Template:Rangle/doc
This is a documentation subpage for Template:Rangle. It may contain usage information, categories and other content that is not part of the original template page. |
This is the right-handed angular bracket used for writing averages or bra–ket notation, with other applications primarily in mathematics and physics, for use when inline html rendering is desired rather than TeX rendering.
This is used in the {{braket}} template. When creating bra or ket vectors, or inner products, use {{Braket}} to save the trouble of typing | (for the pipe symbol), {{langle}}, or {{rangle}} every time.
Examples
lemba- Kets
The superposition of states can be written |p⟩ + |q⟩ + |χ⟩ + |ψ⟩, which is inline with the text.
Another superposition of states: |P⟩ + |Q⟩ + |Φ⟩ + |Ψ⟩, again inline.
The superposition of states can be written |p{{rangle}} + |q{{rangle}} + |χ{{rangle}} + |ψ{{rangle}}, which is inline with the text.
Another superposition of states: |P{{rangle}} + |Q{{rangle}} + |Φ{{rangle}} + |Ψ{{rangle}}, again inline.
- Tables (also hidden boxes)
Due to the vertical bar | used in template coding, the html code | must be used when bra–ket notation is used in tables, else some parts will not show up because of code interference.
The correct way:
Right bracket alone | Ket |
---|---|
Φ⟩ + Ψ⟩ | |Φ⟩ + |Ψ⟩ |
and the wrong way:
Right bracket alone | Ket |
---|---|
Φ⟩ + Ψ⟩ | Φ⟩ + |Ψ⟩ |
The correct way:
{| class="wikitable"
|-
! Right bracket alone
! Ket
|-
| Φ{{rangle}} + Ψ{{rangle}}
| |Φ{{rangle}} + |Ψ{{rangle}}
|}
and the wrong way:
{| class="wikitable"
|-
! Right bracket alone
! Ket
|-
| Φ{{rangle}} + Ψ{{rangle}}
| |Φ{{rangle}} + |Ψ{{rangle}}
|}
- In conjunction with {{langle}}
One sum of inner products is ⟨p|q⟩ + ⟨χ|ψ⟩, a real number.
A sum of average values could be ⟨P|E|Q⟩ + ⟨Φ|p|Ψ⟩, another real number.
One sum of inner products is {{langle}}p|q{{rangle}} + {{langle}}χ|ψ{{rangle}}, a real number.
A sum of average values could be {{langle}}P|''E''|Q{{rangle}} + {{langle}}Φ|''p''|Ψ{{rangle}}, another real number.
The average of a quantity q may be written ⟨q⟩. The root mean square is then √⟨q2⟩, i.e. square every value, then average, then take the root.
The average of a quantity ''q'' may be written {{langle}}''q''{{rangle}}. The root mean square is
then √{{langle}}''q''<sup>2</sup>{{rangle}}, i.e. square every value, then average, then take the root.
See also
lemba