Z Notation Right Image Bracket Properties

Explore the distinctive properties that define Z Notation Right Image Bracket. This section provides a detailed exploration of the character's unique attributes, including script, category, and other relevant details. Understand the foundational characteristics that make Z Notation Right Image Bracket distinct, offering valuable insights for developers, linguists, and enthusiasts.
Math
✅Applicable Go▶
Ex:
± × ÷
Other Math
✅Applicable Go▶
Ex:
^ ϐ ϑ
Pattern Syntax
✅Applicable Go▶
Ex:
"
Age
3.2 Go▶
Ex:
Ƞ Ҋ Ӊ
Bidi Class
Other Neutrals Go▶
Ex:
¿
Bidi Paired Bracket Type
Closing bracket Go▶
Ex:
Block
Miscellaneous Mathematical Symbols B Go▶
Ex:
Decomposition Type
None Go▶
Ex:
" : Ƨ
East Asian Width
Neutral Go▶
Ex:
© « µ
General Category
Close Punctuation Go▶
Ex:
) ] }
Grapheme Cluster Break
Other Go▶
Ex:
^ ð ҿ
Indic Syllabic Category
Other Go▶
Ex:
# Ƿ Σ
Jamo Short Name
No JSN Go▶
Ex:
! $ +
Joining Type
Unjoined Go▶
Ex:
* ß ƌ
Line Break
Close Punctuation Go▶
Ex:
}
Numeric Type
None Go▶
Ex:
% A «
Numeric Value
Not a Number Go▶
Ex:
[ p Ѽ
Script
Common Go▶
Ex:
Sentence Break
Close Punctuation Go▶
Ex:
Vertical Orientation
Rotated Go▶
Ex:
À ƾ ʔ
Word Break
Unknown Go▶
Ex:
& = @

Z Notation Right Image Bracket Meta code point Properties

Dive into the finer technical aspects of Z Notation Right Image Bracket with a focus on its meta code point properties. This section provides detailed insights into additional coding details beyond standard encoding. Uncover specific details, aiding those interested in a deeper technical understanding of Z Notation Right Image Bracket beyond its encoding.
Bidi Mirrored Glyph (U+2987)
Bidi Paired Bracket (U+2987)

Free Unicode Tools

CharIDCode pointName
H72U+0048Latin Capital Letter H
e101U+0065Latin Small Letter E
l108U+006CLatin Small Letter L
l108U+006CLatin Small Letter L
o111U+006FLatin Small Letter O

CharUTF-8UTF-16UTF-32
H48 48 00 48 00 00 00
e65 65 00 65 00 00 00
l6C 6C 00 6C 00 00 00
l6C 6C 00 6C 00 00 00
o6F 6F 00 6F 00 00 00

Hello

Z Notation Right Image Bracket Encoding

Ever wondered how your device knows to display Z Notation Right Image Bracket correctly? It's all about encoding – a process that translates Z Notation Right Image Bracket into a language your computer understands. This section takes you through the behind-the-scenes details. Learn about encoding standards like UTF-8 or UTF-16, which ensure that Z Notation Right Image Bracket looks the same whether you're texting, browsing, or using apps. It's like a secret code that makes sure your device gets Z Notation Right Image Bracket just right!
Encoding UTF-8 Dec :226 166 136 Hex :E2-A6-88 Binary :11100010 10100110 10001000
Encoding UTF-16 Dec :41 136 Hex :29-88 Binary :00101001 10001000
Encoding UTF-32 Dec :0 0 41 136 Hex :00 00 29 88 Binary :00000000 00000000 00101001 10001000

Other Z Notation Right Image Bracket Information

HTML Entity
⦈
⦈
Plane Basic Multilingual Plane range(U+0000 to U+FFFF)
Direction Depends on the text

FAQ

What is the Unicode code point for ⦈ ?
The unicode point for ⦈ is U+2988.
Are there variations of this ⦈, and do they have different meanings or uses?
The ⦈ can come in various styles and directions, each with specific meanings or uses.
What does the Unicode Symbol ⦈ represent?
Z Notation Right Image Bracket is denoted by the Unicode symbol ⦈, with the code point U+2988. This symbol made its entrance in Unicode Version 3.2 and resides within the Miscellaneous Mathematical Symbols B block.
When was the Unicode symbol ⦈ introduced?
The ⦈ was introduced in the Unicode version 3.2.
How do I ensure the proper display of the ⦈ on different devices?
Utilizing Unicode encoding guarantees consistent display across devices and platforms. To ensure the Z Notation Right Image Bracket symbol displays correctly on different devices, use Unicode encoding and compatible fonts.
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