Using the formulas provided in the image, fill in the missing areas in the table:pH:pOH: 8.5[H+]:[OH-]:pH: 3.7pOH: [H+]:[OH-]:pH:pOH:[H+]: [OH-]: 3.2 x 10-8pH:pOH:[H+]: 1.7 x 10-3[OH-]: -hen the solution turnsreen. Note that solutions can be over-titrated (too much of the NaOFiggest source of experimental error. This error can be avoided by swbeing dispensed, using a moderate Buret flow rate and slowing dourts to change and stopping at the earliest sign of permanent color clconcentration in Molarity of the unknown acid or base, using:M=molarity, V=volume and a=acid and b=basele is either Ma (if the unknown is an acid) or Mb (if the unknowranknown can then be used to calculate either pH or pOH. From eitlwns: [H*], [OH] pH/pOH can be calculated using the box below:1 x 10-14[H*][OH] =OH1x 10-14[OH][H*] =POH = 14 - pHРОН14 pOH, the dissociation of the acid or base in water must be consideredan effective basic concentration of 0.4 M, because the base dissoM H3PO4 solution, has an effective acid concentration of 0.6 M,ive base/acid concentration, only used in titrations, where the MH or OH ions, is called Normality (covered in the Solutions wcpH||Burette and Burette Stand0.10 M HCIFlaskUniversal Indicator0.10 NaOHLHO[6o- = HOdHOGOL = LHO](H'] = 10H

pH + pOH = 14 pH = -log[H^+] or, [H^+] = 10^-pH and pOH = -log[HO^-] or, [HO^-] = 10^-pOH A. pOH =…

Answered: Using the formulas provided in the…

Using the formulas provided in the image, fill in the missing areas in the table: pH: pOH: 8.5 [H+]: [OH-]: pH: 3.7 pOH: [H+]: [OH-]: pH: pOH: [H+]: [OH-]: 3.2 x 10-8 pH: pOH: [H+]: 1.7 x 10-3 [OH-]:

EBK A SMALL SCALE APPROACH TO ORGANIC L

4th Edition

ISBN:9781305446021

Author:Lampman

Publisher:Lampman

Chapter79: Solubility

Section: Chapter Questions

Problem 1P

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Question

Using the formulas provided in the image, fill in the missing areas in the table: pH: pOH: 8.5 [H+]: [OH-]: pH: 3.7 pOH: [H+]: [OH-]: pH: pOH: [H+]: [OH-]: 3.2 x 10-8 pH: pOH: [H+]: 1.7 x 10-3 [OH-]:

-hen the solution turns
reen. Note that solutions can be over-titrated (too much of the NaOF
iggest source of experimental error. This error can be avoided by sw
being dispensed, using a moderate Buret flow rate and slowing dou
rts to change and stopping at the earliest sign of permanent color cl
concentration in Molarity of the unknown acid or base, using:
M=molarity, V=volume and a=acid and b=base
le is either Ma (if the unknown is an acid) or Mb (if the unknowr
anknown can then be used to calculate either pH or pOH. From eitl
wns: [H*], [OH] pH/pOH can be calculated using the box below:
1 x 10-14
[H*]
[OH] =
OH
1x 10-14
[OH]
[H*] =
POH = 14 - pH
РОН
14 pOH
, the dissociation of the acid or base in water must be considered
an effective basic concentration of 0.4 M, because the base disso
M H3PO4 solution, has an effective acid concentration of 0.6 M,
ive base/acid concentration, only used in titrations, where the M
H or OH ions, is called Normality (covered in the Solutions wc
pH
||
Burette and Burette Stand
0.10 M HCI
Flask
Universal Indicator
0.10 NaOH
LHO[6o- = HOd
HOGOL = LHO]
(H'] = 10H

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