(a) Interpretation: The mass of F 2 in 1 km 3 of seawater needs to be determined. Concept introduction: The density is related to mass and volume as follows: d = m V Here, m is mass and V is volume. The following conversions are used: Convert 1 km 3 to cm 3 as follows: 1 km=1000 m 100 cm=1 m 1 km 3 = ( 1000 m 1 km × 100 cm 1 m ) 3 = 10 15 cm 3
(a) Interpretation: The mass of F 2 in 1 km 3 of seawater needs to be determined. Concept introduction: The density is related to mass and volume as follows: d = m V Here, m is mass and V is volume. The following conversions are used: Convert 1 km 3 to cm 3 as follows: 1 km=1000 m 100 cm=1 m 1 km 3 = ( 1000 m 1 km × 100 cm 1 m ) 3 = 10 15 cm 3
Solution Summary: The author explains that the mass of F_Text2 in 1''skm'3' of seawater needs to be determined. Mass can be calculated using the
Whether the process resembles for extracting bromine from seawater or not needs to be explained.
Concept introduction:
For the extraction, the extracting substance must be displaced by some other in the solution. Oxidizing agent is a chemical species that oxidizes others and gets reduced. Thus, a higher oxidizing agent cannot be displaced easily.
How do Groups 1A(1) and 2A(2) compare with respect to reaction of the metals with water?
How do the transition metals in Period 4 affect the pattern ofionization energies in Group 3A(13)? How does this patterncompare with that in Group 3B(3)?
Would the reaction of cesium, Cs, with oxygen be more or less vigorous than K?
Chapter 22 Solutions
General Chemistry: Principles and Modern Applications, Loose Leaf Version (11th Edition)
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