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Slide rule

The slide rule is a mechanical precursor of the pocket calculator. It was invented in 1625 by William Oughtred[?].

Once widely used for rapid, approximate scientific and engineering calculations, a slide rule is an analog computer consisting of three interlocking calibrated strips. The central strip can be moved lengthways relative to the other two. A sliding cursor with an alignment line can record an intermediate result on any of the scales.

One slide rule remains in daily use around the world, the E-6B. This is a circular slide rule first created in the 1930s for pilots to help with dead-reckoning. It is still available in all flight shops, and remains widely used. While GPS has greatly reduced the use of dead-reckoning for aerial navigation, the E-6B remains widely used as a backup device and all flight schools demand its use.

Theory of operation

The scales are logarithmical. To multiply one aligns the one of the moving scale with the mutiplicand of the fixed scale. The product will be found on the fixed scale opposite the other mutiplicand on the moving scale. Division reverses this process. The rule works by the mechanical addition and subtraction of logarithms.

Slide rules calibrated on one side were called "simplex." Slide rules calibrated on both sides were called "duplex."

Typically two significant figures of precision were possible, with three being obtained by expert users who could estimate the fraction between gradations. Some high-end slide rules had magnifying cursors that basically doubled the accuracy, permitting a 10 inch slide rule to serve as well as a 20 inch.

Slide rules often have other mathematical functions encoded on other auxiliary scales. The most popular were trigonometric, usually sine and tangent, logarithm of logarithm (base 10) (for taking the log of a value on a multiplier scale), natural logarithm and exponential scales. Some rules included a pythagorean scale, to figure sides of traiangles, and a scale to figure circles.

Specialised slide rules were invented for various forms of engineering, business and banking. These often had common calculations directly expressed as special scales, for example loan calculations, optimal purchase quantities, or particular engineering equations.

A number of tricks were used to get more convenience. Trigonometric scales were sometimes dual-labelled, in black and red, with complementary angles, the so-called "Darmstadt" style. Duplex slide rules often duplicated basic scales on the back. Scales were often "split" to get higher accuracy.

Circular slide rules had two basic types, one with two cursors, and another with a moveable disk and a cursor.

The basic advantage of a circular slide rule is that the longest dimension was reduced by a factor of about 3 (i.e. by π). For example, a 10cm circular would have a maximum accuracy equal to a 30cm ordinary slide rule.

Circular slide rules were mechanically more rugged, smoother-moving and more precise than linear slide rules, because they depended on a single central bearing. The central pivot did not usually fall apart. The pivot also prevented scratching of the face and cursors. Only the most expensive linear slide rules had these features.

The highest accuracy scales were placed on the outer rings. Rather than "split" scales, high-end circular rules used helical (snail-shell-shaped) scales for difficult things like log-of-log scales. One eight-inch premium circular rule had a 50 inch helical log-log scale!

Circular slide rules also eliminate "off-scale" calculations, because the scales were designed to "wrap around."

A real disadvantage of circular slide rules is that less-important scales are closer to the center, and have lower accuracies.

The main disadvantage of circular slide rules was just that they were not standard. Most students learned on the linear slide rules, and never switched.

Materials

The best older slide rules were made of bamboo, which is dimensionally stable, strong and naturally self-lubricating. They used scales of celluloid or plastic. Some were made of mahogany. Later slide rules were made of plastic, or aluminum painted with plastic.

All premium slide rules had numbers and scales engraved, and then filled with paint or other resin. Painted or imprinted slide rules are inferior because the markings wear off.

Early cursors were metal frames holding glass. Later cursors were acrylics or polycarbonates sliding on teflon bearings.

Magnifying cursors can both help engineers with bad eyes, and double the accuracy of a slide rule.

Premium slide rules included clever catches so the rule would not fall apart by accident, and bumpers so that tossing the rule on the table would not scratch the scales or cursor.

The recommended cleaning method for engraved markings is light scrubbing with steel-wool. For painted slide rules, and the faint of heart, use diluted commercial window-cleaning fluid and a soft cloth.

History

Slide rules came into wide use in the 1850s, as engineering became a recognized professional activity.

In World War II, bombardiers, navigators, and other warriors who required quick calculations often used specialized slide rules. One office of the U.S. Navy actually designed a generic slide rule "chassis" with an aluminum body and plastic cursor into which celluloid cards (printed on both sides) could be placed for special calculations. The process was invented to calculate range, fuel-use and altitude for aircraft, and then adapted to many other purposes.

Throughout the 1950s and 1960s the slide rule was the symbol of the engineer's profession in the same way that the stethoscope symbolized the medical profession.

Slide rules became obsolete in the 1970s, with the advent of inexpensive miniaturised pocket calculators.

As a result, most slide rules are now collectors' items. Two popular models include the "K&E Deci-Lon," a premium scientific & engineering slide rule. Another prized model is the eight inch "Scientific Instruments" circular slide rule.

As recently as 2002, new slide rules were being located in the back-shelves of university book-stores, even though production ended in 1973.

See also: Computing timeline, Abacus, Nomogram[?], Four Figure tables[?], Napier's bones

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