User:John R. Brews/Coriolis force: Difference between revisions

Latest revision as of 04:07, 22 November 2023

The account of this former contributor was not re-activated after the server upgrade of March 2022.

Quarks

The quarks that may engage one another in reactions are determined by the Cabbibo-Kobayashi-Maskawa matrix:Morii

{\begin{pmatrix}d'\\s'\\b'\\\end{pmatrix}}={\begin{pmatrix}U_{ud}&U_{us}&U_{ub}\\U_{cd}&U_{cs}&U_{cb}\\U_{td}&U_{ts}&U_{tb}\\\end{pmatrix}}={\begin{pmatrix}d\\s\\b\\\end{pmatrix}}

The quarks can be arranged to exhibit right- and left-handedness, subscripts L and R, to resemble the leptons. The right-handed quarks do not couple to the weak interaction, and are labeled with subscript R. The left-handed quarks corresponding to these right-handed quarks are mixtures of quarks. Thus, the up and down quarks are assembled as:

{\tbinom {u}{d}}_{L}\ ;\ \ u_{R},\ d_{R}\ .

The other generations are arranged similarly:

{\tbinom {c}{s}}_{L}\ ;\ \ c_{R},\ s_{R}\ ,

{\tbinom {t}{b}}_{L}\ ;\ \ t_{R},\ b_{R}\ .

**Right- and left-handed quarks**
Symbol	Electric charge, Q	Weak isospin, (I_W, I_W3)	Weak hypercharge, (Y_W)
u_L, c_L, t_L	+2/3	(1/2, +1/2)	+1/3
d_L, s_L, b_L	−1/3	(1/2, −1/2)	+1/3
u_R, c_R, t_R	+2/3	0	+4/3
d_R, s_R, b_R	−1/3	0	−2/3

@@ Line 1: / Line 1: @@
-{{TOC|right}}
+{{AccountNotLive}}
-The '''Coriolis force''' is a force experienced by a object traversing a path in a rotating framework that is proportional to its speed and also to the sine of the angle between its direction of movement and its axis of rotation. It is one of three such ''inertial forces'' that appear in an accelerating frame of reference due to the acceleration of the frame, the other two being the [[centrifugal force]] and the [[Euler force]]. The mathematical expression for the Coriolis force appeared in an 1835 paper by a French scientist [[Gaspard-Gustave Coriolis]] in connection with the theory of water wheels, and also in the [[Theory of tides|tidal equations]] of [[Pierre-Simon Laplace]] in 1778.
+===Quarks===
-Although sometimes referred to as an ''apparent'' force, it can have very real effects.
+The quarks that may engage one another in reactions are determined by the [[Cabbibo-Kobayashi-Maskawa matrix]]:[http://books.google.com/books?id=f89yg8a1t-EC&pg=PA23&dq=Cabibbo+angle&hl=en&ei=XYZvToTqN7PZiAKM55juBg&sa=X&oi=book_result&ct=result&resnum=2&ved=0CDIQ6AEwATgK#v=onepage&q=Cabibbo%20angle&f=false Morii]
+:<math>\begin{pmatrix}
+d'\\
+s'\\
+b'\\
+\end{pmatrix} = \begin{pmatrix}
+U_{ud}&U_{us}&U_{ub}\\
+U_{cd}&U_{cs}&U_{cb}\\
+U_{td}&U_{ts}&U_{tb}\\
+\end{pmatrix}=\begin{pmatrix}
+d\\
+s\\
+b\\
+\end{pmatrix} </math>
+The quarks can be arranged to exhibit right- and left-handedness, subscripts ''L'' and ''R'', to resemble the leptons. The right-handed quarks do not couple to the weak interaction, and are labeled with subscript ''R''. The left-handed quarks corresponding to these right-handed quarks are mixtures of quarks. Thus, the up and down quarks are assembled as:
-==References==
+:<math> \tbinom {u}{d}_L \ ; \ \ u_R,\ d_R \ .</math>
-<references/>
+The other generations are arranged similarly:
+:<math> \tbinom {c}{s}_L \ ; \ \ c_R,\ s_R \ , </math>
+:<math> \tbinom {t}{b}_L \ ; \ \ t_R,\ b_R \ . </math>
+{| class="wikitable" style="margin: 0 auto; text-align:center"
+|+'''Right- and left-handed quarks'''
+! Symbol
+! Electric charge, ''Q''
+! Weak isospin, (''I<sub>W</sub>, I<sub>W3</sub>'')
+! Weak hypercharge, (''Y<sub>W</sub>'')
+|-
+| ''u<sub>L</sub>, c<sub>L</sub>, t<sub>L</sub>''
+| +2/3
+| (1/2, +1/2)
+| +1/3
+|-
+| ''d<sub>L</sub>, s<sub>L</sub>, b<sub>L</sub>''
+| −1/3
+| (1/2, −1/2)
+| +1/3
+|-
+| ''u<sub>R</sub>, c<sub>R</sub>, t<sub>R</sub>''
+| +2/3
+| 0
+| +4/3
+|-
+| ''d<sub>R</sub>, s<sub>R</sub>, b<sub>R</sub>''
+| −1/3
+| 0
+| −2/3
+|-
+|}
+{{Reflist}}

User:John R. Brews/Coriolis force: Difference between revisions

Latest revision as of 04:07, 22 November 2023

Quarks

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