Radiation Concepts - Atomic Structure (8/30/23)

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What does Å stand for?

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QUIZ on 9/5/23; TEST on 9/7/23

95 Terms

1

What does Å stand for?

Ångstrom

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2

Define Angstrom

The subatomic unit of distance equal to 10^-10 meters, used to measure wavelength

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3

Define matter

Has form or shape and occupies space (all physical objects are made of matter)

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4

Define substance

A material with a definite and constant composition

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5

Define element

A simple substance which cannot be broken down into any simpler substance by ordinary means

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6

Define compound

A complex substance made of two or more elements that are chemically united in definite proportions

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7

Define atom

Smallest particle of an element that still possesses chemical properties of that element

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8

How do you find the atomic number?

Determined by the number of protons in an atom (unique to each element)

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9

What is another term for atomic number?

Z number

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10

Define proton

Positively charged particle found in the nucleus of an atom (determines the atomic number)

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11

Define neutron

Subatomic particle found in the nucleus of an atom; has no charge (is considered neutral)

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12

Define nucleon

A nuclear particle (includes protons and neutrons)

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13

What does A stand for?

Atomic mass

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14

Define atomic mass

Amount of matter in an object (generally considered the same as weight)

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15

Define weight

force that object exerts under influence of gravity

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16

How do you find atomic mass?

The total number of nucleons in an atom (protons + neutrons)

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17

Define electron

A negatively charged subatomic particle that orbits the nucleus and has essentially no weight

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18

Define covalent bond

Occurs when two atoms share their unpaired electrons (the most common form of bonding)

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19

Do covalent bonds form a strong or weak bond?

Weak

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20

Define ionic bond

Atoms with opposite charges are attracted and pulled together; atoms exchange electrons to become stable

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21

Do ionic bonds form a strong or weak bond?

Strong

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22

Define ionization

The process of adding or removing an electron from an atom

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23

What is the periodic table?

A table of elements listed in order of their atomic (or Z) number; elements in the same column have similar chemical properties

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24

Define radiation

Energy that is emitted and transferred through space/matter

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25

Define isotope

Atoms of an element that have the same number of protons but a different number of neutrons (makes the atom unstable which results in radioactivity)

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26

Define radionuclide

Any atom that is radioactive (unstable)

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27

Define radioisotope

any atom which is radioactive because it has too few or too many neutrons

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28

Define radioactive decay

the loss of any mass or energy from the nucleus of an atom (radioactive element gives off excess energy to regain stability)

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29

Define half-life

the length of time it takes for decay to half intensity

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30

Define electron binding energy

the amount of energy needed to remove the electron from the atom

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31

Define frequency

the number of waves passing a particular point in a given time

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32

Define photon

a small bundle of energy (amount of energy depends on the frequency)

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33

Define valence

the number and configuration of the electrons in the outer shell

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34

Define the octet rule

the number of electrons in the outer shell of an atom never exceeds 8 electrons

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35

What happens when there are exactly 8 electrons in the outer shell?

atom is considered inert and chemically stable

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36

What is the K shell?

the orbital shell closest to the nucleus

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37

What does dual nature (Wave Particle Duality) of X-rays mean?

X-rays travel in waves but behave as a particle when interacting with matter

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38

What is an X-ray photon?

a bundle of energy present when an X-ray is behaving as a particle

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39

What is the speed of light?

186,400 miles per second in a vacuum

3 x 10^8 meters per second in a vacuum

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40

What is the wavelength of X-rays?

0.1 - 0.5 Å

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41

Define energy

the ability to do work

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42

What are the two types of mechanical energy?

potential and kinetic

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43

Define kinetic energy

energy of motion (wind and/or water)

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44

Define potential energy

energy of position

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45

Define chemical energy

energy resulting form a chemical reaction

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46

Define electrical energy

energy that is emitted and transferred through matter; movements of electrons

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47

Define thermal energy

energy resulting from movement of atoms or molecules

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48

Define nuclear energy

energy resulting from the nucleus of an atom

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49

Define electromagnetic energy

energy that is emitted and transferred through matter

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50

What is a complex substance called?

compound

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51

What is a simple substance called?

element

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52

What is the simplest form of a compound?

molecule

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53

What is the simplest form of an element?

atom

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54

Define mixture

2+ substances stirred together but not chemically bound

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55

Define molecule

the smallest unit of a chemical compound

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56

In radiology, interactions occur at the atomic level within ___, ___, and ___

the X-ray tube, the human body, and the image receptor (IR)

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57

What does the Bohr model depict?

a mini solar system with electrons orbiting the nucleus in many planes

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58

What does the Quantum Mechanics model depict?

atom is mostly space; 7 electron energy levels, orbital shells, orbits not concentric

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59

Neutrons and protons are approximately ___ times the size of an electron

2,000

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60

A stable atom has the same number of ___ and ___

protons and electrons

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61

There are ___ naturally occurring elements and ___ lab-created elements

92 naturally occurring

18 lab-created

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62

What are the elements that are important to radiography?

Hydrogen, Helium, Carbon, Oxygen, Aluminum, Calcium, Iodine, Barium, Tungsten, Rhenium, and Lead

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63

What does amu stand for?

atomic mass units

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64

If an atom gains or loses a neutron, it becomes a(n) ___

isotope

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65

Define electron binding energy

the amount of energy needed to remove the electron from the atom

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66

What is electron binding energy measured in?

electron volts = eV

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67

Electron orbital shells are labeled starting with ___ and ending with ___

starting with K and ending with Q

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68

The closer to the nucleus, the binding energy is ___ (greater or weaker)

greater

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69

Binding energy ___ (gets weaker or gets stronger) as you get farther from the nucleus

gets weaker

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70

Binding energy increases as the number of ___ and ___ increase in an atom

electrons and protons (high atomic number elements are bound more tightly than low atomic number elements)

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71

What is the equation for determining the maximum number of electrons that can occupy each electron shell?

2 n^2

where n is the shell number

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72

In the 3rd electron shell (M), what is the maximum number of electrons that can occupy the shell?

2 n^2

2 (3^2)

2 (9)

18 electrons

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73

Define ion

any electrically charged particle

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74

Atom with an extra e- is ___

negative

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75

Atom that loses an e- is ___

positive

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76

What is the result of ionization?

free e- that is available to move on to interact with another atom

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77

Describe the Law of Conservation of Energy

matter and energy cannot be created nor destroyed, but can be converted

e=mc^2

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78

What is a Joule?

unit of energy

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79

From low frequency to high frequency, list the electromagnetic spectrum

Radio → Microwave → Infrared → Visible(ROYGBIV) → Ultraviolet → X-ray → Gamma Ray

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80

Electromagnetic energy is equal to the ___

speed of light

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81

What is the wave theory?

electromagnetic waves travel in a sine wave

  • wavelength (λ)

    • distance of one full wave (X-ray is 0.1-0.5 Å)

  • amplitude

    • height of a wave (above the x-axis)

  • frequency

    • the number of waves passing a specific point in a given time

  • period

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82

Any electrically charged particle that is moving generates a ___ magnetic field

perpendicular

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83

A magnetic field forms at a 90-degree angle to a(n) ___

electrical current

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84

Average radio waves are about ___, whereas microwaves are about ___

radio waves: 1 mile long

microwaves: 1 cm long

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85

Are X-rays bigger or smaller than an atom?

smaller

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86

If frequency goes up, wavelength goes ___

down

(they are inversely/indirectly proportional)

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87

What is the wave equation?

v = f λ

velocity = frequency x wavelength

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88

What is Plank’s Formula?

E = hf

(photon energy) = (Planck’s constant) x (photon frequency)

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89

Photon frequency is measured in ___

Hz

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90

When photon energy goes up, frequency goes ___

up

(they are directly proportional)

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91

Describe Alpha particles

  • 2 protons bound to 2 neutrons

  • do not travel far

  • cannot penetrate most objects

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92

Define Beta particles

  • electron emitted from unstable nucleus

  • large range

    • may ionize many atoms along its path

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93

What date did Wilhelm Conrad Roentgen come up with the 12 properties of X-rays?

November 8, 1895

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94

How many of Roentgen’s properties have been proven false?

none

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95

What are the 12 properties of X-rays? (must know at least 4)

  • highly penetrating, invisible rays which are a form of electromagnetic radiation

  • are electrically neutral and not affected by electric or magnetic fields

  • can be produced over a wide variety of energies and wavelengths (polyenergetic/heterogenous)

  • release a small amount of heat when passing through matter

  • travel in straight lines

  • travel at the speed of light

  • can ionize matter

  • cause fluorescence (emission of light) of certain crystals

  • cannot be focused by a lens

  • affects photographic film

  • produces chemical and biological changes in matter through ionization and excitation

  • produces secondary and scatter radiation

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