Name: Date: Per: Redox Worksheet 1: Numbers & Balancing Reactions Assigning Oxidation Number rules: Elements and Compounds have an oxidation number/total of 0 Group I and II In addition to the elemental oxidation state of 0, Group I has an oxidation state of +1 and Group II has an oxidation state of +2. Hydrogen usually +1, except when bonded to Group I or Group II, when it forms hydrides, 1. Oxygen usually 2, except when it forms a OO single bond, a peroxide, when it is 1. Fluorine is always 1. Other halogens are usually 1, except when bonded to O. 1. Assign oxidation numbers to each of the atoms in the following compounds: Na2CrO4 Na = Cr = K2Cr2O7 K= Cr = CO2 C= CH4 H= C= HClO4 H= MnO2 Mn = SO32 S= SF4 F= S= Cl = a. What is the range of oxidation states for carbon? b. Which compound has C in a +4 state? c. Which compound has C in a 4 state?
2. Nitrogen has 5 valence electrons (Group V). It can gain up to 3 electrons (3), or lose up to 5 (+5) electrons. Fill in the missing names or formulas and assign an oxidation state to each of the following nitrogen containing compounds: name formula oxidation state of N NH 3 nitrogen nitrite NO 3 dinitrogen monoxide NO 2 hydroxylamine NH 2 OH nitrogen monoxide hydrazine N 2 H 4 3. During chemical reactions, the oxidation state of atoms can change. This occurs when compounds gain or lose electrons, or when the bonds to an atom change. This is illustrated by the reaction between nitrogen and hydrogen to make ammonia: N 2 (g) + 3 H 2 (g) 2 NH 3 (g) a. Assign oxidation numbers to each of the atoms in this reaction. N (in N 2 ) = N (in NH 3 ) = H (in H 2 ) = H (in NH 3 ) = When an oxidation number increases, that species has been oxidized. b. Which reactant undergoes an increase in its oxidation number? When an oxidation number decreases, that species has been reduced. c. Which reactant undergoes a decrease in its oxidation number?
The species that is oxidized is called the because it gives up an electron, so that another species can gain an electron (be reduced). d. What is the in this reaction? The species that is reduced is called the because it takes an electron away from another group, raising that group's oxidation number. e. What is the in this reaction? 4. In each of the following reactions, assign oxidation numbers to all of the elements and identify the oxidizing and s and the change in oxidation number. a. 4 Fe + 3 O 2 2 Fe 2 O 3 b. Cr 2 O 7 2 + 2OH 2 CrO 4 2 + H 2 O c. NH 4 NO 2 N 2 +2 H 2 O d. P 4 +10 Cl 2 4 PCl 5 e. 2 Cr 3+ +H 2 O+6 ClO 3 Cr 2 O 7 2 +6ClO 2 +2 H +
Balancing Redox Reactions Oxidation/Reduction (Redox) reactions can be balanced using the oxidation state changes, as seen in the previous example. However, there is an easier method, which involves breaking a redox reaction into two half reactions. This is best shown by working an example. Hydrobromic acid will react with permanganate to form elemental bromine and the manganese(ii) ion. The unbalanced, net reaction is shown below, Br + MnO 4 Br 2 + Mn 2+ 5. Break this into two halfreactions, one involving bromine and the other involving manganese. Bromine halfreaction Manganese halfreaction Br Br 2 MnO 4 Mn 2+ 6. First balance the bromine halfreaction first. a. Balance the bromine atoms of the reaction Br Br 2 b. Now balance charge by adding electrons (e ) Br Br 2 This halfreaction is producing/consuming electrons. This is an oxidation/reduction halfreaction. Confirm this by assigning oxidation numbers to the bromine species. 7. Next, balance the manganese halfreaction. a. Balance the manganese atoms of the halfreaction MnO 4 Mn 2+ b. Next, balance oxygen by adding water molecules (H 2 O) MnO 4 Mn 2+
c. Next, balance hydrogen by adding protons (H + ) MnO 4 Mn 2+ d. Finally, balance charge by adding electrons (e ). MnO 4 Mn 2+ This halfreaction is producing/consuming electrons. This is a oxidation/reduction halfreaction. Confirm this by assigning oxidation numbers to the manganese atoms. Notice that the number of electrons equals the change in oxidation number. 8. Now put the two halfreactions together. The number of electrons produced must equal the number of electrons consumed. 2 Br Br 2 + 2e 5e + 8H + + MnO 4 Mn 2+ + 4H 2 O multiply this halfreaction by multiply this halfreaction by Br Br 2 + e e + H + + MnO 4 Mn 2+ + H 2 O Add the two halfreactions, canceling out species that appear on both sides (including electrons) Br + H + + MnO 4 Br 2 + Mn 2+ + H 2 O Which compound is the? Which compound is the? Notice that there are protons (H + ) present in the reactants. This indicates that the reaction is carried out in an acidic solution. To carry this out in a basic solution, simply add enough hydroxide ions (OH ) to each side of the equation to neutralize the protons. The product of the neutralization reaction will be water. The overall balanced reaction under basic conditions is: Br + MnO 4 + H 2 O Br 2 + Mn 2+ + OH
Now, balance the redox reaction between methanol and dichromate, which produces methanal and chromium (III), as shown below: CH 3 OH + Cr 2 O 7 2 CH 2 O + Cr 3+ First, separate this into two halfreactions Then, balance the redox active species. Then, balance oxygens with H 2 O Balance hydrogen with H + Balance charge with electrons. Equalize the number of electrons lost and gained This indicates that the reaction must be carried out in an acidic solution. To carry it out in a basic solution, just add enough OH to neutralize the acid, H + Balance the following redoxreaction which takes place in basic solutions. Zn (s) + NO 2 NH 3 + Zn(OH) 4 2
Redox Worksheet 2 I. Determine what is oxidized and what is reduced in each reaction. Identify the oxidizing agent and the, also. 1. 2Sr + O 2 2SrO 2. 2Li + S Li 2 S 3. 2Cs + Br 2 2CsBr 4. 3Mg + N 2 Mg 3 N 2 5. 4Fe + 3O 2 2Fe 2 O 3 6. Cl 2 + 2NaBr 2NaCl + Br 2 7. Si + 2F 2 SiF 4 8. 2Ca + O 2 2CaO 9. Mg + 2HCl MgCl 2 + H 2 10. 2Na + 2H 2 O 2NaOH + H 2 11. Give the oxidation number of each kind of atom or ion. a. sulfate b. Sn c. S 2 d. Fe 3+ e. Sn 4+ f. nitrate g. ammonium 12. Calculate the oxidation number of chromium in each of the following. a. Cr 2 O 3 b. Na 2 Cr 2 O 7 c. CrSO 4 d. chromate e. dichromate 13. Use the changes in oxidation numbers to determine which elements are oxidized and which are reduced in these reactions. (Note: it is not necessary to use balanced equations) a. C + H 2 SO 4 CO 2 + SO 2 + H 2 O b. HNO 3 + HI NO + I 2 + H 2 O c. KMnO 4 + HCl MnCl 2 + Cl 2 + H 2 O + KCl d. Sb + HNO 3 Sb 2 O 3 + NO + H 2 O 14. For each reaction in problem 13, identify the and.
15. Write halfreactions for the oxidation and reduction process for each of the following. a. Fe 2+ + MnO 4 b. Sn 2+ + IO 3 c. S 2 + NO 3 Fe 3+ + Mn 2+ Sn 4+ + I S + NO d. NH 3 + NO 2 N 2 + H 2 O 16. Complete and balance each reaction using the halfreaction method. a. Fe 2+ + MnO 4 b. Sn 2+ + IO 3 c. S 2 + NO 3 Fe 3+ + Mn 2+ Sn 4+ + I S + NO d. NH 3 + NO 2 N 2 + H 2 O e. Mn 2+ + BiO 3 Bi 2+ + MnO 4 f. I 2 + Na 2 S 2 O 3 Na 2 S 2 O 4 + NaI
OxidationReduction Balancing Additional Practice Problems Acidic Solution 1. Ag + NO 3 Ag + + NO 2. Zn + NO 3 Zn 2+ + NH 4 + 3. Cr 2 O 7 2 + C 2 H 4 O C 2 H 4 O 2 + Cr 3+ 4. H 3 PO 2 + Cr 2 O 7 2 H 3 PO 4 + Cr 3+ Basic Solution 1. MnO 4 + C 2 O 4 2 MnO 2 + CO 2 2. ClO + Fe(OH) 3 Cl + FeO 4 2 3. HO 2 + Cr(OH) 3 CrO 4 2 + OH 4. N 2 H 4 + Cu(OH) 2 N 2 + Cu