The factors such as structure, pressure and temperature on solubility has to be discussed. Henry law and the reason why Henry law does not work for Hydrochloric acid has to be explained. The terms hydrophobic and hydrophilic has to be explained. Concept Introduction: Henry’s law can be given as the quantity of gas dissolve in a solution is proportional to the pressure of the gas above the solution. Henry’s law gives the relationship between the pressure of the gas and the concentration of gas dissolved. The equation can be given as, C=kP where, C= Concentration of the gas dissolved k=constant P=Partial pressure of the solute in gaseous solute
The factors such as structure, pressure and temperature on solubility has to be discussed. Henry law and the reason why Henry law does not work for Hydrochloric acid has to be explained. The terms hydrophobic and hydrophilic has to be explained. Concept Introduction: Henry’s law can be given as the quantity of gas dissolve in a solution is proportional to the pressure of the gas above the solution. Henry’s law gives the relationship between the pressure of the gas and the concentration of gas dissolved. The equation can be given as, C=kP where, C= Concentration of the gas dissolved k=constant P=Partial pressure of the solute in gaseous solute
Solution Summary: The author explains Henry's law and the reason why it doesn't work for Hydrochloric acid.
Interpretation: The factors such as structure, pressure and temperature on solubility has to be discussed. Henry law and the reason why Henry law does not work for Hydrochloric acid has to be explained. The terms hydrophobic and hydrophilic has to be explained.
Concept Introduction:
Henry’s law can be given as the quantity of gas dissolve in a solution is proportional to the pressure of the gas above the solution.
Henry’s law gives the relationship between the pressure of the gas and the concentration of gas dissolved. The equation can be given as,
C=kP
where, C= Concentration of the gas dissolved
k=constant
P=Partial pressure of the solute in gaseous solute
sketch the nature of the metal-alkylidene bonding interactions.
Part C
The perspective formula of isoleucine, an amino acid, is provided below.
HOOC
H₂NIC
H
川
CH3
CH,CH3
Draw the Newman projection in staggered conformation for isoleucine by viewing the molecule along the
C-2-C-3 bond.
1. Edit the Newman projection on the canvas.
2. Replace the appropriate hydrogens with the appropriate -CH3 or other groups.
3. If you need to start over, Undo or choose a Newman projection from the Templates toolbar
(bottom).
Important: Never delete the hydrogen atoms or bonds directly attached to the template, and do not move
them by dragging or dropping them. That will break the projections structures. Only replace them!
▸ View Available Hint(s)
0 2
H± 3D
EXP.
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CONT. 2
H
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Chapter 10 Solutions
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