Basic Concept of Radiation Part 2

Question 1

From longest to shortest wavelength, identify all the types of electromagnetic radiation.

Answer 1

1. Radio waves
2. Microwaves
3. Infrared
4. Visible Light
5. Ultraviolet light
6. X-rays
7. Gamma rays

Question 2

It is the range of wavelengths or frequencies over which electromagnetic radiation extends.

Answer 2

Electromagnetic Spectrum

Question 3

This type of EM radiation have the longest wavelength in the EM spectrum.

Answer 3

Radio waves

Question 4

This type of EM radiation carry signals for television and cellular phones.

Answer 4

Radio waves

Question 5

Type of EM radiation which is closer to a foot in length, and are the waves which heat our food in a microwave oven.

Answer 5

Longer microwaves

Question 6

Type of EM radiation that are used in remote sensing.

Answer 6

Shorter microwaves

Question 7

Type of EM radiation which are used for radar, like the doppler radar used in weather forecast.

Answer 7

Shorter microwaves

Question 8

A type of radar used in weather forecast.

Answer 8

Doppler radar

Question 9

Also known as IR

Answer 9

Infrared

Question 10

Type of EM radiation that lies between the visible and microwave portions of the EM spectrum.

Answer 10

Infrared

Question 11

How did Infrared get its name?

Answer 11

Because the wavelength of infrared rays is just a bit longer than that of red rays

Question 12

What is the primary source of infrared radiation?

Answer 12

Heat or thermal radiation

Question 13

This is the radiation produced by the motion of atoms and molecules in an object

Answer 13

Heat or thermal radiation

Question 14

This type of EM radiation is essentially just heat radiation.

Answer 14

Infrared

Question 15

What are the 3 categories of infrared?

Answer 15

near, mid, and far-infrared

Question 16

This refers tot the part of the infrared spectrum that is closest to visible light.

Answer 16

Near-infrared

Question 17

This refers to the part of the infrared spectrum that is closer to the microwave region.

Answer 17

Far-infrared

Question 18

Region between near-infrared and far-infrared

Answer 18

Mid-infrared

Question 19

Type of EM radiation which are the only EM waves visible to human eyes

Answer 19

Visible light

Question 20

This has the longest wavelength from the visible light spectrum.

Answer 20

Red (625-740 nm)

Question 21

This has the shortest wavelength from the visible light spectrum.

Answer 21

Violet (380-425 nm)

Question 22

This is seen as the colors of the rainbow.

Answer 22

Visible light

Question 23

What happens if all the waves in the visible light spectrum are seen together?

Answer 23

They make white light

Question 24

What happens if a white light shines through a prism?

Answer 24

The white light is broken apart into the colors of the visible light spectrum

Question 25

This is a source of the full spectrum of ultraviolet spectrum.

Answer 25

Sun

Question 26

These are most damaging and harmful and are almost completely absorbed by our atmosphere

Answer 26

UV-C Rays

Question 27

These are harmful rays that cause sunburn and darkening of skin

Answer 27

UV-B rays

Question 28

Exposure to UV-B rays increases what?

Answer 28

DNA and other cellular damage in living

Question 29

These are UV rays that reaches the lens and retina, and can cause cataract and retinal diseases.

Answer 29

UV-A rays

Question 30

What are the three regions of UV?

Answer 30

1. Near ultraviolet (NUV)
2. Far ultraviolet (FUV)
3. Extreme ultraviolet (EUV)

Question 31

This is the light closest to optical or visible light

Answer 31

NUV (near ultraviolet)

Question 32

This UV light is closest to X-rays

Answer 32

EUV (extreme ultraviolet)

Question 33

UV rays between the NUV and EUV

Answer 33

FUV (far ultraviolet)

Question 34

Type of EM radiation that have higher wavelengths and higher in energy than UV rays

Answer 34

X-rays

Question 35

These were first observed and documented in 1895 by Wilhelm Conrad Roentgen

Answer 35

X-rays

Question 36

They have the smallest wavelengths and the most energy of any other wave in the EM spectrum

Answer 36

Gamma rays

Question 37

these waves are generated by radioactive atoms and in nuclear explosions

Answer 37

Gamma rays

Question 38

These can kill living cells, a fact which medicine uses to its advantage wherein the use of gamma rays occur to kill cancerous cells

Answer 38

Gamma rays

Question 39

A stream of atomic or subatomic particles that may be charged positively (alpha particles) or negatively (beta particles) or not at all (neutrons)

Answer 39

Particulate Radiation

Question 40

Atomic or subatomic particles (electrons protons, etc.) which carry energy in the form of kinetic energy or mass in motion

Answer 40

Particulate Radiation

Question 41

This involves tiny fast-moving particles that have both energy and mass

Answer 41

Particulate Radiation

Question 42

This is primarily produced by disintegration of an unstable atom

Answer 42

Particulate Radiation

Question 43

Particulate radiation is also known as?

Answer 43

Corpuscular radiation

Question 44

Type of ionizing radiation ejected by the nuclei of some unstable atoms

Answer 44

Alpha particle

Question 45

This is relatively heavy, high-energy subatomic particle consisting of two protons and two neutrons

Answer 45

Alpha particle

Question 46

Alpha particle is identical to what?

Answer 46

Helium nucleus

Question 47

Who discovered alpha particles?

Answer 47

Ernest Rutherford

Question 48

When and how was the discovery of the alpha particle occurred?

Answer 48

1899, Ernest Rutherford (English Scientist) discovered alpha particles while working with Uranium

Question 49

What is the velocity in air of alpha particles?

Answer 49

Approximately one-twentieth the speed of light

Question 50

Identify the 6 positive alpha emitters (skip this flashcard i dont think important sya pero just in case)

Answer 50

• Polonium-210
• Radium-226
• Thorium-230
• Uranium-234, 235, 238
• Plutonium-239
• Americium-241

Question 51

Alpha emitter that can be used to treat cancer by inserting tiny amounts of it into tumorous mass

Answer 51

Radium-226

Question 52

Alpha emitter that serves as a static eliminator in paper mills and other industries

Answer 52

Polonium-210

Question 53

Some smoke detectors use the alpha emissions from which alpha emitter?

Answer 53

Americium-241

Question 54

These atoms tend to be very large atoms.

Answer 54

Alpha emitting atoms

Question 55

These are high-velocity electrons with an electrical charge of -1

Answer 55

Beta particles

Question 56

This means high speed

Answer 56

Beta

Question 57

Mass of beta particles:

Answer 57

549 millionths of one amu (1/2000 of the mass of a proton/neutron)

Question 58

He is credited with the discovery of beta particles

Answer 58

Henri Becquerel

Question 59

When did Henri Becquerel showed that beta particles were identical to electrons?

Answer 59

1900

Question 60

Speed of beta particles depends on what?

Answer 60

How much energy they have

Question 61

In the form of speed, this causes harm to living cells

Answer 61

Excess energy of beta particles

Question 62

When transferred, this energy can break chemical bonds and form ions

Answer 62

Beta particles

Question 63

A type of beta emitter used for treatment of thyroid disorders, such as cancer and graves disease (type of hyperthyroidism)

Answer 63

Iodine-131

Question 64

This is a type of hyperthyroidism

Answer 64

Graves disease

Question 65

A beta emitter which is a radioactive tracer in medical and agricultural studies

Answer 65

Strontium-90

Question 66

A beta emitter used for life science and drug metabolism studies to ensure the safety of potential new drugs

Answer 66

Tritium

Question 67

This is able to penetrate tissues and organs of the human body when the radiation source is outside the body

Answer 67

Neutron radiation

Question 68

This can be hazardous if neutron-emitting nuclear substances are deposited inside the body

Answer 68

Neutron radiation

Question 69

These are high-speed nuclear particles that have an exceptional ability to penetrate other materials

Answer 69

Neutrons

Question 70

Half life of a free neutron

Answer 70

15 minutes

Question 71

Neutrons decay by means of:

Answer 71

Beta decay, to a proton, and an antineutrino

Question 72

Type of neutron that has energies below thermal energies typically corresponding to meV and sub meV (0-0.025 eV)

Answer 72

Cold neutrons

Question 73

Type of neutron colliding with atomic nuclei that either picks up energy if they are moving slower than the colliding nucleus, or lose energy if they are moving faster

Answer 73

Thermal neutrons

Question 74

Type of neutron that generally have energies between 100’s of eV to 0.5 or 1 MeV

Answer 74

Slow neutrons

Question 75

Type of neutron that is generally between 0.5 and 10-20 MeV

Answer 75

Fast neutrons

Question 76

Type of neutron which are energies of neutrons emitted by fission sources

Answer 76

Fast neutrons

Question 77

Type of neutron that has above 20 MeV

Answer 77

High energy neutrons

Question 78

Where does neutron radiation primarily occurs?

Answer 78

Inside a nuclear reactor

Question 79

Positron is also known as?

Answer 79

Antielectron

Question 80

This is the antiparticle or the antimatter counterpart of the electron

Answer 80

Positron

Question 81

What is the charge of positron?

Answer 81

Electric charge of +1e ; also has the same mass as an electron

Question 82

What happens when a low-energy positron collides with a low-energy electron?

Answer 82

Annihilation occurs

Question 83

This is the production of two or more gamma ray photons

Answer 83

Annihilation

Question 84

First step of discovery of positron was by?

Answer 84

Carl D. Anderson

Question 85

When was Carl D. Anderson awarded the Nobel Prize in Physics?

Answer 85

1936

Question 86

He concluded the existence of a positive particle of electronic mass (positive electron)

Answer 86

Carl D. Anderson

Question 87

Second step of discovery of positron had been suggested by?

Answer 87

Paul Adrien Maurice Dirac

Question 88

What did the second step of discovery of positron entailed?

Answer 88

The production of positive electrons by means of radioactive sources and the identification of Anderson’s particle with the antielectron

Question 89

Types of radiation according to its ionizing ability

Answer 89

1. Ionizing radiation
2. Non-ionizing Radiation

Question 90

This refers to any process by which electrically neutral atoms or molecules are converted to electrically charged atoms or molecules (ions)

Answer 90

Ionization

Question 91

This concept is one of the principal ways that radiation, such as charged particles and X-rays, transfers its energy to matter

Answer 91

Ionization

Question 92

Type of radiation that has enough energy to cause the atoms in a molecule to vibrate but not enough to remove electrons

Answer 92

Non-ionizing radiation

Question 93

5 types of non-ionizing radiation:

Answer 93

1. Ultraviolet radiation (Except EUV)
2. Visible light
3. Infrared radiation
4. Microwaves
5. Radio waves

Question 94

Type of radiation that has extremely low-frequency radiation, has very long wavelengths, and its frequencies range from 100 Hz or less

Answer 94

Non-ionizing radiation

Question 95

Type of radiation carried by any of several types of particles (particulate) and rays (EM radiation) given off by radioactive material, X-ray machines, and nuclear reactions

Answer 95

Ionizing radiation

Question 96

Type of radiation that can remove tightly bound electrons from the orbit of an atom, causing the atom to become charged or ionized

Answer 96

Ionizing radiation

Question 97

Ionizing radiation includes:

Answer 97

1. Alpha particles
2. Beta particles
3. X-rays
4. Gamma rays

Question 98

2 types of ionizing radiation:

Answer 98

1. Directly ionizing
2. Indirectly ionizing

Question 99

Type of ionizing radiation that include charged particles (electrons, positrons, protons, alpha particles, heavy ions) with sufficient energy to ionize atoms or molecules

Answer 99

Directly ionizing

Question 100

Type of ionizing radiation that when charged particles pass through materials, they ionize atoms

Answer 100

Directly ionizing

Question 101

type of ionizing radiation that involves a larger energy transfer event from the primary charged particle to an electron of the medium

Answer 101

Directly ionizing

Question 102

Type of ionizing radiation that may result in the production of a relatively energetic secondary electron, often referred to as a delta ray, which itself will go on to produce multiple ionization events

Answer 102

Directly ionizing

Question 103

Type of ionizing radiation wherein it is not capable directly of producing the multiple ionization events that characterize the interactions of a charged particle

Answer 103

Indirectly ionizing

Question 104

Type of ionizing radiation which includes uncharged particles such as photons and neutrons

Answer 104

Indirectly ionizing

Question 105

Type of ionizing radiation that tends to deposit its energy at localized range in materials

Answer 105

Directly ionizing radiation

Question 106

Type of ionizing radiation that deposits its energy along its whole path

Answer 106

Indirectly ionizing radiation