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The Sand Reckoner — Count the Grains and Tame Huge Numbers
Mark

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Mark

2. Долдугаар сар 2026FI
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The Sand Reckoner — Count the Grains and Tame Huge Numbers

A hands-on maths project: weigh a pinch of sand, count the grains in a tiny sample, then scale up with powers of ten to estimate the grains in a cup, a bathtub -- even the universe, just as Archimedes did around 250 BC. A Python cell does the giant arithmetic and a compendium shows how exponents were born.
Анхан шат
30 minutes

Зааварчилгаа

1

Counting the uncountable

Around 250 BC Archimedes set himself a game: to count how many grains of sand would fill the whole universe, and to name that number. He had to invent a new way of writing numbers to do it. You will start the same way -- with real sand.
2

Weigh and count a sample

Weigh out a very small, known amount of dry sand -- say one gram -- on a kitchen scale. Counting every grain is impossible, so count the grains in a TINY measured pinch (a few dozen) and scale up, or estimate. Work out roughly how many grains are in one gram.

Materials for this step:

Clean Dry SandClean Dry Sand1 кг
Clean Glass Jars with LidsClean Glass Jars with Lids1 ширхэг

Tools needed:

Digital Kitchen ScaleDigital Kitchen Scale
3

Scale up with powers of ten

Now multiply up. If one gram holds a few thousand grains, a cupful (a couple of hundred grams) holds a few hundred thousand, a bag holds millions, a bathtub holds hundreds of millions. Write each answer as a 1 followed by zeros -- and notice you are just counting the zeros. That count is the 'power of ten', or exponent.

Tools needed:

CalculatorCalculator
4

Let the computer scale to the universe

Loading Jupyter Notebook...

Tools needed:

Desktop ComputerDesktop Computer
CalculatorCalculator
5

Compendium: no largest number

What the sand teaches. (1) Writing a huge number as 10-to-a-power (scientific notation) turns dozens of zeros into a single small exponent -- exactly how scientists write the sizes of atoms and galaxies today. (2) To MULTIPLY two powers of ten you just ADD their exponents (10^63 times 10^24 is 10^87) -- an idea that, centuries later, became logarithms. (3) Archimedes' real point was philosophical: numbers never run out. However vast a pile of sand, you can always name a bigger number. A game about grains quietly invented one of the most useful ideas in mathematics.

Материал

2

Шаардлагатай багаж

3

You can swap these in

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

Холбоотой загварууд

Эдгээр загварууд мэдлэг хуваалцдаг — арга техник, материал эсвэл зарчим

CC0 Нийтийн домэйн

Энэ загвар CC0 дор гаргагдсан. Та зөвшөөрөл авахгүйгээр хуулах, өөрчлөх, түгээх, ашиглах боломжтой.

Загвараар дамжуулан бүтээгдэхүүн худалдаж авч Бүтээгчийг дэмжээрэй Бүтээгчийн шимтгэл Борлуулагчаар тогтоосон, эсвэл энэ загварын шинэ хувилбар үүсгэж орлогоо хуваахын тулд өөрийн загварт холбоос болгон оруулна уу.

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