Topics 8 & 18 : Acids and bases
Introduction to Topic 8 and Topic 18
You should be able to recall the characteristic properties of acids and bases and you should have plenty of practice at writing equations for the reactions of acids with hydroxides, oxides, carbonates, hydrogencarbonates and other bases such as ammonia as well as reactive metals. (If you do Option D : Medicinal chemistry this is very useful for D.4 on pH regulation of the stomach.) The distinction between strong and weak acids is covered and this emphasises the importance of language as you should be able to distinguish between the words “strong”, “concentrated” and “corrosive” when applied to an acid. The concept of the pH scale is included and at both Standard and Higher Level calculations involving the formula pH = − log10[H+(aq)] are required. At both levels you also need to understand the use of indicators and pH meters in titrations. At Higher Level more types of calculations are required including the manipulation of logarithms for pH, pOH, Ka, Kb, pKa and pKb calculations (but not buffer calculations as these now only appear at Higher Level in Option B : Biochemistry under Proteins and Enzymes and at both Higher and Standard Level in Option D : Medicinal chemistry which specifically mentions the Henderson–Hasselbalch equation in the core topic B.4 on pH regulation of the stomach). As with equilibrium calculations, you are not expected to solve quadratic equations but use approximations instead. All students need to know and be able to apply the BrØnsted-Lowry theory of acids and bases and be able to link an acid with its conjugate base. However Lewis theory is only introduced at Higher Level and extended to cover 'curly arrows' in organic reaction mechanisms . At both levels the sub-topic 8.5 deals with acid deposition. This is effectively 'utilization' but, as it is clearly a sub-topic in its own right, it is assessable.
Associated pages
8.1 Theories of acids & bases
After studying this topic you should be able to deduce the Brønsted–Lowry acids and bases in a chemical reaction and identify the conjugate acids or conjugate bases in a chemical reaction...
8.2 Properties of acids & bases
After studying this topic you should be able to understand that most acids react with reactive metals, metal oxides, metal hydroxides, hydrogen carbonates and carbonates in an observable and characteristic way..
8.3 pH scale
After studying this topic you should be able to solve problems involving pH, [H+] and [OH﹣] and have gained familiarity with the use of a pH meter and universal indicator...
8.4 Strong & weak acids & bases
After studying this topic you should be able to distinguish between strong and weak acids and bases in terms of the different rates of their reactions with metals, metal oxides, metal hydroxides...
8.5 Acid deposition
After studying this topic you should be able to balance equations describing the combustion of sulfur and nitrogen to form their oxides and the subsequent reactions with water to form H2SO3, H2SO4, HNO2 and HNO3...
18.1 Lewis acids & bases
After studying this topic you should be able to apply Lewis acid–base theory to both inorganic and organic chemistry in order to identify the role of the reacting species...
18.2 Calculations involving acids & bases
After studying this topic you should be able to solve problems involving [H+(aq)], [OH–(aq)], pH, pOH, Ka, pKa, Kb and pKb and discuss the relative strengths of acids and bases using values of Ka, pKa, Kb and pKb...
18.3 pH titration curves
After studying this topic students you be able to explain the general shapes and important features of graphs of pH against volume for titrations involving strong and weak acids and bases and select an appropriate indicator...
The Nature of Science
I received an e-mail from a student (not someone I teach) who asked me, "What is this nature of science business?” So what exactly does the IB mean by the Nature of Science? Essentially it covers five key points…
Topics 8 & 18
1. The destruction of coral reefs. 2. Our waste gases - your problem? In 1983 the then Swedish Minister for Agriculture noted,"For decades we have been using the atmosphere as a rubbish dump, and now the...