<< Chapter < Page Chapter >> Page >

The production of magnesium, zinc, and tin provide additional examples of chemical reduction.

The preparation of magnesium

The Pidgeon process    involves the reaction of magnesium oxide with elemental silicon at high temperatures to form pure magnesium:

Si ( s ) + 2MgO ( s ) Δ SiO 2 ( s ) + 2Mg ( g )

Although this reaction is unfavorable in terms of thermodynamics, the removal of the magnesium vapor produced takes advantage of Le Châtelier’s principle to continue the forward progress of the reaction. Over 75% of the world’s production of magnesium, primarily in China, comes from this process.

The preparation of zinc

Zinc ores usually contain zinc sulfide, zinc oxide, or zinc carbonate. After separation of these compounds from the ores, heating in air converts the ore to zinc oxide by one of the following reactions:

2ZnS ( s ) + 3O 2 ( g ) Δ 2ZnO ( s ) + 2SO 2 ( g )
ZnCO 3 ( s ) Δ ZnO ( s ) + CO 2 ( g )

Carbon, in the form of coal, reduces the zinc oxide to form zinc vapor:

ZnO ( s ) + C ( s ) Zn ( g ) + CO ( g )

The zinc can be distilled (boiling point 907 °C) and condensed. This zinc contains impurities of cadmium (767 °C), iron (2862 °C), lead (1750 °C), and arsenic (613 °C). Careful redistillation produces pure zinc. Arsenic and cadmium are distilled from the zinc because they have lower boiling points. At higher temperatures, the zinc is distilled from the other impurities, mainly lead and iron.

The preparation of tin

The ready reduction of tin(IV) oxide by the hot coals of a campfire accounts for the knowledge of tin in the ancient world. In the modern process, the roasting of tin ores containing SnO 2 removes contaminants such as arsenic and sulfur as volatile oxides. Treatment of the remaining material with hydrochloric acid removes the oxides of other metals. Heating the purified ore with carbon at temperature above 1000 °C produces tin:

SnO 2 ( s ) + 2C ( s ) Δ Sn ( s ) + 2CO ( g )

The molten tin collects at the bottom of the furnace and is drawn off and cast into blocks.

Key concepts and summary

Because of their chemical reactivity, it is necessary to produce the representative metals in their pure forms by reduction from naturally occurring compounds. Electrolysis is important in the production of sodium, potassium, and aluminum. Chemical reduction is the primary method for the isolation of magnesium, zinc, and tin. Similar procedures are important for the other representative metals.

Chemistry end of chapter exercises

Write an equation for the reduction of cesium chloride by elemental calcium at high temperature.

2CsCl ( l ) + Ca ( g ) countercurrent fractionating tower 2Cs ( g ) + CaCl 2 ( l )

Got questions? Get instant answers now!

Why is it necessary to keep the chlorine and sodium, resulting from the electrolysis of sodium chloride, separate during the production of sodium metal?

Got questions? Get instant answers now!

Give balanced equations for the overall reaction in the electrolysis of molten lithium chloride and for the reactions occurring at the electrodes. You may wish to review the chapter on electrochemistry for relevant examples.

Cathode (reduction): 2Li + + 2e 2Li ( l ) ; Anode (oxidation): 2Cl Cl 2 ( g ) + 2e ; Overall reaction: 2Li + + 2Cl 2Li ( l ) + Cl 2 ( g )

Got questions? Get instant answers now!

The electrolysis of molten sodium chloride or of aqueous sodium chloride produces chlorine.

Calculate the mass of chlorine produced from 3.00 kg sodium chloride in each case. You may wish to review the chapter on electrochemistry for relevant examples.

Got questions? Get instant answers now!

What mass, in grams, of hydrogen gas forms during the complete reaction of 10.01 g of calcium with water?

0.5035 g H 2

Got questions? Get instant answers now!

How many grams of oxygen gas are necessary to react completely with 3.01 × 10 21 atoms of magnesium to yield magnesium oxide?

Got questions? Get instant answers now!

Magnesium is an active metal; it burns in the form of powder, ribbons, and filaments to provide flashes of brilliant light. Why is it possible to use magnesium in construction?

Despite its reactivity, magnesium can be used in construction even when the magnesium is going to come in contact with a flame because a protective oxide coating is formed, preventing gross oxidation. Only if the metal is finely subdivided or present in a thin sheet will a high-intensity flame cause its rapid burning.

Got questions? Get instant answers now!

Why is it possible for an active metal like aluminum to be useful as a structural metal?

Got questions? Get instant answers now!

Describe the production of metallic aluminum by electrolytic reduction.

Extract from ore: AlO ( OH ) ( s ) + NaOH ( a q ) + H 2 O ( l ) Na [ Al ( OH ) 4 ] ( a q )
Recover: 2Na [ Al ( OH ) 4 ] ( s ) + H 2 SO 4 ( a q ) 2Al ( OH ) 3 ( s ) + Na 2 SO 4 ( a q ) + 2H 2 O ( l )
Sinter: 2Al ( OH ) 3 ( s ) Al 2 O 3 ( s ) + 3H 2 O ( g )
Dissolve in Na 3 AlF 6 ( l ) and electrolyze: Al 3+ + 3e Al ( s )

Got questions? Get instant answers now!

What is the common ore of tin and how is tin separated from it?

Got questions? Get instant answers now!

A chemist dissolves a 1.497-g sample of a type of metal (an alloy of Sn, Pb, Sb, and Cu) in nitric acid, and metastannic acid, H 2 SnO 3 , is precipitated. She heats the precipitate to drive off the water, which leaves 0.4909 g of tin(IV) oxide. What was the percentage of tin in the original sample?

25.83%

Got questions? Get instant answers now!

Consider the production of 100 kg of sodium metal using a current of 50,000 A, assuming a 100% yield.

(a) How long will it take to produce the 100 kg of sodium metal?

(b) What volume of chlorine at 25 °C and 1.00 atm forms?

Got questions? Get instant answers now!

What mass of magnesium forms when 100,000 A is passed through a MgCl 2 melt for 1.00 h if the yield of magnesium is 85% of the theoretical yield?

39 kg

Got questions? Get instant answers now!
Practice Key Terms 4

Get Jobilize Job Search Mobile App in your pocket Now!

Get it on Google Play Download on the App Store Now




Source:  OpenStax, Chemistry. OpenStax CNX. May 20, 2015 Download for free at http://legacy.cnx.org/content/col11760/1.9
Google Play and the Google Play logo are trademarks of Google Inc.

Notification Switch

Would you like to follow the 'Chemistry' conversation and receive update notifications?

Ask