If it is possible for a solution to have hydrogen ion concentration 0.002 M and hydroxide ion concentration 5.2 × 10 − 6 M at 25 ∘ C should be explained. Concept Introduction: The concentration of hydrogen ions in a solution determines the acidity of a solution. If concentration of hydrogen ion is more than the solution is more acetic, if it is low, solution is less acidic. The pH of solution is defined as negative log of hydrogen ion concentration thus, it can be calculated as follows: p H = − log H + Here, H + is concentration of hydrogen ion. Similarly, pOH of a solution is defined as negative log of hydroxide ion concentration thus, it can be calculated as follows: p O H = − log OH − Here, OH − is concentration of hydroxide ion. pH and pOH of a solution are related to each other as follows: p H + p O H = 14 .
If it is possible for a solution to have hydrogen ion concentration 0.002 M and hydroxide ion concentration 5.2 × 10 − 6 M at 25 ∘ C should be explained. Concept Introduction: The concentration of hydrogen ions in a solution determines the acidity of a solution. If concentration of hydrogen ion is more than the solution is more acetic, if it is low, solution is less acidic. The pH of solution is defined as negative log of hydrogen ion concentration thus, it can be calculated as follows: p H = − log H + Here, H + is concentration of hydrogen ion. Similarly, pOH of a solution is defined as negative log of hydroxide ion concentration thus, it can be calculated as follows: p O H = − log OH − Here, OH − is concentration of hydroxide ion. pH and pOH of a solution are related to each other as follows: p H + p O H = 14 .
Solution Summary: The author explains that the concentration of hydrogen ions in a solution determines the acidity of the solution.
If it is possible for a solution to have hydrogen ion concentration 0.002 M and hydroxide ion concentration 5.2×10−6 M at 25∘C should be explained.
Concept Introduction:
The concentration of hydrogen ions in a solution determines the acidity of a solution. If concentration of hydrogen ion is more than the solution is more acetic, if it is low, solution is less acidic.
The pH of solution is defined as negative log of hydrogen ion concentration thus, it can be calculated as follows:
pH=−logH+
Here, H+ is concentration of hydrogen ion.
Similarly, pOH of a solution is defined as negative log of hydroxide ion concentration thus, it can be calculated as follows:
pOH=−logOH−
Here, OH− is concentration of hydroxide ion.
pH and pOH of a solution are related to each other as follows:
It is not unexpected that the methoxyl substituent on a cyclohexane ring
prefers to adopt the equatorial conformation.
OMe
H
A G₂ = +0.6 kcal/mol
OMe
What is unexpected is that the closely related 2-methoxytetrahydropyran
prefers the axial conformation:
H
H
OMe
OMe
A Gp=-0.6 kcal/mol
Methoxy: CH3O group
Please be specific and clearly write the reason why this is observed. This effect that provides
stabilization of the axial OCH 3 group in this molecule is called the anomeric effect. [Recall in the way of
example, the staggered conformer of ethane is more stable than eclipsed owing to bonding MO
interacting with anti-bonding MO...]
206 Pb
82
Express your answers as integers. Enter your answers separated by a comma.
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ΜΕ ΑΣΦ
Np, N₁ = 82,126
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protons, neutrons
Chapter 16 Solutions
Introductory Chemistry: Foundation - Text (Looseleaf)
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