GEORGIAN CAPITAL LETTER ZEN·U+10A6

Character Information

Code Point
U+10A6
HEX
10A6
Unicode Plane
Basic Multilingual Plane
Category
Uppercase Letter

Character Representations

Click elements to copy
EncodingHexBinary
UTF8
E1 82 A6
11100001 10000010 10100110
UTF16 (big Endian)
10 A6
00010000 10100110
UTF16 (little Endian)
A6 10
10100110 00010000
UTF32 (big Endian)
00 00 10 A6
00000000 00000000 00010000 10100110
UTF32 (little Endian)
A6 10 00 00
10100110 00010000 00000000 00000000
HTML Entity
Ⴆ
URI Encoded
%E1%82%A6

Description

U+10A6 is the Unicode code point for the Georgian Capital Letter Zen (ႚ). This character plays a vital role in digital text, particularly within the realm of typography and language representation. As part of the Georgian script, which consists of 38 letters, it contributes to the unique linguistic and cultural heritage of the Georgian people. The Georgian script is primarily used for writing the Georgian language, which belongs to the Kartvelian family of languages. This particular character, Zen, has a specific position within the script, holding its own unique phonetic and semantic value. In terms of technical context, U+10A6 ensures accurate representation of this letter in digital communication, fostering greater interoperability between different computer systems and software applications that support Unicode.

How to type the symbol on Windows

Hold Alt and type 4262 on the numpad. Or use Character Map.

  1. Step 1: Determine the UTF-8 encoding bit layout

    The character has the Unicode code point U+10A6. In UTF-8, it is encoded using 3 bytes because its codepoint is in the range of 0x0800 to 0xffff.

    Therefore we know that the UTF-8 encoding will be done over 16 bits within the final 24 bits and that it will have the format: 1110xxxx 10xxxxxx 10xxxxxx
    Where the x are the payload bits.

    UTF-8 Encoding bit layout by codepoint range
    Codepoint RangeBytesBit patternPayload length
    U+0000 - U+007F10xxxxxxx7 bits
    U+0080 - U+07FF2110xxxxx 10xxxxxx11 bits
    U+0800 - U+FFFF31110xxxx 10xxxxxx 10xxxxxx16 bits
    U+10000 - U+10FFFF411110xxx 10xxxxxx 10xxxxxx 10xxxxxx21 bits
  2. Step 2: Obtain the payload bits:

    Convert the hexadecimal code point U+10A6 to binary: 00010000 10100110. Those are the payload bits.

  3. Step 3: Fill in the bits to match the bit pattern:

    Obtain the final bytes by arranging the paylod bits to match the bit layout:
    11100001 10000010 10100110