Molarity of the solution resulting from dissolving 46.0 ver nitrate in enough water to give a final volume of 335 Volume (L) of 0.385 M manganese(II) sulfate that co 0g of solute Volume (mL) of 6.44x10 M adenosine triphosphate - contains 168 mmol of ATP
Molarity of the solution resulting from dissolving 46.0 ver nitrate in enough water to give a final volume of 335 Volume (L) of 0.385 M manganese(II) sulfate that co 0g of solute Volume (mL) of 6.44x10 M adenosine triphosphate - contains 168 mmol of ATP
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Question 25 please
![NiCl2
Prob
4.22 Calculate each of the following quantities:
(a) Mass (g) of solute in 185.8 mL of 0.267 M calcium acetate
(b) Molarity of 500. mL of solution containing 21.1 g of potas-
sium iodide
4.32
hype
tain:
hyp
4.33
(c) Amount (mol) of solute in 145.6 L of 0.850 M sodium cyanide
4.23 Calculate each of the following quantities:
(a) Volume (mL) of 2.26 M potassium hydroxide that contains
8.42 g of solute
(b) Number of Cu²+ ions in 52 L of 2.3 M copper(II) chloride
(c) Molarity of 275 mL of solution containing 135 mmol of glucose
to
inst
3.5
ma
4.3
4.24 Calculate each of the following quantities:
(a) Mass (g) of solute needed to make 475 mL of 5.62x10¬² M
potassium sulfate
(b) Molarity of a solution that contains 7.25 mg of calcium chlo-
ride in each milliliter
(c) Number of Mg+ ions in each milliliter of 0.184 M magnesium
bromide
4.25 Calculate each of the following quantities:
Ya) Molarity of the solution resulting from dissolving 46.0
silver nitrate in enough water to give a final volume of 335 mL
(b) Volume (L) of 0.385 M manganese(II) sulfate that contains
63.0 g of solute
(c) Volume (mL) of 6.44x10 M adenosine triphosphate (ATP)
sar
26
Са
dis
al
4.
b
of
that contains 1.68 mmol of ATP
4.26 How many moles and how many ions of each type are pres-
ent in each of the following?
(a) 130 mL of 0.45 M aluminum chloride
(b) 9.80 mL of a solution containing 2.59 g lithium sulfate/L
(c) 245 mL of a solution containing 3.68x1022 formula units of
potassium bromide per liter
4.27 How many moles and how many ions of each type are pres-
ent in each of the following?
(a) 88 mL of 1.75 M magnesium chloride
(b) 321 mL of a solution containing 0.22 g aluminum sulfate/L
21](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3f1627aa-7129-483c-b690-510f18fd7049%2F55b37b85-5c57-4c24-836b-ef05424b4e4a%2Flddhc1f_processed.jpeg&w=3840&q=75)
Transcribed Image Text:NiCl2
Prob
4.22 Calculate each of the following quantities:
(a) Mass (g) of solute in 185.8 mL of 0.267 M calcium acetate
(b) Molarity of 500. mL of solution containing 21.1 g of potas-
sium iodide
4.32
hype
tain:
hyp
4.33
(c) Amount (mol) of solute in 145.6 L of 0.850 M sodium cyanide
4.23 Calculate each of the following quantities:
(a) Volume (mL) of 2.26 M potassium hydroxide that contains
8.42 g of solute
(b) Number of Cu²+ ions in 52 L of 2.3 M copper(II) chloride
(c) Molarity of 275 mL of solution containing 135 mmol of glucose
to
inst
3.5
ma
4.3
4.24 Calculate each of the following quantities:
(a) Mass (g) of solute needed to make 475 mL of 5.62x10¬² M
potassium sulfate
(b) Molarity of a solution that contains 7.25 mg of calcium chlo-
ride in each milliliter
(c) Number of Mg+ ions in each milliliter of 0.184 M magnesium
bromide
4.25 Calculate each of the following quantities:
Ya) Molarity of the solution resulting from dissolving 46.0
silver nitrate in enough water to give a final volume of 335 mL
(b) Volume (L) of 0.385 M manganese(II) sulfate that contains
63.0 g of solute
(c) Volume (mL) of 6.44x10 M adenosine triphosphate (ATP)
sar
26
Са
dis
al
4.
b
of
that contains 1.68 mmol of ATP
4.26 How many moles and how many ions of each type are pres-
ent in each of the following?
(a) 130 mL of 0.45 M aluminum chloride
(b) 9.80 mL of a solution containing 2.59 g lithium sulfate/L
(c) 245 mL of a solution containing 3.68x1022 formula units of
potassium bromide per liter
4.27 How many moles and how many ions of each type are pres-
ent in each of the following?
(a) 88 mL of 1.75 M magnesium chloride
(b) 321 mL of a solution containing 0.22 g aluminum sulfate/L
21
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