There is no definitive answer as to how mathematics evolved during the XII dynasty, as there is limited information available about mathematical practices and developments during this time period.

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The XII dynasty of Ancient Egypt lasted from approximately 1991 to 1802 BCE, and during this time, there were several advancements in various fields. However, when it comes to the evolution of mathematics during this time period, information is limited. The mathematics that were practiced during the XII dynasty were likely practical and related to the day-to-day activities of Ancient Egyptians.

According to one source, “There is no direct evidence for mathematical work during the Twelfth Dynasty.” This means that historians and researchers have had to piece together information from other sources in order to understand what math practices might have looked like during the time period. However, there are a few interesting facts that can help us better understand the context in which math was practiced during the XII dynasty:

- The ancient Egyptians used a base 10 numeration system, which means they used 10 different symbols to represent numbers (like the numbers we use today).
- The Rhind Mathematical Papyrus, which dates to around 1650 BCE, was written during the Second Intermediate Period (when the XII dynasty fell), but it contains math problems and solutions that were likely used during the XII dynasty as well.
- Some scholars speculate that the Ancient Egyptians may have used a kind of “practical arithmetic” to solve everyday problems like dividing food and supplies among workers.

Despite the limited information available on the evolution of mathematics during the XII dynasty, it’s clear that math played an important role in the daily lives of Ancient Egyptians. As one historian notes, “It seems likely that most of mathematics was still primarily practical, concerned with the problems of everyday life rather than abstract speculation.”

## Answer in the video

The documentary explores the Xia dynasty, the first dynasty in China according to legend, founded by a providential leader who survived a natural disaster in 2000 BC. While the story was used to legitimize centralized power, the Xia dynasty’s existence has never been fully proven. The video delves into the early roots of Chinese civilization, exploring the Neolithic cultures, dynasties, art, and influence that have helped shape the country as it is today. The documentary also discusses the importance of jade as a symbol of power, the first observatory in the world built by the Longshan culture, the violent rebellions faced by nobles during the Xia dynasty, and the structure and architecture of early Chinese cities.

## I found further information on the Internet

A contibution to a discussion that ended nearly four years may appear quixotic but it is difficult to let stand an answer which, though accurately summing up Boyer’s views on the subject, is completely out of date and misleading. The state of the question of the origin and evolution of fractions still today is to be found in the acts of an international conference on the question, published as: Histoire de fractions, fractions d’histoire (Basel: Birkhäuser) 1992 — unfortunately very little has been done in the field since. The specific question of Ancient Egyptian fractions is treated in the editors’ introduction, “The earliest fractions” (pp. 3-15) and in the chapter by James Ritter, “Metrology and the prehistory of fractions” (pp. 19-34). (Note that though the bulk of the book is in French, these two chapters are in English).

Summing up rapidly, the earliest Egyptian fractions date back to the earliest period of Egyptian writing and state formation (1st Dynasty, roughly 3000 BCE). T…

**Also people ask**

*Through abstraction and logical reasoning*mathematics evolved from counting, calculation, measurement, and the systematic study of the shapes and motions of physical objects. Practical mathematics has been a human activity for as far back as written records exist.

*Babylonian mathematicians were the first known to create a character for zero*. Hypatia worked with her father Theon to translate math texts into Greek. The Greeks expanded the math developed by the ancient Egyptians and Babylonians to promote a systematic study of math.

*Advances in numerical calculation, the development of symbolic algebra and analytic geometry, and the invention of the differential and integral calculus*resulted in a major expansion of the subject areas of mathematics.

*the invention of infinitesimal calculus by Newton and Leibniz, at the end of the 17th century*. This refers to the study of change based around limits, differentials and integration.

*almost nothing*, little more than calculation on the abacus, whilst in the 17th and 18th centuries nothing could be paralleled with the revolutionary progress in the theatre of European science.

*a revival*.

*Many Greek and Arabic texts on mathematics were translated into Latin*from the 12th century onward, leading to further development of mathematics in Medieval Europe. From ancient times through the Middle Ages, periods of mathematical discovery were often followed by centuries of stagnation.

*fairly standard*in the great schools. The Ten Computational Canonswas a collection of ten Chinese mathematical works, compiled by early Tang dynasty mathematician Li Chunfeng (李淳風 602–670), as the official mathematical texts for imperial examinations in mathematics.

*almost nothing*, little more than calculation on the abacus, whilst in the 17th and 18th centuries nothing could be paralleled with the revolutionary progress in the theatre of European science.

## Topic addition

**Wondering what,**The first period of the history of mathematics was the Ancient Greek period, which began around 900 BC and ended around 300 BC. This is where we see the development of geometry, number theory, and algebra. The second period of the history of mathematics was the medieval era, which began around 700 AD and ended around 1600 AD.

**Interesting fact:**The second period of the history of mathematics was the medieval era, which began around 700 AD and ended around 1600 AD. This is where we see developments in algebraic geometry, analytic geometry, trigonometry, calculus, and infinitesimal calculus.

**And did you know:**The third period of the history of mathematics was called the Renaissance Period which began in 14th century Italy as a cultural movement. It lasted until 17th century France when it had to come to an end due to religious The Golden Age of Mathematics