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"Nernst equation, potential"¿¡ ´ëÇÑ °Ë»ö °á°úÀÔ´Ï´Ù. °Ë»ö °á°ú º¸´Â µµÁß¿¡ Tab ۸¦ ´©¸£½Ã¸é °Ë»ö âÀÌ ¼±Åõ˴ϴÙ.
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  • ¿µ¹®
    ÇѱÛ
  • denervation potential
    Å»½Å°æÀüÀ§
  • diffusion potential
    È®»êÀüÀ§
  • disease potential
    Áúº´ÀáÀç·Â
  • evoked potential
    À¯¹ßÀüÀ§
  • excitatory junctional potential
    ÈïºÐÁ¢ÇÕºÎÀüÀ§
  • excitatory postsynaptic potential
    ÈïºÐ½Ã³À½ºÀÌÈÄÀüÀ§, ÈïºÐ¿¬Á¢ÀÌÈÄÀüÀ§
  • early receptor potential
    Á¶±â¼ö¿ëüÀüÀ§, Á¶±â½Ã°¢¼¼Æ÷ÀüÀ§
  • electric potential
    Àü±âÀüÀ§, ÀüÀ§
  • electric potential gradient
    ÀüÀ§±â¿ï±â
  • electrochemical potential
    Àü±âÈ­ÇÐÀüÀ§
  • electrochemical potential gradient
    Àü±âÈ­ÇÐÀüÀ§±â¿ï±â
  • electrode potential
    Àü±ØÀüÀ§
  • electrotonic potential
    Àü±â±äÀåÀüÀ§
  • endocochlear potential
    ´ÞÆØÀ̳»ÀüÀ§, ¿Í¿ì³»ÀüÀ§
  • endplate potential
    Á¾¸»ÆÇÀüÀ§, Á¾ÆÇÀüÀ§
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  • ¿µ¹®
    ÇѱÛ
  • potential barrier
    ÀüÀ§À庮
  • cognitive evoked potential
    ÀνÄÀ¯¹ßÀüÀ§
  • complex potential
    º¹ÇÕÀüÀ§
  • compound muscle action potential
    (¢¡muscle) º¹ÇÕ±ÙȰµ¿ÀüÀ§
  • compound nerve action potential
    (¢¡nerve) º¹ÇսŰæÈ°µ¿ÀüÀ§
  • cortical evoked potential
    °ÑÁúÀ¯¹ßÀüÀ§, ÇÇÁúÀ¯¹ßÀüÀ§
  • critical membrane potential
    ÀӰ踷ÀüÀ§
  • cutaneous nerve somatosensory evoked potential
    Ç¥ÇǽŰæ¸ö°¨°¢À¯¹ßÀüÀ§
  • demarcation potential
    ºÐ°èÀüÀ§
  • denervation potential
    Å»½Å°æÀüÀ§
  • diffusion potential
    È®»êÀüÀ§
  • disease potential
    Áúº´ÀáÀç·Â
  • potential difference
    Àü¾ÐÂ÷, ÀüÀ§Â÷
  • total potential energy difference
    ÃÑÀ§Ä¡¿¡³ÊÁöÂ÷
  • transmembrane potential difference
    ¸·ÀüÀ§Â÷ÀÌ
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  • ¿µ¹®
    ÇѱÛ
  • indefinite equation
    ºÎÁ¤¹æÁ¤½Ä.
  • regression equation
    ȸ±Í¹æÁ¤½Ä(Ì·Ë´ ËÑËøËà).
  • EP =endocochlear potential
    ¿Í¿ì³»(Á÷·ù)ÀüÀ§
  • EPSP (excitatory postsynaptic potential)
    ÈïºÐ¼º(ýéÝÇàõ)½Ã³³½ºÈÄ(ý­)ÀüÀ§(ï³êÈ), ÈïºÐ¼º ¿¬Á¢(Ö§ïÈ)ÀüÀ§
  • Generator potential
    ±âµ¿ÀüÀ§(ÑÃÔÑï³êÈ)
  • IPSP = inhibitory postsynaptic potential
    ¾ïÁ¦¼º(åäð¤àõ)½Ã³À½ºÈÄ(ý­)Àü¾Ð(ï³äâ)
  • Intraneuronal potential
    ½Å°æ³»ÀüÀ§(ãêÌèÒ®ï³êÈ)
  • Junctional potential
    Á¢ÇÕºÎÀüÀ§(ïÈùêݬï³êÈ)
  • Local potential
    ±¹¼ÒÀüÀ§(ÏÑá¶ï³êÈ)
  • MEPP=>miniature end plate potential
    ¹Ì¼¼Á¾ÆÇÀü¾Ð
  • MEPP=£¾miniature end plate potential
    ¹Ì¼¼Á¾ÆÇÀüÀ§.
  • RP=£¾resting potential
    Á¤ÁöÀüÀ§.
  • Reinkes potential space
    ¶óÀÎÄÉ Àẹ°­
  • SEP, Somatosensory evoked potential
    ü¼º°¨°¢À¯¹ßÀüÀ§
  • absolute potential
    Àý´ëÀü¾Ð(¡­ï³äâ).³»°úÀý´ëÀüÀ§.
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  • ¿µ¹®
    ÇѱÛ
  • exponential equation
    Áö¼ö¹æÁ¤½Ä.
  • fractionation equation
    ºÐÇÒ°ø½Ä
  • indefinite equation
    ºÎÁ¤¹æÁ¤½Ä.
  • ionic equation
    À̿½Ä(¡­ãÒ).
  • linear equation
    ÀÏÂ÷¹æÁ¤½Ä(ìéó­Û°ïïãÒ).
  • normal equation
    Á¤±Ô¹æÁ¤½Ä(ËøË»ËÑËøËà).
  • regression equation
    ȸ±Í¹æÁ¤½Ä(Ì·Ë´ ËÑËøËà).
  • shunt equation
    ¼ÇÆ®¹æÁ¤½Ä.
  • transcendental equation
    ÃÊ¿ù¹æÁ¤½Ä (¡­Û°ïïãÒ).
  • trigonometric equation
    »ï°¢¹æÁ¤½Ä (¡­Û°ïïãÒ).
  • wave equation
    ÆÄµ¿¹æÁ¤½Ä(÷îÔÑÛ°ïïãÒ).
  • absolute potential
    Àý´ëÀü¾Ð(¡­ï³äâ).³»°úÀý´ëÀüÀ§.
  • action potential
    Ȱµ¿ÀüÀ§(¡­ï³êÈ), Ȱµ¿Àü¾Ð(¡­ï³äâ)
  • alternating potential
    ±³·ù ÀüÀ§
  • auditory evoked potential
    û°¢À¯¹ßÀüÀ§.
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  • ¿µ¹®
    ÇѱÛ
  • rate equation
    ¼Óµµ ¹æÁ¤½Ä(áÜÓøÛ°ïïãÒ)
  • kinetic equation
    ¹ÝÀÀ¼Óµµ ¹æÁ¤½Ä(ÚãëëáÜÓøÛ°ïïãÒ)
  • Lamm equation
    ¶÷¹æÁ¤½Ä(Û°ïïãÒ)
  • mass balance equation
    Áú·®±ÕÇü¹æÁ¤½Ä(òõÕáгû¬Û°ïïãÒ)
  • Michaelis-Menten-Briggs-Haldane equation
    ¹ÌŰ¿¤¸®½º-¸àÅÙ-ºê¸®±×-ÇÒÅ×ÀÎ ¹æÁ¤½Ä(Û°ïïãÒ)
  • Michaelis-Menten equation
    ¹ÌŰ¿¤¸®½º-¸àÅÙ ¹æÁ¤½Ä(Û°ïïãÒ)
  • phenomenological equation
    Çö»ó ¹æÁ¤½Ä(úÞßÚÛ°ïïãÒ)
  • Simha equation
    ½ÉÇÏ ¹æÁ¤½Ä(Û°ïïãÒ)
  • Staudinger equation
    ½ºÅ¸¿ìµù°Å ¹æÁ¤½Ä(Û°ïïãÒ)
  • Stern-Volmer equation
    ½ºÅÏ- º¼¸Ó ¹æÁ¤½Ä(Û°ïïãÒ)
  • Stokes-Einstein equation
    ½ºÅ彺- ¾ÆÀνºÅ¸ÀÎ ¹æÁ¤½Ä(Û°ïïãÒ)
  • Svedberg equation
    ½ºº£µåº£¸® ¹æÁ¤½Ä(Û°ïïãÒ)
  • van't Hoff equation
    ¹ÝÆ® È£ÇÁ ¹æÁ¤½Ä (Û°ïïãÒ)
  • action potential
    Ȱµ¿ÀüÀ§ (üÀÔÑï³êÈ)
  • asymmetry potential
    ºñ´ëĪ ÀüÀ§ (ÞªÓßöàï³êÈ)
KMLE ÀÇÇоà¾î »çÀü À¯»ç °Ë»ö °á°ú : 5 ÆäÀÌÁö: 2
VSIE volume surface integral equation [method]
AEP acute edematous pancreatitis; artificial endocrine pancreas; auditory evoked potential; average evok...
AP accessory pathway; accounts payable; acid phosphatase; acinar parenchyma; action potential; active p...
ERP early receptor potential; effective refractory period; elodoisin-related peptide; endoscopic retrogr...
FAP familial adenomatous polyposis; familial amyloid polyneuropathy; fatty acid polyunsaturated; fatty a...
KMLE ÀÚµ¿ÃßÃâ ÀÇÇоà¾î »çÀü À¯»ç °Ë»ö °á°ú : 5 ÆäÀÌÁö: 2
APA Action potential amplitude
APD Action potential duration
APD(50) Action potential duration
APD90 Action potential duration
APD(50) Action potential duration at 50
°æºÏ´ë Ä¡°ú´ëÇÐ ±¸°­³»°ú ±³½Ç »çÀü À¯»ç °Ë»ö °á°ú : 15 ÆäÀÌÁö: 2
  • ¿µ¹®
    ÇѱÛ
    ¼³¸í
  • body surface potential mapping
    üǥ¸é ÀüÀ§µµ
  • chemical potential
    È­ÇÐ ÀüÀ§, È­ÇÐ Æ÷ÅÙ¼³
  • compound action potential
    º¹ÇÕ È°µ¿ Àü¾Ð
  • contact potential difference
    Á¢ÃË ÀüÀ§Â÷
  • disability potential
    Àå¾ÖÀÇ ÀáÀ缺
  • dorsal root potential
    Èı٠Àü¾Ð
  • electric potential difference
    Àü¾Ð ÀüÀ§Â÷
  • electrical potential
    Àü±â·Â, ÀüÀ§
    1. Àü±âÀåÀ» ¸Å°³·Î ÇÏ¿© Á¤ÁöÇÑ ÀüÇÏ¿¡ ÀÛ¿ëÇÏ´Â Èû. 2. ¾î´À ÇÑ Á¡¿¡¼­ Àü±âÀû ÀÛ¿ëÀ» ¹ÌÄ¥ ¼ö ÀÖ´Â ¿¡³ÊÁöÀÇ ¾ç.
  • electrochemical potential
    Àü±â È­ÇÐ ÀüÀ§
  • electrode potential
    Àü±Ø Àü¾Ð
  • electromagnetic potential
    ÀüÀÚ ÀüÀ§
  • excitatory junctional potential
    ÈïºÐ¼º Á¢ÇպΠÀüÀ§
  • excitatory postsynaptic potential
    ÈïºÐ¼º ½Ã³³½º ÈÄ ÀüÀ§
    ¾Æ¼¼Æ¿Äݸ°À̳ª ±Û·çŸ¸ÞÀÌÆ®¿Í °°Àº ¹°Áú¿¡ Ȱ¼ºÈ­µÇ´Â ¾î¶² À̿ Åë·Î¸¦ ÅëÇØ ƯÁ¤ ÀÌ¿ÂÀÌ À¯ÀÔµÇ¾î ½Ã³À½º ÈO÷ÀÇ ¸·Àü¾ÐÀ» Å»ºÐ±Ø½Ã۰í, ±× °á°ú ¸·Àü¾ÐÀÌ ¿ªÄ¡¿¡ µµ´ÞÇÏ¿© ½Ã³À½ºÈÄ ¼¼Æ÷¿¡ Ȱµ¿ Àü¾ÐÀÌ »ý¼ºµÉ ¶§ ¿ªÄ¡¿¡ µµ´ÞÇϱ⠽±µµ·Ï ¸·Àü¾ÐÀ» Å»ºÐ±Ø½ÃŰ´Â Àü¾Ð.
  • fibrillation potential
    ¼¼µ¿ ÀüÀ§, Å»½Å°æ ÀüÀ§
  • inhibitory postsynaptic potential
    ¾ïÁ¦¼º ½Ã³³½ºÈÄ Àü¾Ð
    ¾ïÁ¦¼º ±¸½É·Î¿¡ ÀÏÁ¦È÷ Ãæµ¿ÀÌ °¡ÇØÁú ¶§ ½Ã³À½º ÈÄ ´º·Ð¿¡ ¹ßÇàÇÏ´Â ¸·ÀüÀ§ÀÇ Àϰú¼º °úºÐ±ØÀ̸ç, ÀÌ ¶§¹®¿¡ ½Å°æ ´ÜÀ§ÀÇ ¹ÝÀÀ¼ºÀÌ °¨¾àµÈ´Ù.
CancerWEB ¿µ¿µ ÀÇÇлçÀü À¯»ç °Ë»ö °á°ú : 15 ÆäÀÌÁö: 2
Goldman equation An equation derived to predict membrane potentials in terms of the membrane's permeability to ions and their concentrations on either side.
Synonym: constant field equation, Goldman-Hodgkin-Katz equation, GHK equation.
(05 Mar 2000)
Goldman-Hodgkin-Katz equation An equation derived to predict membrane potentials in terms of the membrane's permeability to ions and their concentrations on either side.
Synonym: constant field equation, Goldman-Hodgkin-Katz equation, GHK equation.
(05 Mar 2000)
grad-shafranov equation <radiobiology> Reduced magnetohydrodynamic-equilibrium equation for an axisymmetric, toroidal plasma. (Similar reduced equations can be derived for the cases of helical symmetry and for the straight cylinder.)
Analytic and numerical studies of these equations are important in exploring potential plasma configurations. The lowest order force balance in the plasma is simply that the Lorentz force must be balanced by the pressure force. This balance, combined with Maxwell's equations, determines the equilibrium configuration of the magnetic field.
When the toroidal configuration is axisymmetric, and the equilibrium plasma flow is zero, the magnetic field may be written in terms of a stream function \psi that satisfies the Grad-Shafranov equation \Delta\psi = - \mu_0 R^2 p'(\psi) - FF'(\psi). Here p is the plasma pressure and f = R B_\phi. (R is the radial distance from the axis of the machine).
In an axisymmetric torus, in the absence of equilibrium plasma fluid flows, the magnetic field may be written in terms of a scalar potential. When the plasma is in equilibrium (forces balance and the plasma is stationary), this scalar potential obeys a non-linear elliptic equation known as the Grad-Shafranov equation.
(09 Oct 1997)
chemical equation A representation of a chemical reaction in which chemical symbols represent reactants on the left side and products on the right side.
(09 Oct 1997)
personal equation A slight error in judgment, perceptual response, or action peculiar to the individual and so constant that it is usually possible to allow for it in accepting the person's statements or conclusions, thus arriving at approximate exactness; observed in persons whose work involves readings of events in time, such as navigators and air traffic controllers.
(05 Mar 2000)
Michaelis-Menten equation <chemistry> Equation derived from a simple kinetic model for a single-substrate non-cooperative enzyme-catalyzed reaction that successfully accounts for the hyperbolic adsorption isotherm) relationship between substrate concentration and reaction rate.
V = Vmax x S/(S + Km), where V is the initial velocity of the reaction, Km is the Michaelis constant, Vmax is the maximum rate approached by very high substrate concentrations and S is the initial substrate concentration.
Similar equations can be derived for conditions in which the product is present and for multisubstrate enzymes.
Synonym: Victor-Michaelis-Menten equation.
(12 Jul 2000)
constant field equation An equation derived to predict membrane potentials in terms of the membrane's permeability to ions and their concentrations on either side.
Synonym: constant field equation, Goldman-Hodgkin-Katz equation, GHK equation.
(05 Mar 2000)
Henderson-Hasselbalch equation <chemistry> The Henderson-Hasselbalch equation is the equation:
PH = pK + log ([A-]/[HA])
Where pH is the acidity or alkalinity of the buffer solution, pK is the negative logarithm of the equilibrium constant (Kd) for the ionisation of the acid form (A-) of the compound used to buffer the solution for the reaction HA = H+ +A-, [A-] is the molar concentration of the ionised form of the buffer compound, and [HA] is the molar concentration of the nonionised form of the buffer compound.
(09 Oct 1997)
Hill's equation The equation,y(1-y) = [S]n/Kd, where y is the fractional degree of saturation, [S] is the binding ligand concentration, n is the Hill coefficient, and Kd is the dissociation constant for the ligand. The Hill coefficient is a measure of the cooperativity of the protein; the larger the value, the higher the cooperativity. This coefficient cannot be higher than the number of binding sites. For the oxygen binding curve of haemoglobin, an association constant, Ka, is used and the equation becomes y/(1-y) = Ka[S]n. For human blood, n equals 2.5.
Compare: Hill plot.
(05 Mar 2000)
Hufner's equation <physiology> An equation expressing the relationship between myoglobin dissociation and oxygen partial pressure: ([MBO2]/[Mb]) = (K x pO2).
(05 Mar 2000)
Svedberg equation See: sedimentation constant.
(05 Mar 2000)
difference equation <epidemiology> The mathematical formulation corresponding to a discrete time model.
(05 Dec 1998)
differential equation <epidemiology> The mathematical formulation corresponding to a continuous model; an equation involving derivatives.
(05 Dec 1998)
Einthoven's equation In the electrocardiogram the potential of any wave or complex in lead II is equal to the sum of the potentials of leads I and III.
Synonym: Einthoven's equation.
(05 Mar 2000)
equation 1. A making equal; equal division; equality; equilibrium. "Again the golden day resumed its right, And ruled in just equation with the night." (Rowe)
2. <mathematics> An expression of the condition of equality between two algebraic quantities or sets of quantities, the sign = being placed between them; as, a binomial equation; a quadratic equation; an algebraic equation; a transcendental equation; an exponential equation; a logarithmic equation; a differential equation, etc.
3. <astronomy> A quantity to be applied in computing the mean place or other element of a celestial body; that is, any one of the several quantities to be added to, or taken from, its position as calculated on the hypothesis of a mean uniform motion, in order to find its true position as resulting from its actual and unequal motion.
4. Equation box, or Equational box, a system of differential gearing used in spinning machines for regulating the twist of the yarn. It resembles gearing used in equation clocks for showing apparent time.
5. <astronomy> Equation of the center, the difference between the place of a planet as supposed to move uniformly in a circle, and its place as moving in an ellipse.
Origin: L. Aequatio an equalizing: cf. F. Equation equation. See Equate.
Source: Websters Dictionary
(01 Mar 1998)
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    ÇѱÛ
  • identical equation
    Ç×µî½Ä
  • massenergy equation
    Áú·® ¿¡³ÊÁö ¹æÁ¤½Ä (A,EinsteinÀÌ Á¤½ÄÈ­ÇÑ E=mc2ÀÇ °ø½Ä)
  • masswnergy equation
    Áú·®°ú ¿¡³ÊÁö¿ÍÀÇ Ç×µî½Ä
  • personal equation
    °³ÀÎÂ÷
  • simple equation
    ÀÏÂ÷ ¹æÁ¤½Ä
ÀÌ ¾Æ·¡ ºÎÅÍ´Â °á°ú°¡ ¾ø½À´Ï´Ù.
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    ±¸ºÐ/º¸Çè±Þ¿©
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