Arabic Mathematical Stretched Meem
Copy and paste the arabic mathematical stretched meem symbol 𞹬 (U+1EE6C) instantly. Part of the Arabic Mathematical Alphabetic Symbols Unicode block.
Works everywhere: websites, documents, social media, code editors
Character Codes
About This Symbol
- Name
- Arabic Mathematical Stretched Meem
- Unicode Block
- Arabic Mathematical Alphabetic Symbols
- Code Point
- U+1EE6C
The Arabic Mathematical Stretched Meem (𞹬) is a Unicode character assigned to the Arabic Mathematical Alphabetic Symbols block at code point U+1EE6C. This block contains characters used across a variety of applications including technical documentation, web development, mathematical notation, and everyday digital communication. The arabic mathematical stretched meem symbol can be inserted directly into text or referenced through its HTML entity, CSS code, or JavaScript escape sequence for use in websites and applications.
How to Use
- 1.Click "Copy Symbol" above to copy 𞹬 to your clipboard
- 2.Paste it anywhere with Ctrl+V (or Cmd+V on Mac)
- 3.Or use the HTML entity
𞹬in your code - 4.For CSS, use
\1EE6Cwith the content property
Understanding Arabic Mathematical Stretched Meem
Among the characters in the Arabic Mathematical Alphabetic Symbols block, the arabic mathematical stretched meem (𞹬) at U+1EE6C fills a specific niche. Its inclusion in the Unicode standard reflects real-world demand for this particular symbol in digital text, enabling authors and developers to reference it unambiguously.
The hexadecimal value 1EE6C places this character at decimal position 126572 in the Unicode table. In UTF-8, it requires four bytes, which affects storage considerations when this character appears frequently in a document. For web use, the HTML entity 𞹬 provides a reliable fallback when direct character insertion is not possible.
Known by its descriptive name referencing "arabic mathematical," this character serves a specific role that generic symbols cannot fill. It appears in specialized typography, technical standards, and digital content where precision in symbol choice directly affects meaning or layout.
About Mathematical Operators
Mathematical operator symbols encode centuries of quantitative reasoning into compact glyphs. This collection spans everything from basic arithmetic operators through advanced set theory notation, tensor products, and abstract algebraic symbols. Researchers typesetting papers in LaTeX, developers building scientific computing interfaces, and educators creating instructional materials all depend on precise rendering of these characters to communicate unambiguous meaning.
Gottfried Wilhelm Leibniz introduced the integral sign in 1675, and Leonhard Euler popularized the summation symbol a century later. For most of printing history, mathematical symbols required specialized metal type, making scientific publishing expensive and slow. Donald Knuth's TeX system, created in 1978, revolutionized mathematical typesetting by defining a comprehensive digital symbol library. Unicode absorbed and organized these symbols across multiple blocks, starting with the core Mathematical Operators block in version 1.0 and expanding through Supplemental Mathematical Operators in version 3.2 and Mathematical Alphanumeric Symbols in version 3.1.
Common Uses
- •Academic paper typesetting and scientific publishing
- •Programming language syntax for logical and comparison operations
- •Statistical notation in data science and research
- •Engineering specifications and formula documentation
- •Educational materials for mathematics instruction
Technical Notes: The Mathematical Alphanumeric Symbols block (U+1D400–U+1D7FF) provides styled variants of Latin and Greek letters — bold, italic, script, fraktur, and double-struck forms — that carry specific semantic meaning in mathematics. A bold capital R denotes something entirely different from a double-struck R (which represents the real numbers). These are encoded as separate code points rather than styled via markup because their meaning is intrinsic, not presentational.
Cultural Context: Mathematical notation is one of the few truly international symbol systems. A summation sign means the same thing in Beijing, Berlin, and Buenos Aires. However, some conventions do vary regionally — the use of a centered dot versus a multiplication cross for products, or a colon versus an obelus for division, reflects distinct pedagogical traditions across European, Asian, and American mathematics education.