MT1 - Nature of Radiation - 2 Qs

Question 1

What is radiation?

Answer 1

The production and emission of energy through space or a material medium

Question 2

What are the 2 types of radiation?

Answer 2

1. Particulate (Corpuscular) Radiation

2. Electromagnetic (non-particulate) Radiation

Question 3

What kinds of particles are involved in particulate radiation?

Answer 3

• Protons
• Neutrons
• Electrons
• Alpha particles
• Beta particles

Question 4

What types of energy are involved in elecromagnetic (EM) radiation?

Answer 4

• Radi
• TV
• Radar
• Infrared
• Visible Light
• UV
• Gamma rays
• X-RAYS*

Question 5

How are EM waves grouped/categorized?

Answer 5

According to wavelength in the EM spectrum

Question 6

At what speed to EM waves travel in air?

Answer 6

At the speed of light

Question 7

What is another term for electromagnetic waves?

Answer 7

Electromagnetic Radiation

Question 8

What is the mass and charge of electromagnetic Radiation?

Answer 8

EM waves have no mass and no charge

Question 9

How does wavelength correlate to frequency and energy?

Answer 9

Wavelength is inversely related to frequency and energy, therefore a shorter wavelength actually will have higher energy adn higher frequency (and vice versa)

Question 10

How are x-rays defined?

Answer 10

X-rays are EM radiation with wavelengths shorter than UV but longer than gamma radiation

Question 11

How are x-rays packaged?

Answer 11

As photons, packets, or weightless bundles

Question 12

Are the energies and wavelengths of x-rays variable or constant?

Answer 12

X-rays have variable wavelengths and energies

Question 13

Describe the effect of x-rays on biological molecules

Answer 13

X-rays cause ionization in biological molecules when they interact with the patient’s body.

Question 14

How are x-rays produced?

Answer 14

Highly accelerated electrons are suddenly brought to a stop by hitting a stationary object, thus causing a fraction of the kinetic energy possessed by the high speed electron to be converted to x-rays.

Question 15

Who was the 1st person to describe the structure of an atom?

Answer 15

Neils Bohr

Question 16

What are the 4 parts of an atom?

Answer 16

1. Nucleus
2. Electrons
3. Protons
4. Neutrons

Question 17

What part of the atom makes up over 99% of the mass?

Answer 17

Nucleus

Question 18

What determines the identity of an element?

Answer 18

The number of protons (Z number)

Question 19

What is Z number?

Answer 19

Z number is the atomic number, equivalent to the number of protons, which determines the identity of an element

Question 20

How do Z number and the number of electrons in a neutral atom relate?

Answer 20

Z number will be the same as the number of electrons in a neutral atom

Question 21

What is the A number?

Answer 21

A number is the atomic mass which is equal to the number of protons plus the number of neutrons

Question 22

What is the symbol designation for an element’s Z and A numbers?

Answer 22

Z number is written as subscript and A number is written as superscript

Question 23

How is the charge of an electron related to the charge of a proton?

Answer 23

Electrons have a negative charge equal in magnitude to the positive charge of a proton

Question 24

How are orbital electrons arranged in the atom?

Answer 24

Electrons are arranged in definitive energy levels (shells or orbits) outside the nucleus at varying distances

Question 25

How are electrons kept in their orbits?

Answer 25

By electrostatic attraction and centripetal force

Question 26

How are orbits designated?

Answer 26

Orbits are lettered K, L, M, N, O, P and Q from innermost to outermost

Question 27

What is the maximum number of orbits in a given atom?

Answer 27

7 orbits

Question 28

Are orbits limited in the number of electrons they can hold?

Answer 28

Yes. There is a maximum number of orbits that each designated orbit can hold. K orbit can only hold 2 electrons, while Q, the outermost shell, can hold 98 electrons

Question 29

Define binding energy

Answer 29

Binding energy is the attractive force that keeps electrons in their orbit

Question 30

How are binding energy and the distance b/t the nucleus and an electron related?

Answer 30

Binding energy is inversely proportional to the square of the distance b/t the nucleus and the electron

Question 31

Which electrons are most vs least tightly bound to the nucleus?

Answer 31

K shell electrons are most tightly bound while outermost electrons in the Q shell are least tightly bound

Question 32

How is EM radiation created?

Answer 32

While moving an electron from an outer orbit to the one closer to the nucleus, energy is lost in the form of electromagnetic radiation

Question 33

How can an electron be removed from its orbit?

Answer 33

To remove an electron from its orbit, an energy greater than the binding energy must be supplied

Question 34

What electron shells are involved in x-ray production?

Answer 34

Electrons in K, L, and M shells

Question 35

How are Z number and binding energy related?

Answer 35

The higher the Z number, the higher the binding energy for any particular shell

Question 36

In particulate radiation, energy is transferred via _____

Answer 36

High velocity subatomic particle

Question 37

What kind of energy is associated with particulate radiation?

Answer 37

Kinetic energy (KE) is associated with particulate radiation

Question 38

How does KE relate to mass and velocity?

Answer 38

KE=1/2mV^2, therefore KE is DIRECTLY related to both mass and velocity

Question 39

How is energy usually supplied when using particulate radiation?

Answer 39

Via electricity

Question 40

What is the most common clinical application for particulate radiology?

Answer 40

Radiation therapy

Question 41

What is linear energy transfer (LET)?

Answer 41

The rate of loss of energy of a particle as it moves along its path in an absorber

Question 42

How is the mass and charge of a particle related to LET?

Answer 42

DIRECTLY related. The higher the mass and charge of a particle, the higher the RATE of TRANSFER of energy to the absorber

Question 43

How is the velocity of a particle related to LET?

Answer 43

INVERSELY related. The lower the rate of velocity of a particle, the higher the rate of transfer for energy to an absorber

Question 44

How is chemical composition (Z number), thickness, and density of the ABSORBER related to LET?

Answer 44

DIRECTLY related. Higher Z#, thicker and denser the absorber, the sooner the particle loses energy and is unable to travel.

Question 45

What travels with the least amount of LET, alpha, beta, or x-ray particles?

Answer 45

X-rays have the least rate of LET and therefore travel furthest and weigh the least. The travel thru tissues and are recorded on an image receptor

Question 46

What is another name for non-particulate radiation?

Answer 46

Electromagnetic radiation

Question 47

Describe energy transfer with EM radiation?

Answer 47

Transfer of energy thru space as a combination of electrical and magnetic fields

Question 48

Is EM radiation best described by wave theory or quantum theory?

Answer 48

Actually EM radiation is best described by a combination of both wave and photons (quanta)

Question 49

Why do we use a focusing cup when taking radiographs?

Answer 49

Due to the wave nature of EMR, EMR travels in all directions from its source, thus a focusing cup is used to direct the EMR toward the patient.

Question 50

Define wavelength

Answer 50

The distance between 2 successive crests of troughs. Measured in meters, or in the case of x-rays, measured in angstroms

Question 51

Define frequency

Answer 51

Number of oscillations, vibrations, waves, or cycles per second

Question 52

How does velocity relate to wavelength and frequency?

Answer 52

velocity = wavelength x frequency

Question 53

Does velocity of EMR in air vary?

Answer 53

NO! Velocity of all EMRs in air is the same (3x10^10 cm/sec)

Question 54

How are energy and velocity related?

Answer 54

Energy and velocity are directly related, therefore an increase in in velocity results in an increase in energy

Question 55

How are energy and wavelength related?

Answer 55

Energy and wavelength are inversely related, therefore an EMR with longer wavelength will have lower energy