇ)
  • magnetic core
    (ÄÄÇ»ÅÍ) ÀÚ±â ÄÚ¾î(±â¾ï ¼ÒÀÚ·Î ¾²ÀÌ´Â ÀÚöÀÇ ÀÛÀº °í¸®)
  • magnetic declination
    ÀÚ±â Æí°¢
  • magnetic detector
    ÀÚ±â °ËÆÄ±â
  • magnetic disk
    Àڱ⠵ð½ºÅ©(Ç¥¸éÀÌ ÀÚ¼º Àç·á·Î µ¤Èù ¿øÆÇ»óÀÇ ±â·Ï ¸Åü)
  • magnetic domain
    (°­ÀÚ¼ºÃ¼ÀÇ) ÀÚ±¸
  • magnetic drum
    Àڱ⠵巳
  • magnetic equator
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  • magnetic exploration
    Àڱ⠎±¤(¹ý)
  • magnetic field
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  • magnetic force
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  • magnetic head
    (Å×ÀÌÇÁ ·¹ÄÚ´õÀÇ) ÀÚ±â Çìµå
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