QUESTION 1 A 15-ml sample of borax solution was titrated with 0.482-M HCI. The endpoint was reached after addition of 15.28 m of HO 2 reaction is BOs(OH) (oq) + HCI+ H20 Ba HBO3 (og) • Cr The calculated solubility product Ksp of the above experiment will be O 28x102 O 5.4x104 unbalanced chemc P5.9 x 102 P 3.54 x 103

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Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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please answer question no . 1

QUESTION 1
A 15-ml sample of borax solution was titrated with 0.482-M HCI. The endpoint was reached after addition of 15.28 mL of HC at 295 K. The urbalanced chemE
reaction is
B4Os(OH)4 (oaq) + HCI + H20 Ba H3BO3 (og) + cr
The calculated solubility product Ksp of the above experiment will be
O 2.8x102
O 54x104
O 5,9 x 102
O 3.54 x 10 3
QUESTION 2
nen a nonvolatile solute dissolves in water to form a solution,
The vapor pressure will elevate, causing the solution to boil at a higher temperature and freeze at a lower temperature
The freezing point of the solution decreases to lower the energy of the water molecules and increase the magnitude of the intermolecular forces
The identity of the solute will determine the magnitude of the effects in the solution's boiling point and freezing point
All the above
aue and Submit to save and submit. Click Save All Answers to save all answers.
Transcribed Image Text:QUESTION 1 A 15-ml sample of borax solution was titrated with 0.482-M HCI. The endpoint was reached after addition of 15.28 mL of HC at 295 K. The urbalanced chemE reaction is B4Os(OH)4 (oaq) + HCI + H20 Ba H3BO3 (og) + cr The calculated solubility product Ksp of the above experiment will be O 2.8x102 O 54x104 O 5,9 x 102 O 3.54 x 10 3 QUESTION 2 nen a nonvolatile solute dissolves in water to form a solution, The vapor pressure will elevate, causing the solution to boil at a higher temperature and freeze at a lower temperature The freezing point of the solution decreases to lower the energy of the water molecules and increase the magnitude of the intermolecular forces The identity of the solute will determine the magnitude of the effects in the solution's boiling point and freezing point All the above aue and Submit to save and submit. Click Save All Answers to save all answers.
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