Abaque and nomogram
In 1844 Leon Lalanne created the first nomogram, introducing the nomography
The modern nomography was invented in 1884 by Maurice d'Ocagne, who replaced the Cartesian coordinates with a system of parallel scales: the nomogram was born.
Leon Lalanne envisioned many copies of his Universal Calculator posted in public squares and business meeting places for popular use but today is very rare.
The original "abaque"
This system never had the success hoped for and was gradually abandoned for the more practical nomography.
The nomography was invented, as an easier replacement of the a abaques, in 1884 by Maurice d'Ocagne who replaced the Cartesian coordinates of the first calculating tables with a system of parallel scales.
The nomogram or nomograph, in its simplest form consists of three scales: the two external identify the values of the problem to solve, and joining them with a ruler you can read the result of the intersection with the central staircase. The scales may be linear or logarithmic. Simple calculations are shown on straight lines but it is sometimes necessary to draw them in a circular shape.
The nomography allowed everyone to perform calculations with ease, it is sufficient to draw one or more lines without even having to know the equation that is being solved. A great help before the advent of the electronic calculators.
The nomograms are still widely used for military uses in medicine and aviation. They are quick to use and the results are sufficiently precise, and for the solution of specific problems are unsurpassed. This represented below is extremely intuitive. Simply combine with a ruler the values of our weight and our height to know if we should just put on a diet.
Height and weight nomogram
As slide rule nomograms are analog instruments whose accuracy is limited by the accuracy with which you can print and read the scales but instead of slide rules, can only solve the problems for which they are programmed. Often are placed in sliding tables.
How to calculate with the nomography
To multiply connect with a ruler the two factors A and B of the outer scales and read the result in the central scale. To divide reverse the process. You can also square and cube a number (or do the square and cubic root). In the examples the red line is 2x5=10 or 10/2=5 or 10/5=2. The blue line is 6x3=10 or 18/3=6 or 18/6=3..
Example: 2.3 x 3.4
Example: 4.5 / 7.8
The slide rule work on the same principle, but this slight approximation has not prevented Von Braun to design space stations and send men on the Moon. Calculating with this system is in fact less difficult than it sounds and the secret is just to be accurate and to practice.