33.5 Quarks: is that all there is? (Page 2/20)

Page 2 / 20

How does it work?

To understand how these quark substructures work, let us specifically examine the proton, neutron, and the two pions pictured in [link] before moving on to more general considerations. First, the proton p is composed of the three quarks uud , so that its total charge is $+ (\frac{2}{3}) q_{e} + (\frac{2}{3}) q_{e} - (\frac{1}{3}) q_{e} = q_{e}$ , as expected. With the spins aligned as in the figure, the proton's intrinsic spin is $+ (\frac{1}{2}) + (\frac{1}{2}) - (\frac{1}{2}) = (\frac{1}{2})$ , also as expected. Note that the spins of the up quarks are aligned, so that they would be in the same state except that they have different colors (another quantum number to be elaborated upon a little later). Quarks obey the Pauli exclusion principle. Similar comments apply to the neutron n , which is composed of the three quarks udd . Note also that the neutron is made of charges that add to zero but move internally, producing its well-known magnetic moment. When the neutron $β^{-}$ decays, it does so by changing the flavor of one of its quarks. Writing neutron $β^{-}$ decay in terms of quarks,

n \to p + β^{-} + {\bar{v}}_{e} becomes udd \to uud + β^{-} + {\bar{v}}_{e} .

We see that this is equivalent to a down quark changing flavor to become an up quark:

d \to u + β^{-} + {\bar{v}}_{e}

Quarks and antiquarks The lower of the $\pm$ symbols are the values for antiquarks.
Name	Symbol	Antiparticle	Spin	Charge	$B$ $B$ is baryon number, S is strangeness, $c$ is charm, $b$ is bottomness, $t$ is topness.	$S$	$c$	$b$	$t$	Mass $(GeV / c^{2})$ Values are approximate, are not directly observable, and vary with model.
Up	$u$	$\bar{u}$	1/2	$\pm \frac{2}{3} q_{e}$	$\pm \frac{1}{3}$	0	0	0	0	0.005
Down	$d$	$\bar{d}$	1/2	$\mp \frac{1}{3} q_{e}$	$\pm \frac{1}{3}$	0	0	0	0	0.008

Strange	$s$	$\bar{s}$	1/2	$\mp \frac{1}{3} q_{e}$	$\pm \frac{1}{3}$	$\mp 1$	0	0	0	0.50
Charmed	$c$	$\bar{c}$	1/2	$\pm \frac{2}{3} q_{e}$	$\pm \frac{1}{3}$	0	$\pm 1$	0	0	1.6

Bottom	$b$	$\bar{b}$	1/2	$\mp \frac{1}{3} q_{e}$	$\pm \frac{1}{3}$	0	0	$\mp 1$	0	5
Top	$t$	$\bar{t}$	1/2	$\pm \frac{2}{3} q_{e}$	$\pm \frac{1}{3}$	0	0	0	$\pm 1$	173

Quark composition of selected hadrons These two mesons are different mixtures, but each is its own antiparticle, as indicated by its quark composition.
Particle	Quark Composition
Mesons
$π^{+}$	$u \bar{d}$
$π^{-}$	$\bar{u} d$
$π^{0}$	$u \bar{u}$ , $d \bar{d}$ mixture These two mesons are different mixtures, but each is its own antiparticle, as indicated by its quark composition.
$η^{0}$	$u \bar{u}$ , $d \bar{d}$ mixture These two mesons are different mixtures, but each is its own antiparticle, as indicated by its quark composition.
$K^{0}$	$d \bar{s}$
${\bar{K}}^{0}$	$\bar{d} s$
$K^{+}$	$u \bar{s}$
$K^{-}$	$\bar{u} s$
$J / ψ$	$c \bar{c}$
$ϒ$	$b \bar{b}$
Baryons Antibaryons have the antiquarks of their counterparts. The antiproton $\bar{p}$ is $\bar{u} \bar{u} \bar{d}$ , for example. , Baryons composed of the same quarks are different states of the same particle. For example, the $Δ^{+}$ is an excited state of the proton.
$p$	$uud$
$n$	$udd$
$Δ^{0}$	$udd$
$Δ^{+}$	$uud$
$Δ^{-}$	$ddd$
$Δ^{++}$	$uuu$
$Λ^{0}$	$uds$
$Σ^{0}$	$uds$
$Σ^{+}$	$uus$
$Σ^{-}$	$dds$
$Ξ^{0}$	$uss$
$Ξ^{-}$	$dss$
$Ω^{-}$	$sss$

This is an example of the general fact that the weak nuclear force can change the flavor of a quark . By general, we mean that any quark can be converted to any other (change flavor) by the weak nuclear force. Not only can we get $d \to u$ , we can also get $u \to d$ . Furthermore, the strange quark can be changed by the weak force, too, making $s \to u$ and $s \to d$ possible. This explains the violation of the conservation of strangeness by the weak force noted in the preceding section. Another general fact is that the strong nuclear force cannot change the flavor of a quark.

Again, from [link] , we see that the $π^{+}$ meson (one of the three pions) is composed of an up quark plus an antidown quark, or $u \bar{d}$ . Its total charge is thus $+ (\frac{2}{3}) q_{e} + (\frac{1}{3}) q_{e} = q_{e}$ , as expected. Its baryon number is 0, since it has a quark and an antiquark with baryon numbers $+ (\frac{1}{3}) - (\frac{1}{3}) = 0$ . The $π^{+}$ half-life is relatively long since, although it is composed of matter and antimatter, the quarks are different flavors and the weak force should cause the decay by changing the flavor of one into that of the other. The spins of the $u$ and $\bar{d}$ quarks are antiparallel, enabling the pion to have spin zero, as observed experimentally. Finally, the $π^{-}$ meson shown in [link] is the antiparticle of the $π^{+}$ meson, and it is composed of the corresponding quark antiparticles. That is, the $π^{+}$ meson is $u \bar{d}$ , while the $π^{-}$ meson is $\bar{u} d$ . These two pions annihilate each other quickly, because their constituent quarks are each other's antiparticles.

Questions & Answers

Discuss the differences between taste and flavor, including how other sensory inputs contribute to our perception of flavor.

John Reply

taste refers to your understanding of the flavor . while flavor one The other hand is refers to sort of just a blend things.

Faith

While taste primarily relies on our taste buds, flavor involves a complex interplay between taste and aroma

Kamara

which drugs can we use for ulcers

Ummi Reply

omeprazole

Kamara

what

Renee

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Renee

is a drug

Kamara

of anti-ulcer

Kamara

Omeprazole Cimetidine / Tagament For the complicated once ulcer - kit

Patrick

what is the function of lymphatic system

Nency Reply

Not really sure

Eli

to drain extracellular fluid all over the body.

asegid

The lymphatic system plays several crucial roles in the human body, functioning as a key component of the immune system and contributing to the maintenance of fluid balance. Its main functions include: 1. Immune Response: The lymphatic system produces and transports lymphocytes, which are a type of

asegid

to transport fluids fats proteins and lymphocytes to the blood stream as lymph

Adama

what is anatomy

Oyindarmola Reply

Anatomy is the identification and description of the structures of living things

Kamara

what's the difference between anatomy and physiology

Oyerinde Reply

Anatomy is the study of the structure of the body, while physiology is the study of the function of the body. Anatomy looks at the body's organs and systems, while physiology looks at how those organs and systems work together to keep the body functioning.

AI-Robot

what is enzymes all about?

Mohammed Reply

Enzymes are proteins that help speed up chemical reactions in our bodies. Enzymes are essential for digestion, liver function and much more. Too much or too little of a certain enzyme can cause health problems

Kamara

yes

Prince

how does the stomach protect itself from the damaging effects of HCl

Wulku Reply

little girl okay how does the stomach protect itself from the damaging effect of HCL

Wulku

it is because of the enzyme that the stomach produce that help the stomach from the damaging effect of HCL

Kamara

function of digestive system

Ali Reply

function of digestive

Ali

the diagram of the lungs

Adaeze Reply

what is the normal body temperature

Diya Reply

37 degrees selcius

Xolo

37°c

Stephanie

please why 37 degree selcius normal temperature

Mark

36.5

Simon

37°c

Iyogho

the normal temperature is 37°c or 98.6 °Fahrenheit is important for maintaining the homeostasis in the body the body regular this temperature through the process called thermoregulation which involves brain skin muscle and other organ working together to maintain stable internal temperature

Stephanie

37A c

Wulku

what is anaemia

Diya Reply

anaemia is the decrease in RBC count hemoglobin count and PVC count

Eniola

what is the pH of the vagina

Diya Reply

how does Lysin attack pathogens

Diya

acid

Mary

I information on anatomy position and digestive system and there enzyme

Elisha Reply

anatomy of the female external genitalia

Muhammad Reply

Organ Systems Of The Human Body (Continued) Organ Systems Of The Human Body (Continued)

Theophilus Reply

what's lochia albra

Kizito

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Source: OpenStax, College physics for ap® courses. OpenStax CNX. Nov 04, 2016 Download for free at https://legacy.cnx.org/content/col11844/1.14

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