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Chapter 44: Q20P (page 1364)

There are baryons with spin .Their symbols and quantum numbers for charge and strangeness are as follows:

q S
q S
$鈭�^{-}$ -1 0 ${鈭�}_{}^{* 0}$
0 -1
$鈭�^{0}$ 0 0 ${鈭�}_{}^{* +}$ +1 -1
$鈭�^{+}$
+1 0 $鈮�^{* 0}$ -1 -2
$鈭�^{+ +}$ +2 0 $鈮�^{* 0}$ 0 -2
${鈭�}_{}^{* -}$ -1 -1 $惟^{-}$ -1 -3
Make a charge鈥搒trangeness plot for these baryons, using the sloping coordinate system of Fig. 44-3. Compare your plot with this figure.

Short Answer

Expert verified

The plot is as follows

The plot is in the shape of a triangle instead of an octagon and is called the ten-fold way.

Step by step solution

01

Given data

The charge and strangeness of all the spin $\frac{3}{2}$ baryons are provided

02

Determine the charge-strangeness plot

The charge-strangeness plots of the spin $\frac{1}{2}$ baryons and the spin $0$ mesons are as follows:

Figure 1

Figure 2

03

Determine the charge-strangeness plot of spin 32 baryons

Figure 2. In this case there will be four strangeness axes instead of three with values The charge-strangeness plot of spin $\frac{3}{2}$ baryons can be drawn following Figure 1 and $0, - 1, - 2, - 3$ and $- 1, 0, 1, 2$ also four charge axes with values . The resulting plot is as follows:

This is in the shape of a triangle instead of an octagon and is called the ten-fold way.

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Most popular questions from this chapter

Suppose that the matter (stars, gas, dust) of a particular galaxy, of total mass $M$ , is distributed uniformly throughout a sphere of radius.A star of mass $R$ is revolving about the center of the galaxy in a circular orbit of radius. $r < R$

(a) Show that the orbital speed $v$ of the star is given by

$v = r \sqrt{\frac{G M}{r^{3}}}$

And therefore that the star鈥檚 period $T$ of revolution is

$T = 2 蟺 \sqrt{\frac{R^{3}}{G M}}$

Independentof. $r$ Ignore any resistive forces.

(b) Next suppose that the galaxy鈥檚 mass is concentrated near the galactic center, within a sphere of radius less than . What expression then gives the star鈥檚 orbital period?

Show that if, instead of plotting strangenessS versus chargeq for the spin $- \frac{1}{2}$ baryons in Fig. 44-3a and the spin-zero mesons in Fig.44-3b , we plot the quantity $Y = B + S$ versus the quantity $T_{z} = q - \frac{1}{2} (B + S)$ , we get the hexagonal patterns without using sloping axes. (The quantityY is called hypercharge, and $T_{z}$ is related to a quantity called isospin.)

Question: An electron cannot decay into two neutrinos. Which of the following conservation laws would be violated if it did: (a) energy, (b) angular momentum, (c) charge, (d) lepton number, (e) linear momentum, (f) baryon number?

Question: An electron jumps from n =3 to n = 2 in a hydrogen atom in a distant galaxy, emitting light. If we detect that light at a wavelength of 3.00 mm, by what multiplication factor has the wavelength, and thus the universe, expanded since the light was emitted?

Will the universe continue to expand forever? To attack this question, assume that the theory of dark energy is in error and that the recessional speed $v$ of a galaxy a distance $r$ from us is determined only by the gravitational interaction of the matter that lies inside a sphere of radius $r$ centered on us. If the total mass inside this sphere in $M$ ,the escape speed $v_{e}$ from the sphere is $v_{e} = \sqrt{2 G M / r}$ (Eq.13.28).(a) Show that to prevent unlimited expansion, the average density inside the sphere must be at least equal to

. $蚁 = \frac{3 H^{2}}{8 蟺 G}$

(b) Evaluate this 鈥渃ritical density鈥� numerically; express your answer in terms of hydrogen atoms per cubic meter. Measurements of the actual density are difficult and are complicated by the presence of dark matter

See all solutions

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