Cubic inch

A cubic inch (plural: cubic inches) is a non-SI unit of volume, equal to the volume of a cube with sides of one inch.

Cubic inches are still sometimes used as a unit of measurement (in engineering contexts, not household contexts) in the United States, Canada, and United Kingdom, although SI is continuing to gradually displace non-SI usage.

Notation conventions
The following symbols are used to denote cubic inches:
 * cubic in
 * cu inches, cu inch, cu in
 * inches/-3, inch/-3, in/-3
 * inches^3, inch^3, in^3
 * inches³ ,inch³, in³
 * c.i.
 * c.i.d., cid, CID &mdash;for cubic inch displacement in internal combustion engines

Equivalence with other units of volume
1 cubic inch (assuming an international inch) is equal to:
 * 0.000578703703703 cubic feet (1 cu ft equals 1,728 cu in)
 * about 0.554112552 U.S. fluid ounces
 * about 0.069264069 U.S. cups
 * about 0.000465025413 U.S. bushels
 * about 0.004329 U.S. liquid gallons (1 gallon equals 231 cu in exactly (3 in × 7 in × 11 in))
 * about 0.00010307 crude barrels (1 barrel equals 42 gallons, or 9702 cu in)
 * exactly 0.016387064 litres (1 L is about 61 cu in [exactly 61.0237441 cu in])
 * exactly 16.387064 millilitres or cubic centimetres (which in turn are about 0.061 cu in)
 * exactly 0.000016387064 cubic metres (1 m³ is about 61,023.75 cu in)

Electrical box volume
The cubic inch was established decades ago as the conventional unit in the U.S. for measuring the volume of electrical boxes; SI has not yet replaced it for this purpose.

Engine displacement
The cubic inch was formerly used (until the 1980s) to express the nominal size (displacement) of engines (e.g. 426 HEMI) for new cars, trucks, etc. It is therefore still used for this purpose in the context of the classic-car hobby, auto racing, and so forth. The auto industry nowadays uses SI for this purpose (e.g. 6.1 L HEMI). However, the actual displacement measurements of an engine are still given by many manufacturers in cubic inches (usually along with cc; e.g. the 6.1 L HEMI's published displacement is 370.0 CID/6,059 cc). Some examples of common CID-to-litre conversions are given below. Note that nominal sizes are not always precisely equal to actual sizes. This principle is frequently seen in engineering, tool standardization, etc. (for ease of use) and in marketing (when a big round number sounds more impressive, is more memorable, etc.).