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Napier's Logarithms — Build a Paper Slide Rule and Multiply by Sliding
Mark

Creado por

Mark

2. julio 2026FI
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Napier's Logarithms — Build a Paper Slide Rule and Multiply by Sliding

A hands-on maths project: make a slide rule from two paper strips marked with a logarithmic scale, then multiply numbers just by sliding them -- because logarithms turn multiplication into addition. A Python cell shows the log trick, and a compendium covers 300 years of computing before the calculator.
Principiante
30 minutes

Instrucciones

1

Turning times into plus

In 1614 John Napier published logarithms, which turn hard multiplication into easy addition. The slide rule mechanised the trick and did the world's calculating for 300 years. You will build one from paper.
2

Make two logarithmic strips

Cut two identical strips of card. On each, mark 1 at the left and 10 at the right, but space the numbers so that 2 sits about 30% along, 3 about 48%, 5 about 70% -- these positions are the logarithms. (Mark 1,2,3,...,10 at the log positions; a printed log scale helps.) These uneven marks are the secret.

Materiales para este paso:

Cardstock Assorted Pack (50 sheets)Cardstock Assorted Pack (50 sheets)1 pieza

Herramientas necesarias:

Steel Ruler (30cm)Steel Ruler (30cm)
Sharp ScissorsSharp Scissors
Graphite Pencil SetGraphite Pencil Set
3

Multiply by sliding

To multiply, say, 2 by 3: slide the 1 of the top strip to sit above the 2 on the bottom strip. Now look above the 3 on the top strip -- it points at 6 on the bottom. You just multiplied by ADDING two lengths. Try 2 by 4, or 3 by 3. Sliding adds the log-distances, and adding logs multiplies the numbers.
4

See the log trick in numbers

Loading Jupyter Notebook...

Herramientas necesarias:

Desktop ComputerDesktop Computer
CalculatorCalculator
5

Compendium: three centuries of computing

What your slide rule teaches. (1) A logarithm answers 'what power of 10 gives this number?', and the one law log(a times b) equals log(a) plus log(b) is why sliding (adding lengths) multiplies. (2) Equal MULTIPLES sit at equal DISTANCES on a log scale -- that is why the marks bunch up toward 10. (3) From Kepler's orbits to the Apollo programme, science ran on log tables and slide rules until electronic calculators retired them in the 1970s. (4) Logarithms never left: they measure sound in decibels, acidity in pH, earthquakes on the Richter scale and information in bits.

Materiales

1

Herramientas requeridas

5

You can swap these in

Can't get one of the materials? Swap it for an equivalent — these work just as well.

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