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Two Compartments $\mathrm { X }$ And $\mathrm { Y }$

question 16

Short Answer

Two compartments ( $\mathrm { X }$ and $\mathrm { Y }$ ) are separated by a typical biological membrane (lipid bilayer). The concentrations of a non-permeant molecule (glucose) at time zero are shown. Which of the drawings below represents the volumes of $\mathrm { X }$ and $\mathrm { Y }$ when the system reaches equilibrium?
$Two compartments ( \mathrm { X } and \mathrm { Y } ) are separated by a typical biological membrane (lipid bilayer). The concentrations of a non-permeant molecule (glucose) at time zero are shown. Which of the drawings below represents the volumes of \mathrm { X } and \mathrm { Y } when the system reaches equilibrium? A. B. C. D. E.$

A.
$Two compartments ( \mathrm { X } and \mathrm { Y } ) are separated by a typical biological membrane (lipid bilayer). The concentrations of a non-permeant molecule (glucose) at time zero are shown. Which of the drawings below represents the volumes of \mathrm { X } and \mathrm { Y } when the system reaches equilibrium? A. B. C. D. E.$

B.
$Two compartments ( \mathrm { X } and \mathrm { Y } ) are separated by a typical biological membrane (lipid bilayer). The concentrations of a non-permeant molecule (glucose) at time zero are shown. Which of the drawings below represents the volumes of \mathrm { X } and \mathrm { Y } when the system reaches equilibrium? A. B. C. D. E.$

C.
$Two compartments ( \mathrm { X } and \mathrm { Y } ) are separated by a typical biological membrane (lipid bilayer). The concentrations of a non-permeant molecule (glucose) at time zero are shown. Which of the drawings below represents the volumes of \mathrm { X } and \mathrm { Y } when the system reaches equilibrium? A. B. C. D. E.$

D.
$Two compartments ( \mathrm { X } and \mathrm { Y } ) are separated by a typical biological membrane (lipid bilayer). The concentrations of a non-permeant molecule (glucose) at time zero are shown. Which of the drawings below represents the volumes of \mathrm { X } and \mathrm { Y } when the system reaches equilibrium? A. B. C. D. E.$

E.
$Two compartments ( \mathrm { X } and \mathrm { Y } ) are separated by a typical biological membrane (lipid bilayer). The concentrations of a non-permeant molecule (glucose) at time zero are shown. Which of the drawings below represents the volumes of \mathrm { X } and \mathrm { Y } when the system reaches equilibrium? A. B. C. D. E.$

Two Compartments X\mathrm { X }X And Y\mathrm { Y }Y

Definitions:

Two Compartments $\mathrm { X }$ And $\mathrm { Y }$