Muslims contributed to the development of geometry by building upon the works of ancient Greeks and adding new ideas, especially in the field of algebraic geometry.

## A thorough response to a query

Muslims made significant contributions to the field of geometry, which included advancements in algebraic geometry and building upon the works of ancient Greeks. One of the most notable mathematicians in Islamic history was Muhammad ibn Musa al-Khwarizmi, who is credited with developing the concept of algebra and introducing the use of Arabic numerals to the Western world.

According to Eric Temple Bell, a prominent mathematician, “The men who made medieval Mathematics were, above all, men of strong religious faith. The greatest medieval mathematician, Al-Khowarizmi, wrote a famous book on algebra that emphasized its religious aspects as well as its secular ones.” Muslims practiced geometry not only for its practical applications in architecture and engineering but also as a means of understanding the divine order and beauty of the natural world.

Other notable Muslim mathematicians who contributed to geometry include Abu Kamil Shuja ibn Aslam, who developed analytical geometry, and Omar Khayyam, who made significant contributions in the field of algebraic geometry. During the Islamic Golden Age, scholars made advancements not only in geometry but also in other areas of mathematics, including trigonometry and calculus.

Here is a table summarizing some of the notable contributions made by Muslim mathematicians to the field of geometry:

Mathematician | Contributions to Geometry |
---|---|

Muhammad ibn Musa al-Khwarizmi | Introduced the concept of algebra and contributed to the development of algebraic geometry |

Abu Kamil Shuja ibn Aslam | Developed analytical geometry |

Omar Khayyam | Made significant contributions to algebraic geometry |

Al-Biruni | Developed methods for measuring the Earth’s circumference |

Alhazen | Made important contributions in the fields of optics and experimental physics, which were applied to geometry |

In conclusion, Muslims made significant contributions to the field of geometry through building upon the works of ancient Greeks and adding new ideas, especially in the field of algebraic geometry. Their advancements in mathematics during the Islamic Golden Age have had a lasting impact on the modern world.

## Response video to “What did Muslims contribute to geometry?”

Islamic geometric design is a sophisticated art form that originated during the 8th century CE and involves existing motifs from Roman and Persian cultures being developed into new forms of visual expression. In this video, the underlying characteristics and techniques of Islamic geometric design, as found in places such as mosques and palaces, are explained. The art form encompasses increasing levels of abstraction, complex geometry, and patterns that seem to repeat endlessly, and yet all that is required to create these designs are a compass and a ruler. Each design begins with a circle that is then divided into four, five, or six equal parts that give rise to distinctive patterns. Furthermore, the underlying grid must be an essential part of each pattern’s creation, making the pattern accurate and facilitating the invention of new designs. Lastly, the tessellation, or the repeating of patterns, is the hallmark of Islamic geometric design which serves to create a visually stunning piece of art.

## See more answers from the Internet

The great philosopher Abū Naṣr al‐Fārābī (ca. 870–950) proposed many geometric constructions of parabolas, regular polygons, squares equal to three given equal squares, constructions with one opening of the compass, and constructions on the sphere.

Geometry was highly developed by the Greeks, and the Muslims translated such great Greek thinkers as Euclid. Muslims used their understanding of geometry into designing wheels of all kinds, especially waterwheels and other systems for drawing up water, in improving farming equipment, and in designing devices of war such as catapults and crossbows.

Hi, if you do a quick Google you should find a load of info on all three of these areas. As an overview, because the Islamic empire became strong and organised there were people who were able to become excellent in different fields. They had a good system of collecting information from around the world and organising it into books. So some of the ideas were build on things they found in other countries. Let’s look at maths: in English countries we use what’s is know are Arabic numerals, but they are actually originally from India. a famous Muslims mathematician, I think it was al khwarazmi, started using them and also brought in the concept of zero which was later adopted by the Europeans. it’s from his work that we get the terms algebra and algorithm.

astronomy, I already address in another answer you requested but on top of what I mentioned, you could also look for the name inn Yunus. Medicine you are looking for the name Al-Zahrawi. Google away and you will find some amazing stuff …

## Also, individuals are curious

Similarly, **Did Muslims develop geometry?**

The reply will be: Islamic scientists in the 10th century were involved in three major mathematical projects: the completion of arithmetic algorithms, the development of algebra, and **the extension of geometry**.

**What is the Islamic history of geometry?** As a response to this: **The earliest geometrical forms in Islamic art were occasional isolated geometric shapes such as 8-pointed stars and lozenges containing squares**. These date from 836 in the Great Mosque of Kairouan, Tunisia, and since then have spread all across the Islamic world.

Likewise, **What math did Muslims create?** Answer: Islamic mathematicians quickly adopted the **Indian system of numerals**, which we know today as Arabic numerals. Other contributions included creating algebra, the use of decimals, mathematical induction, and trigonometry, among others.

Furthermore, **What did Muslims contribute to trigonometry?** The answer is: Al-Battani adapted Greek trigonometry and astronomical observations to make them more useful. Al-Biruni was among the first to use the sine function in astronomy and geography, and Abu al-Wafa helped apply spherical trigonometry to astronomy, among other important contributions.

**What are geometric designs in Islamic art?**

As a response to this: The geometric designs in Islamic art are often built on **combinations of repeated squares and circles**, which may be overlapped and interlaced, as can arabesques (with which they are often combined), to form intricate and complex patterns, including a wide variety of tessellations.

Also Know, **What is the relationship between Islamic religious beliefs and geometric patterns?** Answer to this: There is a direct relation between Islamic religious beliefs and the evolution and use of geometric patterns. Probably the most commonly known Islamic principle influencing art is aniconism, which is the discouragement of the representation of figures of beings. The Quran says that the work of God is unique and unrepeatable.

Also Know, **What was the first Islamic geometric pattern Symposium?**

The answer is: In 2013 the Istanbul Center of Design and the Ensar Foundation ran what they claimed was the first ever symposium of Islamic Arts and Geometric Patterns, in Istanbul. The panel included the experts on Islamic geometric pattern Carol Bier, [g] Jay Bonner, [h] Eric Broug, [i] Hacali Necefoğlu [j] and Reza Sarhangi.

**How did Islamic civilization contribute to modern mathematics?** No wonder the Islamic civilization also contributed significantly to the development of the branch of modern mathematics. In the field of geometry, an Islamic scientist name Ibn al-Haitham **developed an analytical geometry that links geometry with algebra**. In addition, he also introduced the concept of movement and transformation in geometry.

Moreover, **What is Islamic geometric design?**

Response will be: The basic principle behind Islamic design: you draw a grid using ruler and compass, draw the pattern on top and then remove the grid. Islamic geometric design mixes elements of maths, art and history. Trying to decipher the steps that led to finished patterns is like a mathematical puzzle.

Beside this, **How did Islamic civilization contribute to modern mathematics?** No wonder the Islamic civilization also contributed significantly to the development of the branch of modern mathematics. In the field of geometry, an Islamic scientist name Ibn al-Haitham developed an analytical geometry that links geometry with algebra. In addition, he also introduced the concept of movement and transformation in geometry.

**Why did Islamic craftsmen turn geometry into art?** Answer: Islamic craftsmen turned geometry into an art form because pictures of people were not allowed in holy places. Dutchman Eric Broug – who lives in the north of England – has become a global ambassador for this design style. Here he explains why it fascinates him, and gives a step-by-step guide for a tiling of stars

Thereof, **What was the first Islamic geometric pattern Symposium?** The answer is: In 2013 the **Istanbul Center of Design** and the Ensar Foundation ran what they claimed was the first ever symposium of Islamic Arts and Geometric Patterns, in Istanbul. The panel included the experts on Islamic geometric pattern Carol Bier, [g] Jay Bonner, [h] Eric Broug, [i] Hacali Necefoğlu [j] and Reza Sarhangi.