Questão 1
Questão
What Equation is this?
Questão 2
Questão
What Equation is this?
Questão 3
Questão
Em= RT/zF.ln(ckout/ckin)
What is:
T- [blank_start]Temperature[blank_end]
Z- [blank_start]Charge per molecule[blank_end]
Ckout- [blank_start]extracellular K+ concentration[blank_end]
Ckin- [blank_start]intracellular K+ concentration[blank_end]
Questão 4
Questão
What is this equation?
-Each dot is referring to the letter next to it
Questão 5
Questão
G= I/dU
What is this: [blank_start]Conductivity of the Membrane[blank_end] where,
I= [blank_start]Ion membrane Current[blank_end]
dU= Difference between [blank_start]membrane potential[blank_end] and [blank_start]equilibrium potential[blank_end]
Questão 6
Questão
What Equation is This?
Label the dots.
Responda
-
Permeability of the Membrane
-
Solubility in Cell Membrane
-
Mobility
-
Thickness of the Cell Membrane
Questão 7
Questão
F= -D(dc/dx)
What is this: [blank_start]Fick's Law[blank_end]
F= [blank_start]Flow Rate[blank_end]
D= [blank_start]Diffusion Constant[blank_end]
dc/dx= [blank_start]Concentration Gradient[blank_end] across the [blank_start]Membrane[blank_end]
Responda
-
Ficks Law
-
Flow Rate
-
Diffusion Constant
-
Concentration Gradient
-
Membrane
Questão 8
Questão
dm/dt=-P.S (C2-C1)
What is this equation for: [blank_start]Transdiffusion[blank_end]
where,
P= [blank_start]the coefficient of permeability[blank_end]
Questão 9
Questão
π= Cμ.RT
What is this equation for: [blank_start]Osmotic Pressure[blank_end]
Where,
π= [blank_start]Osmotic pressure[blank_end]
C= the [blank_start]concentration of the solution[blank_end]
R= [blank_start]universal gas constant[blank_end]
T= [blank_start]absolute temperature[blank_end]
Questão 10
Questão
μi = μi^o (P,T) + RTlnCi
What is this equation for: [blank_start]Chemical Potential[blank_end]
μi^o (P,T) depends on [blank_start]pressure[blank_end] and [blank_start]absolute temperature[blank_end]
R is the [blank_start]gas constant[blank_end]
Ci is the [blank_start]concentration of substance[blank_end]
Questão 11
Questão
μi(in)-μi(out) = RTlnCi(in)/(out) + ziF(Vout-Vin)
What is this equation for: [blank_start]Electrochemical Potential[blank_end]
Questão 12
Questão
Ei = -(RT/zi F) ln ci^(in)/ ci^(out)
What is this equation for?: [blank_start]Equilibrium Potential[blank_end]
Questão 13
Questão
E= ziFV
What is this equation refering to: [blank_start]Electric Potential[blank_end]
E - [blank_start]Electric potential[blank_end]
zi - [blank_start]charge per molecule[blank_end]
F – [blank_start]Faraday constant[blank_end] (96500C/mol)
V - [blank_start]Volts[blank_end]
Responda
-
Electric Potential
-
Electric potential
-
charge per molecule
-
Faraday constant
-
Volts
Questão 14
Questão
X = √4Dt
What is this equation for?: [blank_start]Lateral Diffusion Formula[blank_end]
where,
X= [blank_start]Distance[blank_end]
D = [blank_start]coefficient of the diffusion[blank_end]
T = [blank_start]time[blank_end]
Questão 15
Questão
dS/dt = dSi /dt + dSe/dt
What is this equation: [blank_start]Equation of Prigojin[blank_end]
dS/dt- [blank_start]entropy speed variation[blank_end] in open biological system
dSi /dt - the [blank_start]speed of entropy variation inside[blank_end] (i) the system
dSe/dt – the [blank_start]speed of entropy variation of processes[blank_end] of [blank_start]exchange of substances[blank_end] and [blank_start]energy with the surrounding[blank_end]
if dSi /dt is bigger than 0 then its an [blank_start]irreversible reaction[blank_end]
Responda
-
Equation of Prigojin
-
entropy speed variation
-
speed of entropy variation inside
-
speed of entropy variation of processes
-
exchange of substances
-
energy with the surrounding
-
irreversible reaction
Questão 16
Questão
ds= dQ/T
What is this quation for?: [blank_start]Entropy[blank_end]
Where
dQ is the [blank_start]amount of heat absorbed[blank_end] in an [blank_start]isothermal[blank_end] and [blank_start]reversible[blank_end] process.
T is the thermodynamic [blank_start]temperature[blank_end] process
Responda
-
Entropy
-
amount of heat absorbed
-
isothermal
-
reversible
-
temperature
Questão 17
Questão
U = Q + W
U= [blank_start]internal energy[blank_end]
Q= [blank_start]heat transfer[blank_end] into the system
W= [blank_start]Work[blank_end]
Responda
-
internal energy
-
Work
-
heat transfer