8B. forget the small talk, the surface level ain't much that I care for [COMPLETE]

Question 1

What are all particles of matter are made up of?

Answer 1

Made up of either quarks and/or leptons.

Question 2

What are the 1st generation quarks?

Answer 2

Up and down quarks.

Question 3

What are the 2nd generation quarks?

Answer 3

Charm and strange quarks.

Question 4

What are the 3rd generation quarks?

Answer 4

Top and bottom quarks.

Question 5

What are the 1st generation leptons?

Answer 5

Electron and electron neutrino.

Question 6

What are the 2nd generation leptons?

Answer 6

Muon and muon neutrino.

Question 7

What are the 3rd generation leptons?

Answer 7

Tau and tau neutrino.

Question 8

What is the trend in increasing generations?

Answer 8

Increasing mass.

Question 9

What are hadrons made up of?

Answer 9

Quarks.

Question 10

What type of forces do hadrons interact with?

Answer 10

Strong nuclear force.

Question 11

What are the types of hadrons?

Answer 11

Baryons and mesons.

Question 12

What are baryons consisting of?

Answer 12

3 quarks.

Question 13

What are mesons consisting of?

Answer 13

A quark-antiquark pair.

Question 14

What are the most common baryons?

Answer 14

Protons and neutrons.

Question 15

What are the most common mesons?

Answer 15

Pions and kaons.

Question 16

What are quarks discovered in?

Answer 16

Always discovered in pairs or groups of three, never alone.

Question 17

What charges does all baryons and mesons have?

Answer 17

They all have integer charges.

Question 18

What is the combination of quarks in a baryon?

Answer 18

3 quarks of either all quarks or all anti-quarks.

Question 19

What is the difference between the quark content of a meson and its anti-particle?

Answer 19

The quark in the meson becomes its anti-quark in the anti-particle.

Question 20

What are electrons?

Answer 20

Stable leptons.

Question 21

What are muons?

Answer 21

Heavy unstable leptons (eventually decays to an electron).

Question 22

What are taus?

Answer 22

Heaviest least stable lepton.

Question 23

What are antiparticles

Answer 23

Each particle has a corresponding antiparticle with identical mass and opposite charge, baryon and lepton numbers.

Question 24

What is a fundamental particle?

Answer 24

has no internal structure / not made up of other particles

Question 25

What is the last quark to be discovered?

Answer 25

Top

Question 26

What is the lightest quark?

Answer 26

up

Question 27

What is the heaviest quark?

Answer 27

top

Question 28

What are leptons?

Answer 28

They are a group of fundamental (elementary) particles.

Question 29

What are leptons made up of?

Answer 29

They are not made up of anything else.

Question 30

How does leptons interact with other particles?

Answer 30

Via weak, electromagnetic or gravitational interactions. They do not interact via the strong nuclear force.

Question 31

What are the most common leptons?

Answer 31

Electrons, electron neutrinos, muons, and muon neutrinos.

Question 32

What is the difference between a muon and an electron?

Answer 32

Muon is 200x more massive than electrons.

Question 33

What is the mass of an electron?

Answer 33

0.0005u.

Question 34

What is the mass of a muon?

Answer 34

0.11u.

Question 35

What are neutrinos?

Answer 35

They are the most abundant leptons in the universe. They have no charge and negligible mass.

Question 36

What are photons?

Answer 36

They are a group of atoms which mediate the electromagnetic interaction.

Question 37

What charge do photons have?

Answer 37

They have no charge/uncharged.

Question 38

What is the mass of photons?

Answer 38

They have no mass.

Question 39

What are photons sometimes called?

Answer 39

Exchange/gauge bosons.

Question 40

Why are photons sometimes called exchange/gauge bosons?

Answer 40

They mediate one of the fundamental forces (electromagnetism).

Question 41

What is the photon an exchange particle for?

Answer 41

Electromagnetic force.

Question 42

What type of “particle” is a photon?

Answer 42

A boson.

Question 43

What were the first 4 quarks discovered?

Answer 43

The up, down, strange and charm quarks.

Question 44

How was the symmetry of the standard model used?

Answer 44

It was used to predict a third generation of particles.

Question 45

What is neutron decay?

Answer 45

Neutrons are unstable when outside the nucleus so it decays to a proton via beta decay.

Question 46

Why did it take a long time to find experimental evidence for the top quark?

Answer 46

large mass, needs a lot of energy

Question 47

What do all matter particles have?

Answer 47

An antimatter counterpart.

Question 48

What are the similarities between matter particles and antimatter particles?

Answer 48

Almost identical except for one thing.

Question 49

What is the difference between matter particles and antimatter particles?

Answer 49

They have the opposite electric charge of each other.

Question 50

What two things matter particles and their antimatter counterpart have in common?

Answer 50

Identical mass and rest mass energy.

Question 51

What is always conserved when particle interaction equation?

Answer 51

Quantum numbers.

Question 52

What quantum numbers are conserved in particle interaction?

Answer 52

Charge (Q), baryon number (B), and lepton number (L).

Question 53

What has a charge Q = +1 in particle interactions?

Answer 53

Protons and positrons.

Question 54

What has a charge Q = -1 in particle interactions?

Answer 54

Electrons + other leptons.

Question 55

What is the baryon number?

Answer 55

The number of baryons in an interaction.

Question 56

What has a baryon number B = +1 in a particle interaction?

Answer 56

Baryons like protons and neutrons.

Question 57

What has a baryon number B = -1 in a particle interaction?

Answer 57

Anti-baryons.

Question 58

What has a baryon number B = 0 in a particle interaction?

Answer 58

Anything that is not a baryon, e.g. leptons and mesons.

Question 59

What has a baryon number B = +1/3 in a particle interaction?

Answer 59

Quarks.

Question 60

What has a baryon number B = -1/3 in a particle interaction?

Answer 60

Anti-quarks.

Question 61

Why are baryons made up of only all quarks or anti-quarks, not a mixture?

Answer 61

So, the baryon number adds up to an integer. A mixture would not produce an integer baryon number.

Question 62

What are baryons made up of?

Answer 62

Only quarks.

Question 63

What are anti-baryons made up of?

Answer 63

Only anti-quarks.

Question 64

What is the lepton number?

Answer 64

The number of leptons in an interaction.

Question 65

What has a lepton number L = +1 in a particle interaction?

Answer 65

Leptons like electrons and neutrinos.

Question 66

What has a lepton number L = -1 in a particle interaction?

Answer 66

Anti-leptons.

Question 67

What has a lepton number L = 0 in a particle interaction?

Answer 67

Not leptons.

Question 68

What things must be conserved for a possible particle interaction (conservation laws)?

Answer 68

Charge, baryon number, lepton number, energy(or mass-energy) and momentum.

Question 69

What happens if the conservation laws for particle interactions are not met?

Answer 69

The interaction is impossible/cannot occur.

Question 70

What values can Q, B and L numbers can take?

Answer 70

Discrete values.

Question 71

What to do to check if a particle interaction is possible?

Answer 71

Check if each quantum number is equal on both sides of the equation. If one of them is not equal, then the interaction cannot occur.

Question 72

What are the 4 gauge bosons?

Answer 72

Gluons, photons, gravitons, bosons.

Question 73

What is the symbol for photons?

Answer 73

γ

Question 74

What is the symbol for gluons?

Answer 74

g

Question 75

What is the symbol for bosons?

Answer 75

W & Z.

Question 76

What are the 4 fundamental forces?

Answer 76

Gravitational, electromagnetic, weak nuclear and strong nuclear forces.

Question 77

What are the fundamental forces carried by?

Answer 77

Gauge bosons.

Question 78

What particles experience gravitational force?

Answer 78

All particles.

Question 79

What is the range of gravitational force?

Answer 79

Infinite.

Question 80

What gauge boson is gravitational force carried by?

Answer 80

G, gravitons. [hypothetically]

Question 81

How strong is the gravitational force on particles?

Answer 81

Very weak, negligible unless in the context of larger objects like planets and stars.

Question 82

What particles experience weak nuclear force?

Answer 82

All particles.

Question 83

What is the range of weak nuclear force?

Answer 83

Very short, 10-18 m.

Question 84

What gauge boson is weak nuclear force carried by?

Answer 84

W & Z bosons.

Question 85

When is weak nuclear force significant?

Answer 85

When electromagnetic and strong nuclear interactions do not operate.

Question 86

What particles experience electromagnetic force?

Answer 86

All charged particles and neutral hadrons as they are composed of quarks.

Question 87

What is the range of electromagnetic force?

Answer 87

Infinite.

Question 88

What gauge boson is electromagnetic force carried by?

Answer 88

γ, photons.

Question 89

What particles experience strong nuclear force?

Answer 89

Quarks and particles made of quarks.

Question 90

What is the range of strong nuclear force?

Answer 90

Short, 10-15 m.

Question 91

What gauge boson is strong nuclear force carried by?

Answer 91

g, gluons.

Question 92

What is the symbol for an up quark?

Answer 92

u

Question 93

What is the symbol for a down quark?

Answer 93

d

Question 94

What is the symbol for a charm quark?

Answer 94

c

Question 95

What is the symbol for a strange quark?

Answer 95

s

Question 96

What is the symbol for a top quark?

Answer 96

t

Question 97

What is the symbol for a bottom quark?

Answer 97

b

Question 98

What is the symbol for an anti-quark?

Answer 98

Its normal quark symbol with a bar on the top.

Question 99

What does the symbol “u” represent?

Answer 99

A up quark.

Question 100

What does the symbol “d” represent?

Answer 100

A down quark.

Question 101

What does the symbol “c” represent?

Answer 101

A charm quark.

Question 102

What does the symbol “s” represent?

Answer 102

A strange quark.

Question 103

What does the symbol “t” represent?

Answer 103

A top quark.

Question 104

What does the symbol “b” represent?

Answer 104

A bottom quark.

Question 105

What is the charge for an up quark?

Answer 105

+2/3 e

Question 106

What is the charge for a down quark?

Answer 106

-1/3 e

Question 107

What is the charge for a charm quark?

Answer 107

+2/3 e

Question 108

What is the charge for a strange quark?

Answer 108

-1/3 e

Question 109

What is the charge for a top quark?

Answer 109

+2/3 e

Question 110

What is the charge for a bottom quark?

Answer 110

-1/3 e

Question 111

What is the charge for an anti-quark?

Answer 111

Multiply the original quark’s charge by -1.

Question 112

What is the symbol for an electron?

Answer 112

e-

Question 113

What is the symbol for a muon?

Answer 113

μ-

Question 114

What is the symbol for a tau?

Answer 114

τ-

Question 115

What is the symbol for an electron neutrino?

Answer 115

Ve

Question 116

What is the symbol for a muon neutrino?

Answer 116

Vμ

Question 117

What is the symbol for a tau neutrino?

Answer 117

Vτ

Question 118

What is the charge of a lepton?

Answer 118

-1e

Question 119

What is the charge of neutrinos?

Answer 119

No charge.

Question 120

What is the relative charge of an electron?

Answer 120

-1

Question 121

What is the relative charge of a positron?

Answer 121

+1

Question 122

What is the relative charge of a proton?

Answer 122

+1

Question 123

What is the relative charge of an anti-proton?

Answer 123

-1

Question 124

What is the relative charge of a neutron?

Answer 124

0

Question 125

What is the relative charge of an anti-neutron?

Answer 125

0

Question 126

What is the relative charge of a neutrino?

Answer 126

0

Question 127

What is the relative charge of an anti-neutrino?

Answer 127

0

Question 128

What is the symbol for a positron?

Answer 128

e+

Question 129

What is the symbol for a proton?

Answer 129

p

Question 130

What is the symbol for a neutron?

Answer 130

n

Question 131

What does the symbol “e+” represent?

Answer 131

A positron.

Question 132

What does the symbol “p” represent?

Answer 132

A proton.

Question 133

What does the symbol “n” represent?

Answer 133

A neutron.

Question 134

What is the quark content of a proton?

Answer 134

uud

Question 135

What is the quark content of a neutron?

Answer 135

udd

Question 136

What is the quark content of a K+?

Answer 136

u ŝ

Question 137

What is the quark content of a K?

Answer 137

d ŝ

Question 138

What is the quark content of a K-?

Answer 138

s û

Question 139

What is the quark content of a π+?

Answer 139

u antidown

Question 140

What is the quark content of a π?

Answer 140

u û
OR
d antidown

Question 141

What is the quark content of a π-?

Answer 141

d û

Question 142

What is the quark content of a lambda particle?

Answer 142

u d s

Question 143

Why are collisions high energy?

Answer 143

Energy required to overcome electrostatic repulsion. Since particles move fast the energy/momentum must be high, shorter de broglie wavelength.

Question 144

Why are only a low proportion of decays detected?

Answer 144

• emmisions in all directions
• some emitted particles may be absorbed by the material in the sample
• some emitted particles may be absorbed by the window
• some pass through the detector

Question 145

What does firing electrons at a hydrogen target tell us?

Answer 145

• proton is not uniform, it has some empty space since some electrons passed through
• made up of smaller particles called quarks

Question 146

What is the atomic process that produces emission spectra?

Answer 146

electron drops down energy levels and de-excites releasing energy