(a)
Interpretation: The ionic compound FeBr2 needs to be named using the system that includes Roman numerical to specify the charge of the cations.
Concept introduction:Binary ionic compounds contain a metal that can form more than one type of cation.
(a)
Answer to Problem 45A
Iron (II) bromide.
Explanation of Solution
The charge on the cation can be determined by taking the total charge on the compound to be zero.
The known charge on anion is then used to determine the charge on the cation.
| Compound | Cation present | Anion present | Compound name | Comments |
| Iron(II)bromide | Iron can have more than 1 oxidation state, so one must include (II) to specify its charge. |
(b)
Interpretation: The ionic compound CoS needs to be named using the system that includes Roman numerical to specify the charge of the cations.
Concept introduction: Binary ionic compounds contain a metal that can form more than one type of cation.
(b)
Answer to Problem 45A
Cobalt (II)sulfide.
Explanation of Solution
The charge on the cation can be determined by taking the total charge on the compound to be zero.
The known charge on anion is then used to determine the charge on the cation.
| Compound | Cation present | Anion present | Compound name | Comments |
| Cobalt(II)sulfide | Cobalt can have more than 1 oxidation state, so one must include II to specify its charge. |
(c)
Interpretation: The ionic compound
Concept introduction: Binary ionic compounds contain a metal that can form more than one type of cation.
(c)
Answer to Problem 45A
Cobalt(III)sulfide
Explanation of Solution
The charge on the cation can be determined by taking the total charge on the compound to be zero.
The known charge on anion is then used to determine the charge on the cation.
| Compound | Cation present | Anion present | Compound name | Comments |
| Cobalt(III)sulfide | Cobalt can have more than 1 oxidation state, so one must include the III to specify its charge. |
(d)
Interpretation: The ionic compound
Concept introduction: Binary ionic compounds contain a metal that can form more than one type of cation.
(d)
Answer to Problem 45A
Tin(IV)oxide
Explanation of Solution
The charge on the cation can be determined by taking the total charge on the compound to be zero.
The known charge on anion is then used to determine the charge on the cation.
| Compound | Cation present | Anion present | Compound name | Comments |
| Tin(IV)oxide | Tin can have more than 1 oxidation state so one must include IV to specify its charge. |
(e)
Interpretation: The ionic compound
Concept introduction: Binary ionic compounds contain a metal that can form more than one type of cation.
(e)
Answer to Problem 45A
Mercury(I)chloride
Explanation of Solution
The charge on the cation can be determined by taking the total charge on the compound to be zero.
The known charge on anion is then used to determine the charge on the cation.
| Compound | Cation present | Anion present | Compound name | Comments |
| Mercury(I)chloride | Mercury can have more than 1 oxidation state so one must include I to specify its charge. |
(f)
Interpretation: The ionic compound
Concept introduction: Binary ionic compounds contain a metal that can form more than one type of cation.
(f)
Answer to Problem 45A
Mercury (II) chloride
Explanation of Solution
The charge on the cation can be determined by taking the total charge on the compound to be zero.
The known charge on anion is then used to determine the charge on the cation.
| Compound | Cation present | Anion present | Compound name | Comments |
| Mercury (II) chloride | Mercury can have more than 1 oxidation state so one must include II to specify its charge. |
Chapter 4 Solutions
World of Chemistry, 3rd edition
- (2 pts) Why is O2 more stable as a diatomic molecule than S2?arrow_forwardDraw the Lewis structure for the polyatomic phosphite (PO¾³¯) a anion. Be sure to include all resonance structures that satisfy the octet rule. C I A [ ]¯arrow_forwardDecide whether these proposed Lewis structures are reasonable. proposed Lewis structure Is the proposed Lewis structure reasonable? Yes. :0: Cl C C1: 0=0: : 0 : : 0 : H C N No, it has the wrong number of valence electrons. The correct number is: ☐ No, it has the right number of valence electrons but doesn't satisfy the octet rule. The symbols of the problem atoms are:* ☐ Yes. No, it has the wrong number of valence electrons. The correct number is: ☐ No, it has the right number of valence electrons but doesn't satisfy the octet rule. The symbols of the problem atoms are:* Yes. ☐ No, it has the wrong number of valence electrons. The correct number is: ☐ No, it has the right number of valence electrons but doesn't satisfy the octet rule. The symbols of the problem atoms are:* | * If two or more atoms of the same element don't satisfy the octet rule, just enter the chemical symbol as many times as necessary. For example, if two oxygen atoms don't satisfy the octet rule, enter "0,0".arrow_forward
- Draw the Lewis structure for the polyatomic trisulfide anion. Be sure to include all resonance structures that satisfy the octet rule. с [ ] - Garrow_forward1. Calculate the accurate monoisotopic mass (using all 1H, 12C, 14N, 160 and 35CI) for your product using the table in your lab manual. Don't include the Cl, since you should only have [M+H]*. Compare this to the value you see on the LC-MS printout. How much different are they? 2. There are four isotopic peaks for the [M+H]* ion at m/z 240, 241, 242 and 243. For one point of extra credit, explain what each of these is and why they are present. 3. There is a fragment ion at m/z 184. For one point of extra credit, identify this fragment and confirm by calculating the accurate monoisotopic mass. 4. The UV spectrum is also at the bottom of your printout. For one point of extra credit, look up the UV spectrum of bupropion on Google Images and compare to your spectrum. Do they match? Cite your source. 5. For most of you, there will be a second chromatographic peak whose m/z is 74 (to a round number). For one point of extra credit, see if you can identify this molecule as well and confirm by…arrow_forwardPlease draw, not just describe!arrow_forward
- can you draw each step on a piece of a paper please this is very confusing to mearrow_forward> Can the molecule on the right-hand side of this organic reaction be made in good yield from no more than two reactants, in one step, by moderately heating the reactants? esc ? A O O •If your answer is yes, then draw the reactant or reactants in the drawing area below. You can draw the reactants in any arrangement you like. • If your answer is no, check the box under the drawing area instead. olo 18 Ar Explanation Check BB Click and drag to start drawing a structure. 2025 McGraw Hill LLC. All Rights Reserved. Terms of Use | Privacy Center Accessibilityarrow_forwardName the structurearrow_forward
- > For each pair of substrates below, choose the one that will react faster in a substitution reaction, assuming that: 1. the rate of substitution doesn't depend on nucleophile concentration and 2. the products are a roughly 50/50 mixture of enantiomers. Substrate A Substrate B Faster Rate X CI (Choose one) (Choose one) CI Br Explanation Check Br (Choose one) C 2025 McGraw Hill LLC. All Rights Reserved. Terms of Use | Privacy A F10arrow_forwardHow to draw this mechanism for the foloowing reaction in the foto. thank youarrow_forwardPredict the major products of the following organic reaction: Some important notes: CN A? • Draw the major product, or products, of the reaction in the drawing area below. • If there aren't any products, because no reaction will take place, check the box below the drawing area instead. • Be sure to use wedge and dash bonds when necessary, for example to distinguish between major products that are enantiomers. No reaction. Explanation Check Click and drag to start drawing a structure. 2025 McGraw Hill LLC. All Rights Reserved. Terms of Use Privacy Centerarrow_forward
ChemistryChemistryISBN:9781305957404Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCostePublisher:Cengage Learning
ChemistryChemistryISBN:9781259911156Author:Raymond Chang Dr., Jason Overby ProfessorPublisher:McGraw-Hill Education
Principles of Instrumental AnalysisChemistryISBN:9781305577213Author:Douglas A. Skoog, F. James Holler, Stanley R. CrouchPublisher:Cengage Learning
Organic ChemistryChemistryISBN:9780078021558Author:Janice Gorzynski Smith Dr.Publisher:McGraw-Hill Education
Chemistry: Principles and ReactionsChemistryISBN:9781305079373Author:William L. Masterton, Cecile N. HurleyPublisher:Cengage Learning
Elementary Principles of Chemical Processes, Bind...ChemistryISBN:9781118431221Author:Richard M. Felder, Ronald W. Rousseau, Lisa G. BullardPublisher:WILEY