Most cars are fitted with internal combustion petrol engines. These have pistons that travel inside cylinders – okay, that is already getting rather technical – but all you need to know is that the pistons and cylinders are the greasy bits that move up and down inside your engine, compressing a mixture of fuel and air until a spark ignites it, thereby generating the power that propels you past the Golden Arrow bus blocking your path.
So, engines contain cylinders and cylinders contain pistons. The size – or displacement – of your engine is the maximum amount of space in the cylinders that can fill with air and fuel. Engine displacement is measured in either cubic centimetres (cc) or litres. A 2.0-litre engine will therefore have a total displacement of approximately 2000 (a 1989cc engine will be rounded off and referred to as a 2.0, not a 1.989-litre!) cubic centimetres. In comparison to a 1.6-litre, a 2-litre engine obviously has a larger capacity and therefore the ability to pump a greater amount of air/fuel which enables it to produce more power than the average 1.6.
"325" denotes a "3 Series BMW" fitted with a 2.5-litre motor
A common motoring adage says that “there is no replacement for displacement” and it largely holds true. The easiest way – alongside forced induction - to generate more power out of an engine is to increase its size. Of course, engine size generally correlates to the size of the vehicle – this is why you will never see a Fiat Uno 4.0-litre cruising by. If you do see such a car, it will more likely be flying to the moon than cruising.
A CitiGolf fitted with a 1400cc motor and a diagram of an internal combustion motor with 4 cylinders. The coloured areas represent the engine's displacement.
Of course, the obvious disadvantage of larger engines is that because they’re able to pump a larger amount of an air/fuel mixture, they’re heavier on fuel. Also, whether presented as a 1600, 160 or 1.6, these are all engines with a displacement that is the same or similar enough to make no real difference.
Perhaps the next oversight that many make when relating to engine size is that a 1600 is definitely faster than a 1400. However, there are many variables that one has to take into account when comparing the performance of two vehicles. For example, a 1.6-litre VW Citi-Golf is faster than a VW Jetta fitted with a 2.0-litre. Even though the Jetta has a larger engine and produces more power, it is much heavier.
For a more accurate (but never entirely perfect) performance comparison, one has to take into account the power to weight ratio of a vehicle – this figure can be used to compare vehicles in different segments and with different sizes of engine.
So, there we go. A basic guide to engine capacity/size/displacement explained… may you now nod knowingly at the thousands of 180i Corollas, 1.6 Polos and 1.4 Fiestas as they whizz by you.
