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Science Chemistry Chemistry: Structure and Properties (2nd Edition)

The of the quinine (Q) should be determined. Concept introduction: Molarity: The number of moles of solute per liter of solution is known as molarity of the solution. It symbolized by . Molarity of any solution is a ratio of moles of solutes per liter of solution. It expressed by the following formula: Molarity ( M ) = moles of solutes liter of solution The pH of any solution is defined as the negative logarithm of the hydrogen ion concentration. p H = − log [ H + ] The dissociation reaction of the HA weak acid, with H + (aq) as product is as follows: H A ( a q ) → H + ( a q ) + A − ( a q ) The expression for ionization constant ( K a )is as follows: K a = [ A − ] [ H + ] [ H A ] The auto-ionization of water can be written as follows: H 2 O ( l ) → H + ( a q ) + O H − ( a q ) Therefore; K w = [ H 3 O + ] [ O H − ] = [ H + ] [ O H − ] = 1.0 × 10 − 14 Given: The pH of the chloride salt of protonated quinine QH + is 4.58, and number of mole of QH + is 0.23 in 1.00 L solution.

The of the quinine (Q) should be determined. Concept introduction: Molarity: The number of moles of solute per liter of solution is known as molarity of the solution. It symbolized by . Molarity of any solution is a ratio of moles of solutes per liter of solution. It expressed by the following formula: Molarity ( M ) = moles of solutes liter of solution The pH of any solution is defined as the negative logarithm of the hydrogen ion concentration. p H = − log [ H + ] The dissociation reaction of the HA weak acid, with H + (aq) as product is as follows: H A ( a q ) → H + ( a q ) + A − ( a q ) The expression for ionization constant ( K a )is as follows: K a = [ A − ] [ H + ] [ H A ] The auto-ionization of water can be written as follows: H 2 O ( l ) → H + ( a q ) + O H − ( a q ) Therefore; K w = [ H 3 O + ] [ O H − ] = [ H + ] [ O H − ] = 1.0 × 10 − 14 Given: The pH of the chloride salt of protonated quinine QH + is 4.58, and number of mole of QH + is 0.23 in 1.00 L solution.

Solution Summary: The author explains the molarity of the solution, which is a ratio of moles of solutes per liter of solution.

Chemistry: Structure and Properties (2nd Edition)

Chemistry: Structure and Properties (2nd Edition)

2nd Edition

ISBN: 9780134293936

Author: Nivaldo J. Tro

Publisher: PEARSON

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Chapter 16, Problem 144E

Interpretation Introduction

Interpretation:

The of the quinine (Q) should be determined.

Concept introduction:

     Molarity:

     The number of moles of solute per liter of solution is known as molarity of the solution. It symbolized by . Molarity of any solution is a ratio of moles of solutes per liter of solution. It expressed by the following formula:

$Molarity (M) = \frac{moles of solutes}{liter of solution}$

     The pH of any solution is defined as the negative logarithm of the hydrogen ion concentration.

$p H = - \log [H^{+}]$

     The dissociation reaction of the HA weak acid, with H⁺(aq) as product is as follows:

$H A (a q) \to H^{+} (a q) + A^{-} (a q)$

     The expression for ionization constant (K_a)is as follows:

$K_{a} = \frac{[A_{}^{-}] [H^{+}]}{[H A]}$

     The auto-ionization of water can be written as follows:

$H_{2} O (l) \to H^{+} (a q) + O H^{-} (a q)$

     Therefore;

$K_{w} = [H_{3} O^{+}] [O H^{-}] = [H^{+}] [O H^{-}] = 1.0 \times 10^{- 14}$

Given:

The pH of the chloride salt of protonated quinine QH⁺ is 4.58, and number of mole of QH⁺ is 0.23 in 1.00 L solution.

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Chapter 16, Problem 143E

Chapter 16, Problem 145E

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Chapter 16 Solutions

Chemistry: Structure and Properties (2nd Edition)

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