Sorites Paradox or the Paradox of the Heap

Something new to do when you are building summer sand castles.

Tuning fork by John Walker stamped with note (...

Tuning fork by John Walker stamped with note (E) and frequency in hertz (659) (Photo credit: Wikipedia)

If you remove one grain of sand at a time, when does a heap of sand stop being a heap?

Though this is a philosophy question, not strictly a math activity, my son, who double-majored in math and philosophy, tells me that eventually the two disciplines come together.

Sorites, for Sorites paradox, is named for the Greek word for heap, soros.

The Sorites paradoxes are attributed to a Greek philosopher and logistician who lived at the same time as Aristotle, Eubulides.

Let’s recreate his puzzle.


  • Sand (as much as you want, but at least a cup)
  • 2 trays or cookie sheets with sides
  • Optional, instead of sand: grains of rice, dried beans, cereal, buttons


  • Pile up the sand in a single pile, or heap, on one tray
  • Take one grain of sand from the pile and start a new pile on the second tray
  • At what point does the first pile stop being a pile, or heap, of sand?
  • At what point does the second pile become a heap?

What Should Happen?

There is no answer to this question. It is considered an unsolved philosophical question.

In order to answer it, you have to change the boundaries of the question.

There are a couple of ways to do this.

  • Define a heap by how many grains of sand it must have to be considered a heap, say, 1,000, or 10, or enough to have more than one layer of sand
  • Define a heap to include one or no grains of sand.

Another of Eubulides’ puzzles was:

  • How many hairs must be on a man’s head until he is no longer considered bald?

This and the sand as a heap puzzle can be asked in either direction, starting with none to see when a heap is reached or a man is no longer bald, or starting with a heap or a man with hair to see when it is no longer a heap or a man is bald, just as when you moved the sand from one tray to the other.

Why Is This Useful? 

There are many areas where gradation, or changing little by little between defined categories, becomes important.

Understanding that you have to define your categories precisely, so everyone understands and agrees, lets you communicate what you really mean.

Vagueness, which is at the heart of the Sorites paradox, does not always work.


Though we can tell the difference between pink and red, there are lots of shades in between.

You could ask the same question.

When does red stop being red and become pink? When does pink stop being pink and become red?

Paint stores have formulas for how much of one color paint to mix with another color to achieve a matching paint chip color so that all three gallons you buy to paint a room will be the same color.


If you’ve ever tuned an instrument, like a guitar or violin, or any stringed instrument, you understand the gradations between notes you want to play.

A middle “C,” for instance, is defined as a frequency of 261.626 Hz or hertz.

When we are experienced, we can hear it when it is right. Or, we can use a tuning fork that is made for a specific hertz value and note.

The most common pitch for a tuning fork is “A”, for concert orchestras to tune their instruments to the second string of the violin.

Can you think of any other areas where something changes little by little?

When does it stop being night and become day? Clocks help us all agree.

 This post was first published on

Carol Covin, Granny-Guru

Author, “Who Gets to Name Grandma? The Wisdom of Mothers and Grandmothers



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