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
5. A buffer consists of 0.45 M NH, and 0.25 M NH-CI (PK of NH 474) Calculate the pH of the butter. Ans: 9.52
BAS
PH-9.26 +10g (10.95))
14-4.59
PH=4.52
6. To 500 ml of the buffer on #5 a 0.20 g of sample of NaOH was added
a Write the net ionic equation for the reaction which occurs
b. Should the pH of the solution increase or decrease sightly?
Calculate the pH of the buffer after the addition Ans: 9.54
Explain the inductive effect (+I and -I) in benzene derivatives.
The inductive effect (+I and -I) in benzene derivatives, does it guide ortho, meta or para?