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[Â÷-Ä«-Ÿ-ÆÄ-ÇÏ]
Çѱ¹¹°¸®ÇÐȸ°¡ 1995³â¿¡ Á¦Á¤ÇÏ¿©, »ç¿ëÇϱ⸦ ±ÇÀåÇϰí ÀÖ´Â ¹°¸®ÇÐ Çѱۿë¾î¸¦ ½Æ½À´Ï´Ù. ÇÑ±Û ¿ë¾îÀÇ Ç¥ÁØÈ¸¦ À§ÇÏ¿© ½ÇÇ躸°í¼ µî¿¡ ÀÌ¿ëÇϱ⸦ ¹Ù¶ó¸ç, µû·ÎÀÌ Ã¥À¸·Î µÈ "¹°¸®ÇÐ ¿ë¾îÁý"À» ±¸ÀÔÇϱ⸦ ¿øÇÏ´Â ºÐµéÀº Çѱ¹¹°¸®ÇÐȸ(ÀüÈ: 556-4737)·Î ¹®ÀÇÇϽʽÿä.
°¡°ø°æÈ work-hardening
°¡±î¿î ³Ñº¸¶ó»ì near ultraviolet ray
°¡±î¿î ³Ñ»¡° near infrared
°¡±î¿î ³Ñ»¡°»ì near infrared ray
°¡±î¿îÁ¡ near point
°¡µ¿ÀüÆÄ¸Á¿ø°æ steerable radio telescope
°¡µÒ confinement
°¡µÒ½Ã°£ confinement time
°¡¶ô ¸ÂÃß°³ tuner
°¡¶ô¸ÂÃã tuning
°¡¶ô¸ÂÃã È帧±æ tuning circuit
°¡·Á¸·±â shield, shielding
°¡·Á¸·±â °Å¸® shielding distance
°¡·Á¸·±â »ó¼ö shielding constant
°¡·Á¸·±â È¿°ú shielding effect
°¡·ÁÁø Äð·ÕÆÛÅÙ¼È screened Coulomb potential
°¡·Î transverse
°¡·Î°¡¼Óµµ transverse acceleration
°¡·Îµé¶ä transverse excitation
°¡·Î¶³±â transversal vibration
°¡·Î¸·ÀÌ barrier
°¡·Î¸·ÀÌ ³ôÀÌ barrier height
°¡·Î¸·ÀÌ Åõ°ú barrier penetration
°¡·Î¸·ÀÌ Åõ°úÀ² barrier permeability
°¡·Î¸ðÀ¸±â transverse focusing
°¡·Î¹æÇâǯ transverse relaxation
°¡·Î¹èÀ² lateral magnification, transversal magnification
°¡·Î¼¼·Î ºñ aspect ratio
°¡·Î¼Óµµ lateral velocity
°¡·Î¼öÂ÷ lateral aberration
°¡·Î½ºÅ¸¾ÆÅ© È¿°ú transversal Stark effect
°¡·Î¿îµ¿ lateral motion
°¡·ÎÀÇ transversal
°¡·ÎÀÚ±âÈ transverse magnetization
°¡·ÎÀü·ù transverse current
°¡·Î Á¶°Ç transversality condition
°¡·ÎÁÂÇ¥ abscissa
°¡·Î Áú·® transversal mass
°¡·ÎÁý¼Ó transverse focusing
°¡·ÎÃà abscissa, axis of abscissa, transverse axis
°¡·ÎÆÄµ¿ transverse wave
°¡·ÎÆí±Ø transverse polarization
°¡·ÎÈ¿°ú transverse effect
°¡·ç »çÁø±â powder camera
°¡·çö½É dust core
°¡¸£°³ analyzer, splitter
°¡¸§ resolution, separation
°¡¸®°³ screen
°¡¸®°³ ±×¸®µå screen grid
°¡¸®±â masking
°¡¸®±â±æÀÌ screening length
°¡¸®±â»ó¼ö screening constant
°¡¸®±â ÀÌÁßÇ× screening doublet
°¡¸®±âÀÛ¿ë screening action
°¡¸®¿ò ¹þ±â±â demasking
°¡¸®Å°°³ pointer
°¡¸²µµ vignetting
°¡¸¶ furnace, oven
°¡¸ðÇÁ ÀÎÀÚ Gamow factor
°¡¸ðÇÁ-ÅÚ·¯ »óÈ£ÀÛ¿ë Gamow-Teller interaction
°¡¸ðÇÁ-ÅÚ·¯ ¼·ÎÀÛ¿ë Gamow-Teller interaction
°¡¸ðÇÁ-ÅÚ·¯ ÀüÀÌ Gamow-Teller transition
°¡¹ý°ø½Ä additive formula
°¡¹ýÁ¤¸® addition theorem
°¡º¿î light
°¡º¿î ¿øÀÚÇÙ light nucleus
°¡º¯µµ variance
°¡º¯ ¿°·á ·¹ÀÌÀú tunable dye laser
°¡º¯¿ë·® ´ÙÀÌ¿Àµå varactor
°¡º¯ÀúÇ× rheostat
°¡º¯ÃàÀü±â variable capacitor
°¡»ó°áÁ¤ ¾î¸² virtual crystal approximation
°¡»ó°áÁ¤ ¾î¸²¹ý virtual crystal approximation
°¡»ó°úÁ¤ virtual process
°¡»ó±¤ÀÚ virtual photon
°¡»óº¯À§ virtual displacement
°¡»óº¯À§ÀÇ ¿ø¸® principle of virtual displacement
°¡»óºû¾Ë virtual photon
°¡»ó»óÅÂ virtual state
°¡»ó¾çÀÚ virtual quantum
°¡»óÀÏ virtual work
°¡»óÀÏÀÇ ¿ø¸® principle of virtual work
°¡»óÀÏÀÇ ÀÌ·Ð theory of fictitious work
°¡»óÀÚ¸®¿Å±è virtual displacement
°¡»óÀÚ¸®¿Å±èÀÇ ¿ø¸® principle of virtual displacement
°¡»óÁ¢Áö virtual ground
°¡»óÁØÀ§ virtual level
°¡»óÁú·® virtual mass
°¡¼³ hypothesis
°¡¼Ó°ü accelerating tube
°¡¼Ó±â accelerator
°¡¼Óµµ acceleration
°¡¼Óµµ°è accelerometer
°¡¼Óµµ¿îµ¿ accelerated motion
°¡¼ÓµÈ ±âÁØÆ² accelerated frame of reference
°¡¼ÓÀåÄ¡ accelerator
°¡¼Ö¸° ±â°ü gasoline engine
°¡¼öºÐÇØ hydrolysis
°¡½º Àü±¸ gas-filled bulb
°¡½º ÁÖ¸Ó´Ï gas cell
°¡½ºÅͺó gas turbine
°¡½Ã°Å¸® visual range
°¡½Ã±¤¼± visible ray
°¡½Ãµµ visibility
°¡½Ãºû¶ì visible spectrum
°¡¾àÇ¥Çö reducible representation
°¡¿ heating
°¡¿±â heater
°¡¿ºÐÇØ¹ÝÀÀ thermolysis
°¡¿¼Óµµ°î¼± heating-rate curve
°¡¿¼Óµµ±ÁÀº¼± heating-rate curve
°¡¿½ÇÁÙ filament
°¡¿Àü±â pyroelectricity
°¡¿ÆÇ hot plate
°¡¿ë¸ÅºÐÇØ solvolysis
°¡¿ë¼º soluble
°¡¿ì½º[´ÜÀ§] gauss
°¡¿ì½º °úÁ¤ Gaussian process
°¡¿ì½º ´«ÂÊ·»Áî Gauss eye-piece
°¡¿ì½º ´ÜÀ§ Gaussian unit
°¡¿ì½º ·»Áî °ø½Ä Gauss lens formula
°¡¿ì½º ¸ðÇü Gaussian model
°¡¿ì½º ¹ß»êÁ¤¸® Gauss divergence theorem
°¡¿ì½º ºÐÆ÷ Gaussian distribution
°¡¿ì½º ºÐÆ÷¹ýÄ¢ Gauss distribution law
°¡¿ì½º ¿ÀÂ÷ÇÔ¼ö Gauss error function
°¡¿ì½º ¿ì¹° Gaussian well
°¡¿ì½º Á¤¸® Gauss theorem
°¡¿ô°£Á¢Á¶¸í semi-indirect illumination
°¡¿ô°æÇèÀû °áÇÕ¿¡³ÊÁö°ø½Ä semiempirical binding energy formula
°¡¿ô°æÇèÀû Áú·®°ø½Ä semiempirical mass formula
°¡¿ô±Ø¼º semipolar
°¡¿ô±Ý¼Ó semimetal
°¡¿ô·¾ÅæÀû semi-leptonic
°¡¿ô·Î±× ¸ð´«Á¾ÀÌ semilogarithmic paper
°¡¿ô¹«¸® semigroup
°¡¿ô¹«¸® ¼ºÁú semigroup property
°¡¿ô¼ö·Å semiconvergence
°¡¿ô¿ø semicircle
°¡¿ôÁ¤Áú semicrystalline
°¡¿ôÅõ°ú¼º semipermeability
°¡¿ôȬÁø semi-simple
°¡À§°ö cross product
°¡À§Áú shear, shearing
°¡À§Áú ´Ã±â shear dilatancy
°¡À§Áú ¶³±â scissoring vibration
°¡À̰аè¼ö±â Geiger counter
°¡À̰аü Geiger tube
°¡À̰Å-´©Å» ¹ýÄ¢ Geiger-Nuttall rule(law)
°¡À̰Å-¹Ä·¯ °è¼ö±â Geiger-Muller counter
°¡À̰Å-¹Ä·¯ ¼ö¼¼°³ Geiger-Muller counter
°¡À̰мö¼¼°³ Geiger counter
°¡À̽½·¯ °ü Geissler tube
°¡À̽½·¯ ¹æÀü Geissler discharge
°¡Àå ÀæÀº °ª most probable value
°¡Àå ÀæÀº ¼Óµµ most probable velocity
°¡Á¤ assumption
°¡ÁßÀÎÀÚ weight factor
°¡Á߯ò±Õ weighted average(mean)
°¡ÁßÇÔ¼ö weight function
°¡Â¥ »óÅÂ spurious state
°¡Â¥ Áø°ø false vacuum
°¡Ã»½ÅÈ£ ¹ß»ý±â audio generator
°¡Ã»À½ audible sound
°¡Ã»Áøµ¿¼ö audio frequency [=AF]
°¡Ã»Áøµ¿¼ö ¹ßÁø±â audio frequency oscillator
°¡Ã»Áøµ¿¼ö ÁõÆø±â audio frequency amplifier
°¡Ãø measurable
°¡È¯°¡°üÃø·® commuting observables
°¡È¯°üÃø·® commuting observables
°¡È¯±º commutative group
°¡È¯¿ªÇк¯¼ö commuting dynamical variables
°¡È¯¿¬»êÀÚ commuting operators
°¡È¯Çà·Ä commuting matrices
°¡È² vulcanization
°¢ angle, shell
°¢°¡¼Óµµ angular acceleration
°¢°¥¶óÁü angular dispersion
°¢±âµÕ prism
°¢¶³±â¼ö angular frequency
°¢º¯¼ö angular variable
°¢º¯À§ angular displacement
°¢ºÐ»ê angular dispersion
°¢ºÐÆ÷ angular distribution
°¢»ó°ü°ü°è angular correlation
°¢¼Óµµ angular velocity
°¢¿îµ¿·® angular momentum
°¢¿îµ¿·®º¸Á¸ conservation of angular momentum
°¢¿îµ¿·® ¾çÀÚ¼ö angular momentum quantum number
°¢¿îµ¿·®¿¬»êÀÚ angular momentum operator
°¢¿îµ¿·®ÀÛ¿ë¼Ò angular momentum operator
°¢À§Ä¡ angular position
°¢ÀÚ¸® angular position
°¢Áøµ¿¼ö angular frequency
°£°Ý interval, spacing
°£°Ý±ÔÄ¢ interval rule
°£°Ý¹æ½Ä gap mode
°£°ÝÀü¾Ð gap voltage
°£°ÝÆÇ spacer
°£°Ý Çö󽺸ó gap plasmon
°£¸·ÀÌ compartmentation
°£¼· interference
°£¼·°¡¶ôÁö interference ring
°£¼·°Å¸£°³ interference filter
°£¼·°è interferometer
°£¼·±¼Àý°è interference refractometer
°£¼·²©ÀÓÀç°³ interference refractometer
°£¼·¹«´Ì interference figure, interference fringe, interference pattern, pattern of interference
°£¼·ºÐ±¤±â interference spectroscope
°£¼·ºÐ±¤¹ý interference spectroscopy
°£¼·ºÐ±¤ÇÐ interference spectroscopy
°£¼·»ó interference figure
°£¼·½ÇÆ´ interference slit
°£¼·¿ø¹«´Ì interference ring
°£¼·Àç°³ interferometer
°£¼·Á¶°Ç interference condition
°£¼·ÇÊÅÍ interference filter
°£¼·Çö¹Ì°æ interference microscope
°£Á¢°£°Ý indirect gap
°£Á¢°úÁ¤ indirect process
°£Á¢±³È¯»óÈ£ÀÛ¿ë indirect exchange interaction
°£Á¢¶ì°£°Ý indirect band gap
°£Á¢¶ìÆ´ indirect band gap
°£Á¢ ¹Ù²Þ¼·ÎÀÛ¿ë indirect exchange interaction
°£Á¢ÀüÀÌ indirect transition
°£Á¢Á¶¸í indirect illumination
°£Á¢ÃøÁ¤ indirect measurement
°£Á¢Æ´ indirect gap
°£Á¢Èí¼ö°úÁ¤ indirect absorption process
°¥¶ó³õ±â segregation
°¥·¡ branch, shunt
°¥·¡ºØ±« branched decay
°¥·¡ºñ branching ratio
°¥·¡ »óÀÚ shunt box
°¥·¡ÀúÇ× shunt resistance
°¥·¡ÀúÇ×±â shunt resistor
°¥·¡Ä¡±â branching
°¥·¡È¸·Î branch circuit
°¥·¡È帣±â shunt
°¥·¡È帧±æ branch circuit, shunt circuit
°¥¸±·¹ÀÌ ´Þº° Galilean satellites
°¥¸±·¹ÀÌ ¸Á¿ø°æ Galilean telescope
°¥¸±·¹ÀÌ º¯È¯ Galilei transformation
°¥¸±·¹ÀÌ À§¼º Galilean satellites
°¥¸±·¹ÀÌÀÇ °ü¼º¹ýÄ¢ Galilei's inertial law
°¥¸²Á¡ junction
°¥¹«¸® °í¸® storage ring
°¥¹Ù´Ï Àü·ù galvanic current
°¥¹Ù´Ï ÀüÁö galvanic cell
°¥¹Ù´Ï È帧 galvanic current
°¥Äû ½Ö°¥¸² pitchfork bifurcation
°¨±¤±â±¸ light-sensitive devices
°¨±¤±â·Ï°è±â photographic recorder
°¨±¤¹°Áú photosensitive substance
°¨±¤¹ÝÀÀ photosensitized reaction
°¨±¤Á¡ sensitivity speck
°¨±¤Á¦ photosensitizer, sensitizer
°¨±¤ÃøÁ¤ sensitometry
°¨±ØÁ¦ depolarizer
°¨µµ sensitivity
°¨µµÁö¼ö figure of merit
°¨¸¶ºØ±« gamma decay
°¨¸¶¼± gamma ray
°¨¸¶¼±·® ÃøÁ¤ gamma-ray dosimetry
°¨¸¶¼± ¹Ýµðºû ºÐ±¤¹ý Gamma-ray fluorescence spectroscopy
°¨¸¶¼± ºÐ±¤±â gamma-ray spectrometer
°¨¸¶¼±ÀÇ ³»ºÎÀüȯ internal conversion of ray
°¨¸¶¼±ÀÇ ¼Ó Àüȯ internal conversion of ray
°¨¸¶¼± Çö¹Ì°æ gamma-ray microscope
°¨¸¶¼± Çü±¤ ºÐ±¤¹ý Gamma-ray fluorescence spectroscopy
°¨¸¶ÇÔ¼ö gamma function
°¨¼ÒÇÔ¼ö decreasing function
°¨¼Ó deceleration
°¨¼Ó°Å¸® slowing down length
°¨¼Ó´É slowing down power
°¨¼Ó´É·Â slowing down power
°¨¼Ó·ü moderating ratio
°¨¼Ó¹Ðµµ slowing down density
°¨¼ÓÁ¦ moderator
°¨¼è attenuation, decay
°¨¼è°ç¼ö attenuation coefficient, damping coefficient
°¨¼è±â attenuator
°¨¼è¶³°³ damped oscillator
°¨¼è·Â damping force
°¨¼è»ó¼ö decay constant
°¨¼è½Ã°£ decay time
°¨¼èÁøµ¿ damped oscillation
°¨¼ö¼º susceptibility
°¨¼öÀ² susceptibility
°¨¾ÐÆßÇÁ suction pump
°¨Àº ¼öÀÇ ºñ turn ratio
°¨À½¼ö winding number
°¨ÀÀ induction, response, sense
°¨Àü¹ß»ö electrochromism
°¨Áö±â sensor
°ª value
°µµ intensity
°¼º·ü rigidity
°¼ö·® precipitation
°¾Ðº¯¾Ð±â step-down transformer
°À¯Àü¹°Áú ferroelectric substance
°À¯Àü¼º ferroelectric
°À¯Àü¼º±¸¿ª ferroelectric domain
°À¯Àüü ferroelectrics
°ÀÔÀÚ hadron
°ÀÚ¼º ferromagnetism
°ÀÚ¼º°ø¸í ferromagnetic resonance
°ÀÚ¼º±¸¿ª ferromagnetic domain
°ÀÚ¼º¹°Áú ferromagnetic substance
°ÀÚ¼ºÃ¼ ferromagnetic body, ferromagnetic material
°Á¦´ë·ù¿Àü´Þ heat transfer by forced convection
°Á¦¶³±â forced oscillation, forced vibration
°Á¦¾î¿ï¸²¶³°³ forced harmonic oscillator
°Á¦¾ùÈ帧 ¿Àü´Þ heat transfer by forced convection
°Áý¼Ó ½ÌÅ©·ÎÆ®·Ð strong-focu(s)ing synchrotron
°Ã¼ rigid body
°Ã¼±âü hard sphere gas
°Ã¼µ¹°³ rigid rotator
°Ã¼¿ªÇÐ mechanics of rigid body
°Åº¼º ferroelasticity
°ÇÑ »óÈ£ÀÛ¿ë strong interaction
°°±â equality
°°±â½Ä equality
°°Àº°ª equivalent
°°Àº°ª ±æÀÌ equivalent length
°°Àº°ª ´Ü¼øÈçµéÀÌ equivalent simple pendulum
°°Àº°ª µÎ²² equivalent thickness
°°Àº°ª ¹«°Ô equivalent weight
°°Àº°ª ¾Ë°»ÀÌ equivalent particle
°°Àº°ª Àü·ù equivalent current
°°Àº°ª ÀüÀÚ equivalent electron
°°Àº°ª ÇÙÀÚ equivalent nucleon
°°Àº°ª È帧±æ equivalent circuit
°°Àº±Ø °áÇÕ homopolor bond
°°Àº ±Ø¼º°è homopolar system
°°Àº ²Ã isomorphic, isomorphism
°°Àº²Ã ¹«¸® isomorphic group
°°Àº²Ã º»¶ß±â isomorphism
°°Àº²Ãº»¶ß±âÀÇ isomorphous
°°Àº ¸ðÀÓÁ¡ homoclinic point
°°ÀºÂ÷¼ö same order
°°Àº Â÷¼öÀÇ ¹«ÇÑ¼Ò infinitesimal of the same order
°³±¸¸®¶Ù±â ¼À¹ý leap-frog algorithm
°³±âÀÏ½Ä total solar eclipse
°³ÀοÀÂ÷ personal error
°³Æóȸ·Î keying circuit
°¹¼ö´Þ¸² number dependence
°¹¼öÀÇÁ¸ number dependence
°Å±¼¿¬»ê inverse operation
°Å²Ü inverse
°Å²Ü°ø°£ reciprocal space
°Å²Ü±âÀü·Â counter electromotive force
°Å²Ü´ëÀÀ inverse correspondence
°Å²Ü¹ÙÀ̾ reverse bias
°Å²Ü¹ÝÀÀ backward reaction, reverse reaction
°Å²Ü¹æÇâ reverse direction
°Å²Üº¯È¯ inverse transformation
°Å²Üº»¶ß±â inverse mapping
°Å²ÜºÐ±Ø inverse polarization
°Å²Üºñ·Ê inversely proportional
°Å²Ü»ì⺤ÅÍ reciprocal lattice vector
°Å²Ü»ó°ü inverse correlation
°Å²Ü¼ö inverse number
°Å²Ü½ºÇÇ³Ú inverse spinel
°Å²Ü ½ÃŸ¸£Å© È¿°ú inverse Stark effect
°Å²Ü¿¬»êÀÚ inverse operator
°Å²Ü¿µ»ó inverse image
°Å²Ü¿ä¼Ò inverse element
°Å²ÜÀü·ù inverse current
°Å²ÜÁ¤¸® inverse theorem
°Å²ÜÁ¦°ö¹ýÄ¢ inverse square law
°Å²Ü Áö¸¸ È¿°ú inverse Zeeman effect
°Å²ÜÇÔ¼ö inverse function
°Å²ÜÇà·Ä inverse matrix
°Å´ëºÐÀÚ giant molecule
°Å´ë½Ö±ØÀÚ°ø¸í giant dipole resonance
°Åµ¿ behavior
°ÅµÐ¾ç yield
°ÅµÒÀ² yield
°Å¸£°³ filter
°Å¸£±â filtration
°Å¸® distance
°Å¸®°è range finder
°Å¸®°ø°£ metric space
°Å¼º giant star
°Å½Ã°è macroscopic system
°Å½Ã»óÅ macroscopic state, macrostate
°Å½ÃÀû macroscopic
°Å½ÃÀû °è macroscopic system
°Å½ÃÀû »óÅ macroscopic state
°Å½ÃÀû ¼¼°è macroscopic world
°Å½ÃÀû ¾çÀÚ°£¼· macroscopic quantum interference
°Å½ÃÀû ¾çÀÚ°á¸ÂÀ½ macroscopic quantum coherence
°Å½ÃÀû ¾çÀÚ ²ç¶Õ±â macroscopic quantum tunneling
°Å½ÃÀû ¾çÀÚ Åͳθµ macroscopic quantum tunneling
°Å½ÃÀû ¾çÀÚÇö»ó macroscopic quantum phenomena
°Å½ÃÀû Àü±â¸¶´ç macroscopic electric field
°Å¾î´Ï-¸ðÆ® ÀÌ·Ð Gurney-Mott theory
°Å¿ï mirror
°Å¿ï ±â°è mirror machine
°Å¿ïµÇºñħ mirror reflection
°Å¿ï¹Ý»ç mirror reflection, specular reflection
°Å¿ï»ó mirror image
°Å¿ïÁ᫐ center of mirror
°Å¿ïÃà axis of mirror
°Å¿ïÇÙ mirror nuclei
°Å¿ïÇÙÁ¾ mirror nuclide
°ÅÀÇ ÀÚÀ¯·Î¿î ÀüÀÚ¸ðÇü nearly free electron model
°ÅÄ£ °æ°è¸é rough interface
°ÅÄ£ ³®¾Ë ¸¸µé±â coarse-graining
°ÅÄ¥±â roughness
°ÅÄ¥±â Áö¼ö toughness exponent
°ÅÄ¥¾îÁü ¿Âµµ toughening temperature
°ÅÄ¥¾îÁü ÀüÀÌ roughening transition
°Åǰ¶Â¸ñ bubble raft
°Åǰ»óÀÚ bubble chamber
°Åǰ¼ö¼¼°³ bubble counter
°Åǰ¾Ð·Â bubble pressure
°Ç±¸ dry bulb
°Ç±¸¿Âµµ dry bulb temperature
°Ç±¸¿Âµµ°è dry bulb thermometer
°Çµå¸² perturbation
°Çµå¸²¹æ¹ý perturbation method
°Çµå¸² ¹æÁ¤½Ä perturbation equation
°Çµå¸² ¿¡³ÊÁö perturbation energy
°Çµå¸²ÀÇ Â÷¼ö degree of perturbation, order of perturbation
°Çµå¸²ÀÌ·Ð perturbation theory, theory of perturbation
°Çµå¸²Ç× perturbation term
°Ç½À±¸ ´©±âÀç°³ psychrometer, wet and dry-bulb hydrometer
°Ç½À±¸ ½Àµµ°è psychrometer, wet and dry-bulb hydrometer
°Ç½ÄÁ¤·ù±â dry rectifier, metal rectifier
°ÇÀüÁö battery, dry cell
°ÇÁ¶ drying
°ÇÁ¶±â desiccator
°ÇÁ¶¹ý drying
°ÇÁ¶Á¦ drying agent
°ÇÁ¶ÆÇ dry plate
°Ç È¿°ú Gunn effect
°ÉÀÌ holder
°Ë±¤ÆÇ analyzer
°Ë´ç°è saccharimeter
°Ë·ù°è galvanometer
°Ë·ù±â galvanoscope
°ËÀº±¸¸Û black hole
°ËÀü±â electroscope
°ËÁ¤Ã¼ black body
°ËÁ¤Ã¼³»ºñħ black body radiation
°ËÁ¤Ã¼¿Âµµ black body temperature
°ËÃâ detection
°ËÃâ±â detector
°ËÃâÀÛ¿ë detector action
°ËÃâȸ·Î detector circuit
°ËÃâÈ帧±æ detector circuit
°ËÆÄ wave detection
°ËÆÄ±â wave detector
°Ñ³ÐÀÌ surface area
°Ñ¸é°ÅÄ¥±â surface roughness
°Ñ¸é²úÀ½ surface boiling
°Ñ¸éºÙÀ½ surface adhesion
°Ñ¸éºû±ò surface color
°Ñ¸é ¾µ¸²Èû surface friction drag
°Ñ¸é¿¡³ÊÁö surface energy
°Ñ¸é ÀüÇÏ surface charge
°Ñ¸éÄбæÈû surface tension
°Ñ¸éÄÑ surface layer
°Ñ¸éÆÄµ¿ surface wave
°Ñ¸éÆÛÅÙ¼È surface potential
°Ñ¸éÈ帧 surface current
°Ñ¸éÈû surface force
°Ñº¸±â ±íÀÌ apparent depth
°Ñº¸±â ºÒÀ½ apparent expansion
°Ñº¸±â ÀüÇÏ apparent electric charge
°Ñº¸±â ÆØÃ¢ apparent expansion
°Ñº¸±âÈû fictitious force
°ÑºÒ²É surface flame
°Ô¸£¸¶´½ °è¼ö±â germanium counter
°Ô¸£¸¶´½ ´ÙÀÌ¿Àµå germanium diode
°Ô¸£¸¶´½ ¼ö¼¼°³ germanium counter
°Ô¸£¸¶´½ Á¤·ù±â germanium rectifier
°Ô º°±¸¸§ Crab Nebula
°ÔÀÌ ·ò»èÀÇ ¹ýÄ¢ Gay Lussac's law
°ÔÀÌÁö gauge
°ÔÀÌÁö º¯È¯ gauge transformation
°ÔÀÌÁö ºÒº¯·® gauge invariant
°ÔÀÌÁö ºÒº¯¼º gauge invariance
°ÔÀÌÁö ¾È¹Ù²ñ·® gauge invariant
°ÔÀÌÁö ¾È¹Ù²ñ¼º gauge invariance
°ÔÀÌÁö ¾Ð·Â gauge pressure
°ÔÀÌÆ® ȸ·Î gate circuit
°ÔÀÌÆ® È帧±æ gate circuit
°ÔÅÍ getter
°Ö gel
°Ö¸¸-´Ï½ÃÁö¸¶ °ø½Ä Gell-Mann-Nishijima formula
°Ü³Éµµ sketch
°Ü³É¿ÀÂ÷ aiming error
°Ü¿ì °ÅÄ£ °æ°è¸é marginally rough interface
°Ü¿ì³¢Ä§ marginally relevant
°Ü¿ì¶³°³ marginal oscillator
°Ü¿ìº¯¼ö marginal variable
°ÞÀ½°í¸®¼± hysteresis loop
°ÞÀ½¼Õ½Ç hysteresis loss
°ÞÀ½Çö»ó hysteresis
°ßº» sample
°ßÁܰáÇÕ¿¡³ÊÁö specific binding energy
°ßÁܱ賯±â¿ specific heat of evaporation
°ßÁܳìÀ½¿ specific heat of melting
°ßÁÜ´©±â specific humidity
°ßÁܹÝÀÀ specific reaction
°ßÁܹæ»ç´É specific radioactivity
°ßÁܺÎÇÇ specific volume
°ßÁܼӾµ¸² specific viscosity
°ßÁÜ¿ specific heat
°ßÁÜ¿ÀÇ ºñ ratio of the specific heat
°ßÁÜÀúÇ× reference resistor, specific resistance
°ßÁÜÀüµµÀ² specific conductance
°ßÁÜÀü·ù specific current
°ßÁÜÀüÇÏ specific charge
°ßÁÜÁõ¹ß¿ specific heat of evaporation
°ßÁÜȰµ¿µµ specific activity
°á¸Â´Â ±¤¿ø coherent-light source
°á¸Â´Â ±æÀÌ coherent length
°á¸Â´Â ºû coherent light
°á¸Â´Â ºû»ù coherent-light source
°á¸Â´Â »ê¶õ coherent scattering
°á¸Â´Â »óÅ coherent state
°á¸Â´Â ¿¢½º¼± »ê¶õ coherent X-ray scattering
°á¸Â´Â ¿¢½º¼± Èð¶ß¸² coherent X-ray scattering
°á¸Â´Â Áß¼ºÀÚ »ê¶õ coherent neutron scattering
°á¸Â´Â Áß¼ºÀÚ Èð¶ß¸² coherent neutron scattering
°á¸Â´Â ÆÛÅÙ¼È ¾î¸²¹ý coherent potential approximation
°á¸Â´Â Èð¶ß¸² coherent scattering
°á¸ÂÀ½ coherence
°á¸ÂÀ½ ±æÀÌ coherence length
°áºùÇÙ freezing nucleus
°á¾È¸Â´Â ºû incoherent light
°á¾È¸Â´Â ¿¢½º¼±Èð¶ß¸² incoherent X-ray scattering
°á¾È¸Â´Â Èð¶ß¸² incoherent scattering
°á¾È¸ÂÀ½ incoherence
°áÁ¤ crystal
°áÁ¤°áÇÔ crystal defect
°áÁ¤°æ°è grain boundary
°áÁ¤°è crystal system
°áÁ¤°ø°£»ìâ crystal space lattice
°áÁ¤±¤ÇÐ crystal optics
°áÁ¤±¸Á¶ crystal structure
°áÁ¤±º point groups
°áÁ¤±Þ crystal class
°áÁ¤³ª¶õÈ÷¿Å±è¿¬»ê crystal translation operation
°áÁ¤·Ð determinism
°áÁ¤·ÐÀû µ¿¿ªÇÐ deterministic dynamics
°áÁ¤·ÐÀû ¸¶±¸ÀâÀÌ deterministic randomness
°áÁ¤¸¶´ç crystal field
°áÁ¤¸¶´ç °¥¶óÁü crystal field splitting
°áÁ¤ ¸¶ÀÌÅ©·ÎÆù crystal microphone
°áÁ¤¸é crystal face
°áÁ¤¸é°¢ ÀÏÁ¤ÀÇ ¹ýÄ¢ law of constancy of interfacial angle
°áÁ¤ ¹°¸®ÇÐ physics of crystals
°áÁ¤º´Áø¿¬»ê crystal translation operation
°áÁ¤ºÐ±¤°è crystal spectrometer
°áÁ¤»ìâ crystal lattice
°áÁ¤ ¿¡³ÊÁö¶ì energy band in crystal
°áÁ¤¿¡µ¹ÀÌ¹ß crystal grating
°áÁ¤¿ªÇÐ crystal dynamics
°áÁ¤¿îµ¿·® crystal momentum
°áÁ¤ÀÇ crystalline
°áÁ¤ ÀÚ¶÷ crystal growth
°áÁ¤Á¾ crystal class
°áÁ¤Áú crystalline, crystalloid
°áÁ¤Ã¼ crystal
°áÁ¤Ãà crystal axis
°áÁ¤Ç¥¸é crystal surface
°áÁ¤ÇÊÅÍ crystal filter
°áÁ¤ÇÐ crystallography
°áÁ¤ÇÐÀû Ãà crystallographic axis
°áÁ¤ÇÙ crystalline germ, crystalline nucleus
°áÁ¤È crystallization
°áÁ¤È¿ heat of crystallization
°áÁ¤ È®¼º±â crystal loudspeaker
°áÇÔ defect, imperfection
°áÇÔ±¸Á¶ defect structure
°áÇÔ»ìâ defect lattice
°áÇÕ binding, bond, combination, coupling
°áÇÕ°¢ bond angle
°áÇÕµµ¼ö joint frequency
°áÇÕµÈ ¶³±â coupled oscillation
°áÇÕµÈ ¹æ½Ä coupled mode
°áÇÕµÈ ¾î¿ï¸²¶³°³ coupled harmonic oscillator
°áÇÕµÈ Àü±âȸ·Î coupled electric circuit
°áÇÕµÈ Àü±âÈ帧±æ coupled electric circuit
°áÇÕµÈ Á¶È¶³°³ coupled harmonic oscillator
°áÇÕµÈ Áøµ¿ coupled oscillation
°áÇÕ·»Áî combination lens
°áÇÕ·Â binding force
°áÇÕ¸ðÇü bonding model
°áÇÕ ¹«Áú¼ bond disorder
°áÇÕ¹æ½Ä coupling scheme
°áÇÕ¹ýÄ¢ associative law
°áÇÕºÐÆ÷ joint distribution
°áÇÕ»ó¼ö coupling constant
°áÇÕ¼º ±ËµµÇÔ¼ö bonding orbital
°áÇÕ¼º ºÐÀÚ ±ËµµÇÔ¼ö bonding molecular orbital
°áÇÕ¼¼±â bond strength
°áÇÕ¿¡³ÊÁö binding energy
°áÇÕ¿ø¸® combination principle
°áÇÕÀ½ combination tone
°áÇÕÇ®±â unbinding
°ã°áÁ¤ºÐ±¤°è double crystal spectrometer
°ã°áÇÕ double bond
°ã°íºñÁ¡ bicritical point
°ã²ªÀÓ birefringence, double refraction
°ã²ªÀÓ¼º birefringence
°ã´«±Ý double scale
°ãµµ¸£·¡ compound pulley
°ã¹Þ°³ double acceptor
°ãºû compound light, double light
°ã»ì dual beam
°ã»ìºÐ±¤°è double-beam spectrometer
°ã»ìÁú·®ºÐ¼®°è double beam mass spectrometer
°ã»óÅ doublet, doublet-state
°ã»ù doublet
°ã¼± doublet
°ã½ÇÆ´ double slit
°ãÃÊÁ¡·»Áî bifocal lens
°ãÃþ bilayer, double layer
°ãÄ¡±â overlap
°ãÄ¡±âÀûºÐ overlap integral
°ãÄ£ °íÀ¯°ª degenerate eigenvalue
°ãÄ£ °íÀ¯ÇÔ¼ö degenerate eigenfunction
°ãħ degeneracy, degeneration
°ãħ»óÅ degenerate state
°ãħ¼ö multiplicity
°ãÄÑ double layer
°ãÇÁ¸®Áò biprism
°ãÇö󽺸¶ ÀåÄ¡ double-plasma device
°ãÇ× doublet
°ãÇÙ compound nucleus
°ãÇÙÇü¼º compound-nucleus formation
°ãÈçµéÀÌ compound pendulum, double pendulum
°æ°è boundary
°æ°è°ª boundary value
°æ°è°ª ¹®Á¦ boundary value problem
°æ°è¸é boundary surface, interface
°æ°è¸é °ÅÄ¥±â interfacial roughness
°æ°è¸é ±¸Á¶ interfacial structure
°æ°è¸é ±Ø³ª´¸ interfacial polarization
°æ°è¸é ºÐ±Ø interfacial polarization
°æ°è¸é¿µ¿ª interface region
°æ°è¸éÀå·Â interfacial tension
°æ°è¸é ÄбæÈû interfacial tension
°æ°è¸é Çö󽺸¶¾Ë interface plasmon
°æ°è¸é Çö󽺸ó interface plasmon
°æ°èÁ¶°Ç boundary condition
°æ°èÃþ boundary layer
°æ±¸±âü hard sphere gas
°æµµ hardness, longitude
°æµµ°è hardnessmeter
°æµµÈ¿°ú longitude effect
°æ»ç inclination
°æ»ç°¢ dip
°æ»çÀü¾Ð ramp voltage
°æ»ç Àü¾Ð ¹ß»ý±â ramp voltage generator
°æ¼± meridian
°æ½É metacenter
°æÁú¹æ»ç¼± hard radiation
°æÁú¼ººÐ hard component
°æÁú¿¢½º¼± hard X-ray
°æÁúÀ¯¸® hard glass
°æÈ hardening
°ç¶ì side band
°ç¼ö coefficient
°è rank, system
°è±â instrument, meter
°è±â¾Ð·Â gauge pressure
°è±â¿ÀÂ÷ instrumental error
°è´Ü½Ä ¿¡µ¹ÀÌ¹ß echelon grating
°è´ÜÇÔ¼ö step function
°è·® metric
°è·®°ø°£ metric space
°è·®ÅÙ¼ metric tensor
°è¸éȰ¼ºÁ¦ surfactant
°è»ê±â calculating machine, calculator
°è»êÀÚ slide rule
°è¼ö counting, modulus, rank
°è¼ö°ü counter tube
°è¼ö±â counter, scaler
°è¼öÀ² counting rate
°è¼öÀ²°è rate meter
°è¼öÀåÄ¡ scaler
°è¼öȸ·Î scaling circuit
°è¼öÈ帧±æ scaling circuit
°è½Â factorial
°è¿ series
°è¿±ØÇÑ series limit
°è¿ ºØ±« series decay
°èÀü±â relay
°èÂ÷ difference
°èÂ÷¹ÌºÐ¹æÁ¤½Ä difference-differential equation
°èÂ÷¹æÁ¤½Ä difference equation
°èÃþ hierarchy
°èÃþ¸ðÇü hierarchical model
°èÃþ¼º hierarchy
°èÅë¿ÀÂ÷ systematic error
°èÅë¿Ö°î systematic distortion
°í°¥¿µ¿ª depletion region
°í°¥Ãþ depletion layer
°í°è high rank
°í´Ï¿À¹ÌÅÍ goniometer
°íµµ altitude, height
°íµµ°è altimeter
°í¶û trough
°í¸¥ °¡¼Óµµ¿îµ¿ uniformly accelerated motion
°í¸¥¹æ½Ä uniform mode
°í¸¥º¯Çü uniform strain
°í¸¥ºÐÆ÷ uniform distribution
°í¸¥¼ºÁú uniformity
°í¸¥¼Óµµ uniform velocity
°í¸¥¼ö·Å uniform convergence
°í¸¥¿îµ¿ uniform motion
°í¸¥¿ø¿îµ¿ uniform circular motion
°í¸¥ Àڱ⸶´ç uniform magnetic field
°í¸¥Àü±â´Ù¹ß uniform electric flux
°í¸¥Àü±â¸¶´ç uniform electric field
°í¸¥Àü±â¼Ó uniform electric flux
°í¸® loop, ring
°í¸® ¹æÀü ring discharge
°í¸® ÀÚ¼® ring magnet
°í¸® ÀúÇ× loop resistance
°í¸®Àü·ù loop current
°í¸³ isolation
°í¸³°è isolated system
°í¸³µÈ isolated
°í¸³Á¡ isolated point
°í¸³Æ¯ÀÌÁ¡ isolated singularity
°í¹æ»ç´É±¸¿ª hot area
°íºÐÀÚ macromolecule, polymer
°íºÐÀÚ ¿ì¹« polymer gel
°íºÐÇØ´É high resolving power
°íºñ°¢ critical angle
°íºñ°ª critical value
°íºñ³¡Á¡ critical end point
°íºñ´õµ®Áö±â critical slowing down
°íºñ¸¶´ç critical field
°íºñ¸¶Çϼö critical Mach number
°íºñ¹ÝÁö¸§ critical radius
°íºñºÎÇÇ critical volume
°íºñ»ó¼ö critical constant
°íºñ»óÅ critical state
°íºñ¼º criticality
°íºñ¼Óµµ critical velocity
°íºñ¾Ð·Â critical pressure
°íºñ¿¡³ÊÁö critical energy
°íºñ¿Âµµ critical temperature
°íºñÀڱ⸶´ç critical magnetic field
°íºñÀæ¾Æµë critical damping
°íºñÁ¡ critical point
°íºñÁ¡ÀÇ ÁöÇ¥ index of a critical point
°íºñÁ¶°Ç critical condition
°íºñÁ¶¼º critical composition
°íºñÁö¼ö critical exponent
°íºñÁú·® critical mass
°íºñÁü critical load
°íºñÅ©±â critical size
°íºñÇö»ó critical phenomenon
°íºñÈí¼ö critical absorption
°í»ßÇ®¸° ÀüÀÚ runaway electron
°í»ó¸é solidus surface
°í¼Ó high-speed
°í¼Ó°èÀü±â high speed relay
°í¼Ó´ÜÀý±â fast chopper
°í¼Ó»çÁø¹ý high speed photography
°í¼Ó ½ºÀ§Ä¡ high speed switch
°í¼Ó¿©´ÝÀÌ high speed switch
°í¼Ó ¿ø½ÉºÐ¸®±â high-speed centrifuge
°í¼Ó ¿øÀÚ·Î fast reactor
°í¼ÓÀÓ°è·Î fast critical assembly
°í¼ÓÀÚ¸£°³ fast chopper
°í¼ÓÁß¼ºÀÚ high speed neutron
°í¼ÓÁõ½Ä·Î fast breeder
°í¼Ó Çٺп ÀÎÀÚ fast fission factor
°í½ºÆ® ghost
°í½ºÆ® »ó ghost image
°í½ºÆ®»óÅ ghost state
°í¾Ð high pressure
°í¾Ð°è high pressure gauge
°í¾Ð ¾È°³»óÀÚ high pressure cloud chamber
°í¿¡³ÊÁö high energy
°í¿¡³ÊÁö °¨¸¶¼± high energy gamma radiation
°í¿¡³ÊÁö ÀÔÀÚ high energy particle
°í¿¡³ÊÁö ÀüÀÚ high energy electron
°í¿Áß¼ºÀÚ epithermal neutron
°í¿Â°è pyrometer
°í¿Â±âü ³Ã°¢ ¿øÀÚ·Î high temperature gas cooled reactor
°í¿Â ¿øÀÚ·Î high temperature reactor
°í¿ÂÀç°³ pyrometer
°í¿ÂÃøÁ¤ pyrometry
°í¿ÂÃøÁ¤¹ý pyrometry
°í¿ëü solid solution
°í¿ø plateau
°íÀ§ high rank
°íÀ¯°¢¿îµ¿·® intrinsic angular momentum
°íÀ¯°ª eigenvalue
°íÀ¯°ª ¹®Á¦ eigenvalue problem
°íÀ¯°á¸ÂÀ½±æÀÌ intrinsic coherent length
°íÀ¯±¤È¸Àüµµ specific rotatory power
°íÀ¯¶³±â proper oscillation, proper vibration
°íÀ¯¹ÝµµÃ¼ intrinsic semiconductor
°íÀ¯º¤ÅÍ eigenvector
°íÀ¯»óÅ eigenstate
°íÀ¯¼Ó¾µ¸² specific viscosity
°íÀ¯½Ã°£ proper time
°íÀ¯ ¿¡³ÊÁö intrinsic energy
°íÀ¯¿ÀÂ÷ inherent error, inherited error
°íÀ¯ ¿î¹ÝÀÚ intrinsic carrier
°íÀ¯ ¿î¹ÝÀÚ ³óµµ intrinsic carrier concentration
°íÀ¯À¯µµ intrinsic induction
°íÀ¯À½Á¤ proper tone
°íÀ¯ ÀÌ¿Âȵµ specific ionization
°íÀ¯ÀÓÇÇ´ø½º intrinsic impedance
°íÀ¯ÀÚ±â¸ð¸àÆ® intrinsic magnetic moment
°íÀ¯Àüµµ intrinsic conduction
°íÀ¯Áøµ¿ proper oscillation
°íÀ¯ÆÄÀå intrinsic wave length
°íÀ¯ÇÔ¼ö eigenfunction
°íÀú pitch
°íÀúÀü¾Ð°è high-low voltmeter
°íÀúÆÄµ¿ high-and-low wave
°íÀü°¡¼³ classical hypothesis
°íÀü¹°¸®ÇÐ classical physics
°íÀü¿ªÇÐ classical mechanics
°íÁ¤ fixing
°íÁ¤³¡ fixed end
°íÁ¤µµ¸£·¡ fixed pulley
°íÁ¤¾× fixing solution
°íÁ¤ÀÚ stator
°íÁ¤ÀúÇ× fixed resistance
°íÁ¤Á¡ fixed point
°íÁ¤ÁÙÅ丮 fixed coil
°íÁ¤ÃàÀü±â fixed capacitor
°íÁÖÆÄ radio frequency [=RF]
°íÁ֯İ¡¸¶ radio-frequency (induction) furnace
°íÁ֯ĹæÀü radio-frequency discharge
°íÁÖÆÄ À¯µµ·Î radio-frequency (induction) furnace
°íÁÖÆÄÀ̲ûÀü±â°¡¸¶ radio-frequency (induction) furnace
°íÁÖÆÄÀü·ù radio-frequency current
°íÁÖÆÄÁõÆø radio frequency amplification
°íÁø°ø high vacuum
°íÁøµ¿¼ö high-frequency
°íÁøµ¿¼ö °¡¿ high-frequency heating
°íÁøµ¿¼ö µµ°¡´Ï high-frequency furnace
°íÁøµ¿¼ö Àý¿¬¹° high-frequency insulator
°íÁøµ¿¼ö ÁõÆø±â high-frequency amplifier
°íÁøµ¿¼ö ÆÄµ¿ high-frequency wave
°íÁøµ¿¼ö ȸ·Î high-frequency circuit
°íÂ÷ high degree
°íÂ÷°è high degree
°íÂ÷µµÇÔ¼ö derivative of high order
°íÂ÷ À¯Ã¼µ¿¿ªÇйæÁ¤½Ä higher-order hydrodynamic equation
°íÂ÷ À¯Ã¼¿ªÇйæÁ¤½Ä higher-order hydrodynamic equation
°íü solid
°íü°ËÃâ±â solid state detector
°íü ·¹ÀÌÁ® solid state laser
°íü ¸ÞÀÌÁ® solid state maser
°íü¹°¸®ÇÐ solid state physics
°íü»ó solid phase
°íü»óÅ solid state
°íü¼ÒÀÚ solid state component
°íü¿ë¾× solid solution
°íüÀý¿¬¹° solid insulator
°íü Çö󽺸¶ solid state plasma
°íÃ¼È solidification
°íüȰ solidus curve
°íüȿ heat of solidification
°íüÈÇ¥¸é solidus surface
°î·ü curvature
°î·üÁ᫐ center of curvature
°î·üÇ¥·ù curvature drift
°î¼±ÁÂÇ¥°è curvilinear coordinates system
°îÀ² vergence
°ðº¸±â ºÐ±¤±â direct vision spectroscope
°ðº¸±âÇÁ¸®Áò direct vision prism
°ðÃß series
°ðÃߵǸÔÀÓÁõÆø±â series feed-back amplifier
°ðÃßÀÕ±â series connection
°ðÃßÀÚ±âÈ帧±æ series magnetic circuit
°ðÃß ÀúÇ× series resistance
°ðÃßÃàÀü±â series capacitor
°ðÃßÈ帧±æ series circuit
°ñ trough
°ñµå½´¹ÌÆ® ¹ÝÁö¸§ Goldschmidt radius
°ö¼ÀÇ¥ multiplication table
°ø sphere
°ø°£ space
°ø°£°£°Ý intervals of space
°ø°£°á¸ÂÀ½ spatial coherence
°ø°£°á¸ÂÀ½¼º spatial coherence
°ø°£±³È¯¿¬»êÀÚ space exchange operator
°ø°£±º space group
°ø°£²Ã°£°Ý space-like interval
°ø°£µÚÁýÈû space inversion
°ø°£¶³±â¼ö spatial frequency
°ø°£¹«¸® space group
°ø°£¹Ù²Þ¿¬»êÀÚ space exchange operator
°ø°£ºÐÇØ´É spatial resolution
°ø°£»ìâ space lattice
°ø°£¾çÀÚÈ space quantization
°ø°£¿îµ¿ space motion
°ø°£Àû spatial
°ø°£ÀüÇÏ space charge
°ø°£ÀüÇÏÈ¿°ú space charge effect
°ø°£Áøµ¿¼ö spatial frequency
°ø°£ÅõÀÚÀ² space permeability
°ø°£ Çö󽺸¶ space plasma
°ø±¸ tool
°ø±â air
°ø±â±âµÕ air column
°ø±â±âµÕ °ø¸íÀåÄ¡ air column resonance apparatus
°ø±â±âµÕ ²¸¿ï¸²ÀåÄ¡ air column resonance apparatus
°ø±âºÎ»ó±Ëµµ air track
°ø±âºÎ»ó´ë air table
°ø±â»þ¿ö air shower
°ø±â¾ÐÃà±â air compressor
°ø±â ¾×ÈÀåÄ¡ air liquefying apparatus
°ø±â¿ªÇÐ aerodynamics
°ø±âÀúÇ× air resistance
°ø±âÁßÅÁ air bath
°ø±âÆßÇÁ air pump
°ø´ëĪ spherical symmetry
°øµ¿ cavity
°øµ¿º¹»ç hollow space radiation
°ø¸® axiom
°ø¸í resonance
°ø¸í°î¼± resonance curve
°ø¸í±â resonator
°ø¸í¹æ½Ä resonance mode
°ø¸í¹üÀ§ resonance range
°ø¸íº¹»ç resonance radiation
°ø¸í»ê¶õ resonance scattering
°ø¸í»óÀÚ resonance box
°ø¸í»óÅ resonance state
°ø¸í¼± resonance line
°ø¸í½ÅÈ£ resonance signal
°ø¸í¿¡³ÊÁö resonance energy
°ø¸íÀÌ·Ð resonance theory
°ø¸íÀÌŻȮ·ü resonance escape probability
°ø¸íÀÔÀÚ resonance particle
°ø¸íÁØÀ§ resonance level
°ø¸íÁøµ¿ resonance oscillation
°ø¸íÁøµ¿¼ö resonance frequency
°ø¸íÁøÆø resonance amplitude
°ø¸íÆÛÅÙ¼È resonance potential
°ø¸íȸ·Î resonance circuit
°ø¸íÈ¿°ú resonance effect
°ø¸íÈí¼ö resonance absorption
°ø¸ð¾ç º°¼ÛÀÌ globular cluster
°ø¸ð¾ç Àü±âµéÀÌ spherical condenser
°øº¯ covariant
°øº¯ µµÇÔ¼ö covariant derivative
°øº¯¹ÌºÐ covariant differntiation
°øº¯ º¤ÅÍ covariant vector
°øº¯¼º covariance
°øº¯ÁöÇ¥ covariant index
°øº¯ ÅÙ¼ covariant tensor
°øºÐ»ê covariance
°ø½Ä formula
°ø½ÄÈ formulation
°ø½É homocentric
°ø½É±¤Çаè concentric optical system
°ø¾× conjugate
°ø¾×±¤¼± conjugate rays
°ø¾×±º conjugate group
°ø¾×º¹¼Ò¼ö conjugate complex number
°ø¾×½Ö conjugate pair
°ø¾×¿ø¼Ò conjugate element
°ø¾×ÀÚ¸®Ç¥ conjugate coordinate
°ø¾×ÁÂÇ¥ conjugate coordinate
°ø¾×ÃÊÁ¡ conjugate focus
°ø¾×ÆÄµ¿ conjugated wave
°ø¾×ÇÔ¼ö conjugate function
°øÀ¯°áÇÕ covalent binding, covalent bond, covalent bonding
°øÀ¯°áÇÕ°áÁ¤ covalent crystal
°øÀ¯¿øÀÚ°¡ covalence
°øÀ¯ÀüÀÚ shared electron
°øÀ¶ eutectic
°øÀ¶Á¡ eutectic point
°øÀÛ¹° work
°øÀÛ½Ç workshop
°øÀü revolution
°øÀüÃà axis of revolution
°øÁ¸°î¼± coexistence curve
°øÁýÇÕ empty set
°øÇÐ engineering
°ú³Ã°¢ supercooled, supercooling
°ú³Ã°¢±¸¸§ supercooled cloud
°ú³Ã°¢ µÈ supercooled
°ú³Ã°¢¾×ü supercooled liquid
°ú³Ã°¢Áõ±â supercooled vapor
°ú³á target
°ú³á¾Ë°»ÀÌ target particle
°ú³áÀÔÀÚ target particle
°ú³á ÇÙ target nucleus
°ú´Ù°¨±¤ solarization
°úµµÀÇ ultra
°úµµÀû transient
°úµµÀü·ù transient current
°úµµÆòÇü transient equilibrium
°úµµÇö»ó transient phenomenon
°ú¿ superheating
°ú¿¾×ü superheated liquid
°ú¿Á¡ hot spot
°ú¿Áõ±â superheated vapo(u)r
°úÀ× excess
°úÀ×¹ÝÀÀµµ excess reactivity
°úÀ×ÀüÀÚ excess electron
°úÀü¾Ð overvoltage
°úÀüÀ§ overpotential
°úÁ¤ process
°úÃæÀü overcharge
°úÆ÷È supersaturation
°úÆ÷ÈÁõ±â supersaturated vapo(u)r
°ü·Ãº¯¼ö relevant variable
°ü¼º inertia
°ü¼º°è inertial system
°ü¼º·Â force of inertia, inertial force
°ü¼º¸ð¸àÆ® moment of inertia
°ü¼º¹ÙÄû flywheel
°ü¼ºÀÇ °ö product of inertia
°ü¼ºÀÇ ¹ýÄ¢ law of inertia
°ü¼ºÀú¿ï inertial balance
°ü¼ºÀúÇ× inertial resistance
°ü¼ºÁÖÃà principal axis of inertia
°ü¼ºÁú·® inertial mass
°ü¼ºÅ¸¿øÃ¼ ellipsoid of inertia, inertia ellipsoid
°ü¼ºÅÙ¼ inertia tensor
°ü¼ºÆÄµ¿ inertial wave
°ü¼ºÈû force of inertia, inertial force
°üÂû observation
°üÃø observation
°üÃø°¡´É·® observable
°üÃø°ª observed value
°üÃø¿ÀÂ÷ observation error
°üÃøÀÚ observer
±¤ light
±¤°¥·¡ optical branch
±¤ °í¿Â°è optical pyrometer
±¤±¸[žçÀÇ] photosphere
±¤±âÀü·Â photoelectromotive force
±¤±âÀü·Â ÀüÁö photovoltaic cell
±¤±âÀü·ÂÈ¿°ú photovoltaic effect
±¤³â light-year
±¤µµ candle power, luminosity, luminous intensity
±¤µµ°è photometer
±¤·® quantity of light
±¤¹°Áú mineral
±¤ ¹Ý»çµµ optical reflectivity
±¤ºØ±« photodisintegration
±¤»ý¼º photoproduction
±¤¼®°ËÆÄ±â crystal detector
±¤¼®¼ö½Å±â crystal receiver
±¤¼± ray, ray of light
±¤¼±¼Ó beam of light, luminous flux, pencil of light lay
±¤¼±ÃßÀû ray tracing
±¤¼Ó speed of light
±¤¼Óµµ velocity of light
±¤¼ÓµµºÒº¯ÀÇ ¿ø¸® principle of constancy of light velocity
±¤¾Ð light pressure, pressure of light
±¤¾çÀÚ light quantum
±¤¿ ÀüÁö photothermal cell
±¤ À¯¸® optical glass
±¤À½±Ø photocathode
±¤ ÀÌ¿ÂÈ photoionization
±¤ÀÔÀÚ light corpuscle
±¤ÀÚ photon
±¤ÀÚ±âü photon gas
±¤ÀÚ¼º photomagnetism
±¤ÀÚ ¼ö¼À photon counting
±¤ÀúÇ× photo resistance
±¤Àü°í¿Â°è photoelectric pyrometer
±¤Àü°ü photoelectric tube
±¤Àü±¤µµ°è photoelectric photometer
±¤Àü±Ø photoelectrode
±¤Àüµµ photoconduction
±¤Àüµµµµ photoconductivity
±¤ÀüµµÃ¼ photoconductor
±¤Àü·ù photocurrent, photoelectric current
±¤Àü¹®ÅÎ photoelectric threshold
±¤ÀüÀÚ photoelectron
±¤ÀüÀÚ°øÇÐ optoelectronics
±¤ÀüÀÚ¹æÃâ photoemission
±¤ÀüÀÚ Áõ¹è°ü photomultiplier tube
±¤ÀüÀÚÁõ¹è±â photomultiplier
±¤ÀüÀüȯ photoelectric conversion
±¤ÀüÁö photocell, photoelectric cell
±¤ÀüÁö±¤µµ°è photocell photometer
±¤ÀüÁýÀûȸ·Î opto-electronic integrated circuit [=OEIC]
±¤ÀüÈ¿°ú photoelectric effect
±¤Á¡ light point, light spot, optical point
±¤Á᫐ optical center
±¤Ãà optical axis
±¤ÄÄÇ»ÅÍ optical computer
±¤Åº¼º photoelasticity
±¤ ź¼ºÃà optical elasticity axis
±¤ÆÄ light wave
±¤ ÆßÇÎ optical pumping
±¤ÇÐ optics
±¤Çа¢ optical angle
±¤Çаè optical system
±¤Çбâ±â optical instrument
±¤Çдë optical bench
±¤ÇиðÇü optical model
±¤ÇÐ ¹æ½Ä optical mode
±¤Çлó¼ö optical constant
±¤ÇмҸ®¾Ë optical phonon
±¤ÇÐÀ̼º optical isomerism
±¤ÇÐÀûºñÁ¤»ó optical anomaly
±¤ÇÐÀû ¼ºÁú optical property
±¤ÇÐÀûÀ¸·Î ¹ÐÇÑ optically dense
±¤ÇÐÀûÀ¸·Î ¼º±ä optically rare
±¤ÇÐÀûÀ¸·Î ¼ÒÇÑ optically rare
±¤ÇÐÀûÀ¸·Î £Àº optically dense
±¤ÇÐÀûÂø°¢ optical illusion
±¤ÇÐÁ¤¸® optical theorem
±¤ÇÐÁö·¹ optical lever
±¤ÇÐÆÛÅÙ¼È optical potential
±¤ÇÐÆ÷³í optical phonon
±¤ÇÐ Çö¹Ì°æ optical microscope
±¤ÇÐÇö»ó optical phenomena
±¤ÇÕ¼º photo synthesis
±¤Çظ® photodissociation
±¤ÇÙ¹ÝÀÀ photonuclear reaction
±¤Çٺп photofission
±¤Çà·Î optical path
±¤Çà·Î ±æÀÌ optical path length
±¤Çà·Î¿ªÁøÀÇ ¿ø¸® principle of reversibility of light path
±¤Çà·ÎÂ÷ optical path difference
±¤Çà½Ã°£ light time
±¤ÇàÂ÷ aberration
±¤ÇàÂ÷°¢ angle of aberration
±¤ÈÇйÝÀÀ photochemical reaction
±¤È°¼ºµµ optical activity
±¤Èí¼ö optical absorption
±³´ë´ëĪ skew symmetric
±³¶õ disturbance
±³·ù alternating current [=AC]
±³·ù±âÀü·Â alternating electromotive force
±³·ù¹°¸Å ½ÌÅ©·ÎÆ®·Ð alternating gradient synchrotron
±³·ù¹ßÀü±â AC generator, alternating current generator
±³·ùÀü±â»ù AC power source
±³·ùÀüµ¿±â AC motor, alternating current motor
±³·ùÀü·ù°è AC meter, alternating current ammeter
±³·ùÀü¾Ð AC voltage, alternating current voltage
±³·ùÀü¾Ð°è AC voltmeter, alternating current voltmeter
±³·ùÀü¿ø AC power source
±³·ùÁ¤·ùÀÚ Àüµ¿±â AC commutator motor
±³·ùȸ·Î AC circuit, alternating current circuit
±³·ùÈ帧±æ AC circuit, alternating current circuit
±³Á¡ node
±³Áú colloid
±³Â÷ cross-over, crossover
±³Â÷ ´«±ÝÀâ±â crossover scaling
±³Â÷ ¿¡µ¹ÀÌ¹ß cross grating
±³Â÷À̵¿ crossover
±³Â÷Á¡ intersection
±³Â÷Áö¼ö crossover exponent
±³Â÷Ãàô crossover scaling
±³È¯ exchange
±³È¯°ãħ exchange degeneracy
±³È¯°ü°è commutation relation
±³È¯±¸¸Û exchange hole
±³È¯·Â exchange force
±³È¯¹ÝÀÀ exchange reaction
±³È¯¹ýÄ¢ commutative law
±³È¯»óÈ£ÀÛ¿ë exchange interaction
±³È¯¿¡³ÊÁö exchange energy
±³È¯¿¬»êÀÚ exchange operator
±³È¯ÀÚ commutator
±³È¯ÀÚ°ýÈ£ commutator bracket
±³È¯ÀûºÐ exchange integral
±³È¯Á¼¾ÆÁö±â exchange narrowing
±³È¯Áøµ¿¼ö exchange frequency
±¸ quadrature, sphere
±¸°£ interval
±¸°á±¤¼± saggital ray
±¸°á¸é saggital plane
±¸°æ aperture
±¸°æ²Û»ó spectator phase
±¸°æºñ aperture ratio
±¸°æ Á¶¸®°³ aperture stop
±¸´ëĪ spherical symmetry
±¸µ¿·Â driving force
±¸·¿³ª·í ¶Ç¾Æ¸® whiskered torus
±¸¸§ cloud
±¸¸§ ¹°¸®ÇÐ cloud physics
±¸¸® Àü±â·®Àç°³ copper voltmeter
±¸¸Û aperture, hole, pore
±¸¸Û »óÅ hole state
±¸¸Û ÀÌ·Ð hole theory
±¸¸Û ÀÚ¸®±æ hole orbit
±¸¸ÛÀüµµ hole conduction
±¸¸Û Àü·ù hole current
±¸¸Û ÁÖÀÔ hole injection
±¸¸ÛÅ©±âºñ aperture ratio
±¸¸Û Çü½Ä hole formalism
±¸¸é spherical surface
±¸¸é°¢ spherical angle
±¸¸é°Å¿ï spherical mirror
±¸¸é°è spherometer
±¸¸é°î·ü spherical curvature
±¸¸é°î¼± spherical curve
±¸¸é±ØÀÚ¸®Ç¥ spherical polar coordinate
±¸¸é±ØÁÂÇ¥ spherical polar coordinate
±¸¸é²®Áú spherical shell
±¸¸é³ëÀ̸¸ÇÔ¼ö spherical Neumann function
±¸¸é´ëΏ¶´ç spherically symmetric field
±¸¸é¸ðÇü spherical model
±¸¸é¹þ¾î³² spherical aberration
±¸¸éº£¼¿ÇÔ¼ö spherical Bessel function
±¸¸é¼öÂ÷ Áö¿ò aplanat
±¸¸é¼öÂ÷ Áö¿ò·»Áî aplanatic objective
±¸¸é¼öÂ÷ Áö¿òÁ¡ aplanatic point
±¸¸é ¾Æ´Ñ aspheric
±¸¸é ¾î¿ï¸²ÅÙ¼ spherical harmonic tensor
±¸¸é ¾î¿ï¸²ÇÔ¼ö spherical harmonic function, spherical harmonics
±¸¸éÀÚ¸®Ç¥ spherical coordinates
±¸¸éÁ¶ÈÅÙ¼ spherical harmonic tensor
±¸¸éÁ¶ÈÇÔ¼ö spherical harmonic function, spherical harmonics
±¸¸éÁÂÇ¥ spherical coordinates
±¸¸éÃàÀü±â spherical condenser
±¸¸éÆÄµ¿ spherical wave
±¸¸éÇ×ÄÌÇÔ¼ö spherical Hankel function
±¸¸éÈçµéÀÌ spherical pendulum
±¸º°ºÒ°¡´É indistinguishability
±¸»ó¼º´Ü globular cluster
±¸¼º À±°û composition profile
±¸¼Ó constraint
±¸¼ÓµÈ ¿îµ¿ constrained motion
±¸¼Ó·Â constraining force, force of constraint
±¸¼Ó¹æÁ¤½Ä equation of constraint
±¸¼ÓÈû force of constraint
±¸½É°¡¼Óµµ centripetal acceleration
±¸½É·Â centripetal force
±¸½ÉÈû centripetal force
±¸¿ª domain, zone
±¸¿ª±×¸² block diagram
±¸¿ª³ìÀÓ zone melting
±¸¿ª µµÇ¥ block diagram
±¸¿ªº® domain walls
±¸¿ª¾ç½Ä zone scheme
±¸¿ªÁ¤Á¦ zone refining
±¸Àû¹ý quadrature
±¸Á¶ structure
±¸Á¶³Êºñ structure amplitude
±¸Á¶»ó¼ö structure constant
±¸Á¶»óÀüÀÌ structural transition
±¸Á¶À̼º structure isomerism
±¸Á¶ÀÎÀÚ structure factor
±¸Á¶Ãþ layer of structure
±¸Á¶ÇÔ¼ö structure function
±¸Áß»óÅ nonet
±¸Áß¼º nonet
±¸ÁßÇ× nonet
±¹¼Ò±³È¯¼º local commutativity
±¹¼Ò´ëĪ local symmetry
±¹¼Ò¸ð¸àÆ® localized moment
±¹¼Ò ¿¿ªÇÐÀû ÆòÇü local thermodynamic equilibrium
±¹¼ÒÀü·ù local current
±¹¼ÒÀüÁö local cell
±¹¼Ò Ãæ°Ý localized impact
±¹¼ÒÆòÇü local equilibrium
±¹¼Ò Æ÷³í¹æ½Ä localized phonon mode
±¹¼ÒÈ localization
±¹Á¦´ÜÀ§°è system of international unit [=SI]
±¹Á¦µµ·®Çü±¹ international Bureau of Standards
±¹Á¦º¼Æ® international volt
±¹Á¦¼ø¼ö ¹× ÀÀ¿ë¹°¸®¿¬ÇÕȸ International Union of Pure and Applied Physics
±¹Á¦¿ÂµµÃ´µµ international Temperature Scale
±¹Á¦¿ø±â international prototype
±¹Á¦¿øÀڷ±ⱸ international Atomic energy Agency
±¹Á¦Áö±¸¹°¸®°üÃø³â International Geophysical Year [=IGY]
±º group
±º ±¸Á¶ structure of group
±º·Ð group theory
±º¹öij sinter
±º »ó¼ö group constant
±º¼Óµµ group velocity
±ºÀÇ Â÷¼ö order of a group
±ºÀÌ·Ð theory of groups
±º Ç¥Çö group representation
±»±â hardness
±»±âÀç°³ hardnessmeter
±»±âÁ¡ solidifying point
±»±âÁ¡ ³»¸² solidifying point depression
±»Àº¸ð hardware
±»Àº ¹æ»ç¼± hard radiation
±»Àº ¿¢½º¼± hard X-ray
±»Àº ÃÊÀüµµÃ¼ hard superconductor
±¼´ë axial, axis, rotation axis, rotational axis
±¼´ëºñ axial ratio
±¼´ëÀÇ axial
±¼´ëÃà wheel axle
±¼¸² rolling
±¼¸²´ë roller
±¼¸²¾µ¸² rolling friction
±¼¸²¾µ¸²°ç¼ö coefficient of rolling friction
±¼¸²¾µ¸²Èû rolling frictional force
±¼¸²¿îµ¿ rolling motion
±¼Àý refraction
±¼Àý°¢ angle of refraction, refraction angle
±¼Àý°ç¼ö refraction coefficient
±¼Àý°è refractometer
±¼Àý ±¤¼± refracted ray
±¼Àý³¯ refracting edge
±¼Àýµµ refractivity
±¼Àý·ü refractive index
±¼Àý¸Á¿ø°æ refracting telescope, refractor telescope
±¼Àý ¼± refracted ray
±¼ÀýÀ² index of refraction
±¼ÀýÀÇ ¹ýÄ¢ law of refraction
±ÁÀº¼±ÀÚ¸®Ç¥°è curvilinear coordinates system
±ÁÀºÀ²Á᫐ center of curvature
±ÁÀ½·ü curvature
±ÁÀ½·ü ¹ÝÁö¸§ radius of curvature
±ÁÀ½À² ¶°µº curvature drift
±ÁÈûÀÇ °¼º·ü flexural rigidity
±Ëµµ orbit
±Ëµµ°¢¿îµ¿·® orbital angular momentum
±Ëµµ´ã±ÝÁú orbital quenching
±Ëµµº¯È¯ switch of orbit
±Ëµµ¾çÀÚ¼ö orbital quantum number
±ËµµÀüÀÚ orbital electron
±ËµµÀüÀÚ Æ÷ȹ orbital electron capture
±ËµµÇÔ¼ö orbital, orbital function
±ËµµÇÔ¼ö¹Ðµµ density of orbitals
±ËÀû locus, trajectory
±Í±Ý¼Ó noble metal
±Í³³¹ý induction
±Í³³ÀûÁ¤ÀÇ recursive definition
±ÔÄ¢ÀûÀÎ Âî±×·¯Áü regular distortion
±Õ¿ fracture
±ÕÀϹæ½Ä uniform mode
±ÕÀϺ¯Çü uniform strain
±ÕÀÏºÐÆ÷ uniform distribution
±ÕÀϼº uniformity
±ÕÁú homogeneous
±ÕÁú°è homogeneous system
±ÕÁú´ë±â homogeneous atmosphere
±ÕÁú¹°Áú homogeneous substance
±ÕÁú¹æ»ç¼± homogeneous radiation
±ÕÁúº¯Çü homogeneous strain
±ÕÁúº¯È homogeneous change
±ÕÁúºÐÆ÷ homogeneous distribution
±ÕÁúºÙÀÓ homojunction
±ÕÁúºñ±è homogeneous equilibrium
±ÕÁúºû homogeneous light
±ÕÁú¼º homogeneity
±ÕÁú ¿¢½º¼± homogeneous X-ray
±ÕÁú¿øÀÚ·Î homogeneous nuclear reactor
±ÕÁúÁ¢ÇÕ homojunction
±ÕÁúÆòÇü homogeneous equilibrium
±ÕÇü balance
±×·¡´×°Å µµÇ¥ Greninger chart
±×·¡ÆÄÀÌÆ® graphite
±×·¡ÇÁ graph
±×·¡ÇÁ¹ý graphical method
±×·¡ÇÁ ¿ëÁö graph paper
±×·¥[Áú·®´ÜÀ§] gram [=g]
±×·¥ºÐÀÚ·® gram molecular weight, gram molecule
±×·¥¿øÀÚ gram atom
±×·¥Áß[¹«°Ô ¶Ç´Â ÈûÀÇ ´ÜÀ§] gram weight
±×·¥Èû[¹«°Ô ¶Ç´Â ÈûÀÇ ´ÜÀ§] gram force
±×·¹°í¸® ¸Á¿ø°æ Gregorian telescope
±×·ò³ªÀÌÁ¨ »ó¼ö Gruneisen constant
±×¸®´ÏÄ¡ Æò±Õ½Ã Greenwich mean time
±×¸®µå grid
±×¸®µå °Å²ÜÀü·ù inverse grid current
±×¸®µå °ËÆÄ grid detection
±×¸®µå ¹ÙÀ̾ grid bias
±×¸®µå ¹ÙÀ̾ Àü¾Ð grid bias voltage
±×¸®µå º¯Á¶ grid modulation
±×¸®µå ¿ªÀü·ù inverse grid current
±×¸®µå Àü·ù grid current
±×¸®µå ÆÛÅÙ¼È grid potential
±×¸°ÀÇ Á¤¸® Green's theorem
±×¸°-Äíº¸ °ø½Ä Green-Kubo formula(e)
±×¸°ÇÔ¼ö Green function
±×¸² figure
±×¸²ÀÚ shadow
±×¸²Ç¥ graph
±×¹° mesh, network
±×¹°´« mesh
±×¹°¸é net plane
±×¹°¾ó°³ network
±Ø pole
±Ø°¢ ¸¶´ç poloidal field
±Ø°¥¸² polarization
±Ø°¥¸²¸é plane of polarization
±Ø°¥¸² ºÐ¼® polarimetric analysis
±Ø°¥¸²¼º polarizability
±Ø°¥¸²¾Ë polariton
±Ø°¥¸²À² polarizability
±Ø°¥¸²Àç°³ polarimeter
±Ø°¥¸²ÀüÇÏ polarization charge
±Ø°¥¸²ÆÄ±¹ polarization catastrophe
±Ø°¥¸² ÆÞ½º polarization pulse
±Ø°¥¸²È¿°ú polarization effect
±Ø°ª extremum
±Ø±¤ aurora
±Ø³ª´¸ polarization
±Ø³ª´¸¼º polarizability
±Ø´ÜÀÇ ultra
±Ø´ë maximum
±Ø´ë°ª maximum value
±Ø´ëÀÇ extremal
±Ø¸é polar
±Ø¹Ì·®ÃµÄª micro-micro balance
±Ø¼± polar axis
±Ø¼º polar, polarity
±Ø¼º°áÇÕ polar bond, polar linkage
±Ø¼ºº¤ÅÍ polar vector
±Ø¼ººÐÀÚ polar molecule
±Ø¼º¾Ë polaron
±Ø¼º¾Ë °áÇÕ»ó¼ö polaron coupling constant
±Ø¼Ò minimum
±Ø¼Ò°ª minimum value
±Ø¾ø¾Ø ºûÈð¶ß¸² depolarized light scattering
±Ø¾ø¾Ú depolarization
±Ø¾ø¾Ú ¸¶´ç depolarization field
±Ø¿øÀû¿Ü¼± extreme infrared rays
±ØÀÚ¸®Ç¥ polar coordinate
±ØÁÂÇ¥ polar coordinate
±ØÁö¿ì°³ depolarizer
±ØÃʰíÁø°ø extreme ultrahigh vacuum
±ØÃÊ´ÜÆÄ Ultra High Frequency
±ØÃÊÀ½¼Ó hypersonic, hypersonic speed
±ØÃà[¸Á¿ø°æÀÇ] polar axis
±ØÆÇ pole plate
±ØÇÑ limit
±ØÇѰª limit value, limiting value
±ØÇÑ ¹ýÄ¢ limiting law
±ØÇÑÁ¡ limiting point
±ØÇü½Ä polar form
±Ù root
±Ùº» ƯÀ̼º essential singularity
±Ù½Ã myopia, short-sightedness
±Ù½Ã¾È myopic eye
±ÙÀÏÁ¡ perihelion
±ÙÀڿܼ± near ultraviolet ray
±ÙÀû¿Ü¼± near infrared, near infrared ray
±ÙÁ¡ near point
±ÙÁ¢È¿°ú proximity effect
±Û¶óÀÌµå ´ëΏé glide plane
±Û·Î glow
±Û·Î ¹æÀü glow discharge
±Û·ç¿Â gluon
±Ý°¨ fracture
±Ý°¼® diamond
±Ý¹Ú°ËÀü±â gold-leaf electroscope
±Ý¼º Venus
±Ý¼Ó metal
±Ý¼Ó°£ÈÇÕ¹° intermetallic compound
±Ý¼Ó°áÇÕ metallic bond
±Ý¼Ó°øÇÐ metallurgy
±Ý¼Ó±¸ metal ball
±Ý¼Ó±¸ ¿ÆØÃ¢ ½ÇÇè±â thermal expansion ball and ring
±Ý¼Ó²ÀÁö metal tip
±Ý¼Ó¹Ú°ËÀü±â leaf electrometer
±Ý¼Ó»óÅ metallic state
±Ý¼Ó¼º ÀüµµÃ¼ metallic conductor
±Ý¼Ó¿Âµµ°è metallic thermometer
±Ý¼Ó ÀüµµÃ¼ metallic conductor
±Ý¼Ó ÀüÀÚÀÌ·Ð electron theory of metals
±Ý¼Ó-Àý¿¬Ã¼ ÀüÀÌ metal-insulator transition
±Ý¼ÓÁ¤·ù±â metal rectifier
±Ý¼ÓÇö¹Ì°æ metallurgical microscope
±ÝÁöµÈ °úÁ¤ forbidden process
±ÝÁöµÈ ¶ì forbidden band
±ÝÁöµÈ ¼± forbidden line
±ÝÁöµÈ ÀüÀÌ forbidden transition
±ÝÈ«¼® rutile
±Þ class
±Þ¼ö series
±Þ¼öÀü°³ series expansion
±Þ¼öÀü°³ ±â¹ý series expansion technique
±â°¡[=10E9] giga
±â°è machine
±â°øµµ porosity
±â°ø·ü porosity
±â°ü engine
±â±¸ instrument, mechanism
±â±¸¿ÀÂ÷ instrumental error
±â´É function
±â´ë°ª expectation value
±âµÕ column
±â·Ï°è recording meter
±â·Ï±â recorder
±â¸§¹æ¿ï ½ÇÇè oil drop experiment
±â¸§ÆÛÁü ÆßÇÁ oil diffusion pump
±â¹¦µµ strangeness
±â¹¦¼ö strangeness number
±â¹¦¾çÀÚ¼ö strangeness quantum number
±â¹¦ÀÔÀÚ strange particle
±â¹ý technique
±âº»°è¿ fundamental series
±âº»°úÁ¤ elementary process
±âº»³ª¶õÈ÷¿Å±è elementary translation
±âº»³¹Ä primary cell
±âº»´ÜÀ§ fundamental unit
±âº»µé¶ä elementary excitation
±âº»¶³±â fundamental vibration
±âº»º¤ÅÍ fundamental vector
±âº»º´Áø elementary translation
±âº»»ì⺤ÅÍ principal lattice vector
±âº»»óÈ£ÀÛ¿ë fundamental interaction
±âº»¼·ÎÀÛ¿ë fundamental interaction
±âº»¾Ë°»ÀÌ fundamental particle
±âº»À½ fundamental tone
±âº»ÀÔÀÚ fundamental particle
±âº»ÀüÇÏ elementary charge, elementary electric charge
±âº»ÀüÇÏ·® elementary quantum of electricity
±âº»ÅÙ¼ fundamental tensor
±âº»ÆÄµ¿ elementary wave
±â»óÇÐ meteorology
±â¼± basis
񃬣 technique
±â¾Ð[´ÜÀ§] atmosphere, atmospheric pressure, barometric pressure, pressure
±â¾Ð°è atmospheric barometer, barometer
±â¾ÐºÐÆ÷ barometric distribution
±â¾ÐÀç°³ barometer
±â¾î gear
±â¾ïÇÔ¼ö memory function
±â¾ïÈ¿°ú memory effect
±â¿ï±â slope
±â¿ïÁ᫐ metacenter
±â¿ò°¢[º¹¼Ò¼öÀÇ] argument
±â¿ø origin
±âÀÚ·Â magnetomotive force
±âÀú basis
±âÀü°è¿ electromotive series
±âÀü±â electrostatic generator
±âÀü·Â electromotive force [=emf]
±âÀü·Â»ù seat of electromotive force
±âÁ¶·Â tidal force
±âÁØ basis, normal
±âÁذè reference system
±âÁض³±â normal vibration
±âÁعæ½Ä normal mode
±âÁØ ºÏ±Ø normal North pole
±âÁØÀÚ¸®Ç¥ normal coordinate
±âÁØÀúÇ× reference resistor
±âÁØÁ¡ standard point
±âÁØÁÂÇ¥ normal coordinate
±âÁØÆ² frame of reference, reference frame
±âü gas
±âü±¼Àý°è gas refractometer
±âü³Ã°¢ÀåÄ¡ gas-cooled reactor
±âü³Ãµ¿±â gas refrigerator
±âüµÇ±â evaporation
±âü·¹ÀÌÀú gas laser
±âü¹ÝÀÀ gas reaction
±âü¹æÀü gas discharge, gaseous discharge
±âüº£¾î¸µ gas bearing
±âü»ó gas phase
±âü»ó¼ö gas constant
±âü¾Ð·Â gas pressure
±âü ¿¢½º¼±°ü gas X-ray tube
±âü¿Âµµ°è gas thermometer
±âü¿îµ¿·Ð kinetic theory of gas
±âüÀÇ ºÐÀÚ¸ðÇü molecular model of a gas
±âüÀüÁö gas cell
±âüÁõ¹è gas multiplication
±âüÁõÆø gas amplification
±âüÆÛÁü gas diffusion, gaseous diffusion
񃏉 cylinder
񃒀 substrate
±âÆ÷°è¼ö±â bubble counter
±âÆ÷¶Â¸ñ bubble raft
±âÆ÷»óÀÚ bubble chamber
±âÆ÷¾Ð·Â bubble pressure
±âÇϱ¤ÇÐ geometrical optics
±âÇϱ޼ö geometric series
±âÇÏÀüÀÚ±¤ÇÐ geometrical electron optics
±âÇÏÆò±Õ geometrical mean
±âÇÏÇÐ geometry
±âÇÏÇÐÀû ±¸Á¶ geometric structure, geometry
±âÇÏÇÐÀû À§»ó geometric phase
±âÇÏÇÐÀû È¿°ú geometry effect
±âÈ£ symbol
±âÈ vapo(u)rization, vaporization
±âÈÀÇ ¼ûÀº¿ latent heat of vaporation
±ä³×¸ð rectangle
±ä¹ö·· Áú¼ long-range order
±ä¹ö··Èû long range force
±ä¹üÀ§ Áú¼ long-range order
±ä¹üÀ§Èû long range force
±ä½Ã°£ ²¿¸® long-time tail
±ä¿ø ellipse
±ä¿ø°ã²©ÀÓ elliptic double refraction
±ä¿ø±Ø³ª´¸ elliptic polarization
±ä¿ø±Ø³ª´¸ºû elliptically polarized light
±ä¿ø¶³±â elliptic oscillation
±ä¿ø¿îµ¿ elliptic motion
±ä¿øÀÚ¸®±æ elliptic orbit
±ä¿øÀÚ¸®Ç¥ elliptic coordinate
±ä¿øÀûºÐ elliptic integral
±ä¿øÇÔ¼ö elliptic function
±ä ÁÖ±â long period
±ä Áֱ⠺¯È long period change
±äÃà major axis
±äÆÄµ¿ long wave
±æ path
±æ°Å¸®Â÷ path difference
±æ¹öÆ® ÀüÀÚ´ÜÀ§ gilbert [=Gb] cgs
±æÀÌ length, linear dimension
±æÀ̺ÒÀ½ linear expansion
±æÀ̺ÒÀ½°ç¼ö coefficient of linear expansion
±æÀÌ ¼öÃà length contraction
±æÀÌ ÁÙ¾îµë length contraction
±æÀÌ Â÷¿ø linear dimension
±æÀâÀÌ Á᫐ guiding center
±è vapo(u)r
±è³¯±â vapo(u)rization, vaporization
±è¾Ð·Â vapor pressure
±èÅͺó vapor turbine
±é½º ¸ðµë Gibbs ensemble
±é½º ¾Ó»óºí Gibbs ensemble
±é½º¿ª¼³ Gibbs paradox
±é½º ÀÚÀ¯¿¡³ÊÁö Gibbs free energy
±é½º ÇÔ¼ö Gibbs function
±íÀº¹Ù´ÙÆÄµ¿ deep-sea water wave
±íÀº ¾ùƦ¼ºÈð¶ß¸² deep inelastic scattering
±íÀº ¿ì¹°ÆÛÅÙ¼È deep well potential
±íÀºÄÑ deep layer
±ò¶§±â funnel
±øÃæ¶Ù±â hopping
±øÃæ¶Ù±â ¿¡³ÊÁö hopping energy
±øÃæ¶Ù±âÀ² hopping rate
±úÁø ´ëĪ broken symmetry
±úÁü¼º brittleness
²¨ÁøÈ»ê extinct volcano
²¨Áü extinction
²¨Áü°ç¼ö extinction coefficient
²©ÀÓ refraction
²©ÀÓ°¢ refraction angle
²©ÀÓ°ç¼ö refraction coefficient
²©ÀÓ³¯ refracting edge
²©ÀÓµµ refractivity
²©ÀÓ¸Á¿ø°æ refracting telescope, refractor telescope
²©ÀÓ¹ýÄ¢ law of refraction
²©ÀÓ ºû»ì refracted ray
²©ÀÓ »ì refracted ray
²©ÀÓÀ² refractive index
²©ÀÓÀç°³ refractometer
²ªÀ½°ýÈ£ brace
²ªÀ½¹À½Ç¥ brace
²ªÀÓ°¢ angle of refraction
²ªÀÓÀ² index of refraction
²®Áú capsid, shell
²®Áú±¸Á¶ shell structure
²®Áú±íÀÌ skin depth
²®Áú¸ðÇü shell model
²®ÁúÈ¿°ú skin effect
²¸¶³°³ resonator
²¸¶³±â resonance
²¸¸ÎÀ½ covalent bonding
²¸¸ÎÀ½°áÇÕ covalent binding, covalent bond
²¸¸ÎÀ½°áÇÕ°áÁ¤ covalent crystal
²¸¸ÎÀ½¿øÀÚ°¡ covalence
²¸¹Ù²ñ covariant
²¸¹Ù²ñ µµÇÔ¼ö covariant derivative
²¸¹Ù²ñ ¹ÌºÐ covariant differntiation
²¸¹Ù²ñ º¤ÅÍ covariant vector
²¸¹Ù²ñ¼º covariance
²¸¹Ù²ñ ÁöÇ¥ covariant index
²¸¹Ù²ñ ÅÙ¼ covariant tensor
²¸¿ï¸² resonance
²¸¿ï¸²±ÁÀº¼± resonance curve
²¸¿ï¸²³»ºñħ resonance radiation
²¸¿ï¸²³Êºñ resonance amplitude
²¸¿ï¸²¶³±â resonance oscillation
²¸¿ï¸²¶³±â¼ö resonance frequency
²¸¿ï¸²¹æ½Ä resonance mode
²¸¿ï¸²¹ö·· resonance range
²¸¿ï¸²»óÀÚ resonance box
²¸¿ï¸²»óÅ resonance state
²¸¿ï¸²¼± resonance line
²¸¿ï¸²½ÅÈ£ resonance signal
²¸¿ï¸²¾Ë°»ÀÌ resonance particle
²¸¿ï¸²¿¡³ÊÁö resonance energy
²¸¿ï¸²ÀÌ·Ð resonance theory
²¸¿ï¸²ÀÌŻȮ·ü resonance escape probability
²¸¿ï¸²ÀÚ¸§³ÐÀÌ resonance cross section
²¸¿ï¸²ÁØÀ§ resonance level
²¸¿ï¸²ÆÛÅÙ¼È resonance potential
²¸¿ï¸²È¿°ú resonance effect
²¸¿ï¸²È帧±æ resonance circuit
²¸¿ï¸²Èí¼ö resonance absorption
²¸¿ï¸² Èð¶ß¸² resonance scattering
²¿¸®°íħ tail correction
²¿¸®º¸Á¤ tail correction
²¿¸®¼öÁ¤ tail correction
²¿¸®Ç¥ tag
²¿¸¶Àü±¸ miniature electric bulb
²¿ºÎ¶û ¿£Æ®·ÎÇÇ meander entropy
²¿¾ÆÁø ²ö braid
²¿ÀÓ twist
²¿ÀÓ ºÒ¾ÈÁ¤¼º kink instability
²À°°Àº identically equal
²À°°Àº ÀÔÀÚ identical particle
²À´ë±âÄõÅ© top quark
²ÀµÎº¯¼ö dummy variable
²ÀµÎÀüÁö dummy cell
²ÀµÎÁöÇ¥ dummy index
²ÀÁöÁ¡ vertex
²ÀÁöÁ¡ µÇƲ¸ÂÃã vertex renormalization
²ÀÁöÁ¡ ¸ðÇü vertex model
²ÈÀ½»©±â depinning
²ÈÀ½¼± pinning line
²ÈÈù ³¡ °æ°è¸é pinned-end interface
²Ë¹À½¾î¸² tight-binding approximation
²ËÂù ±ÁÀº¼± saturation curve
²ËÂù ±è saturated vapo(u)r
²ËÂù ±è¾Ð·Â saturated vapo(u)r pressure
²ËÂù ¿ë¾× saturated solution
²ËÂù Àڱ⠴ٹ߹еµ saturated magnetic flux density
²ËÂù ÀÚ±âÈ saturation magnetization
²ËÂù Àü·ù saturated current
²ËÂü saturation
²Ëä¿î ±¸Á¶ close-packed structure
²Ëä¿î »ìâ close-packed lattice
²Ëä¿ò close packing
²ç¶Õ±â tunneling
²ç¶Õ±â È¿°ú tunnel effect
²ç¶ÕÀ½ ´ÙÀÌ¿Àµå tunnel diode
²ô´öÁú nutation
²ö ²¿±â braid
²öÀû °æ°èÁ¶°Ç stick boundary condition
²öÀû°ç¼ö sticking coefficient
²öÀû µüµü°ø sticky hard sphere
²÷´Â Á¡ intercept
²÷¾î¹ö¸² cutoff
²÷¾î¹ö¸² ¶³±â¼ö cutoff frequency
²÷¾î¹ö¸² ÆÄ±æÀÌ cutoff wavelength
²÷¾î¹ö¸² ÆÄÀå cutoff wavelength
²÷¾î¹ö¸² ÆÛÅÙ¼È cutoff potential
²ø°³ attractor
²ø¸² drag
²ø¸²°ç¼ö drag coefficient
²ø¸²ÀÇÀ¯¿ª basin(of attraction)
²ø¸²ÀÇÀ¯Àοµ¿ª basin(of attraction)
²øÈû attractive force
²ú´ÂÁ¡ boiling point
²ú´ÂÁ¡ ¿À¸§ boiling-point elevation
³¡³¿ÀÌ terminator
³¡µ¹ÀÌ ¶³±â limit-cycle oscillation
³¡¸Ó¸® edge, terminal
³¡¸Ó¸® »óÅ edge state
³¡¸Ó¸® ¾î±ß³ª±â edge dislocation
³¡¸Ó¸® È¿°ú edge effect
³¡ ¼Óµµ terminal velocity
³¡Á¡ end point
³¡Á¡¹æÀü point discharge
³¡Á¡¿¡³ÊÁö end point energy
³¢Àΰ¢ included angle
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