Nuclear

Question 1

splitting of an atom into two or more smaller ones

Answer 1

Fission

Question 2

using of two or more smaller atoms into a larger one

Answer 2

Fusion

Question 3

actinide element and has the highest atomic mass of any naturally occurring element

Answer 3

Uranium

Question 4

In its refined state, it is a heavy, silvery-white metal that is malleable, ductile, slightly paramagnetic, and very dense, second only to tungsten

Answer 4

Uranium

Question 5

radioactive chemical element with the symbol Pu

Answer 5

Plutonium

Question 6

actinide metal of silvery-gray appearance that tarnishes when exposed to air and forms a dull coating when oxidized

Answer 6

Plutonium

Question 7

also called urania

Answer 7

Yellowcake

Question 8

is a type of uranium concentrate powder obtained from leach solutions, in an intermediate step in the processing of uranium ores

Answer 8

Yellowcake

Question 9

discovered radioactivity in 1898

Answer 9

Becquerel

Question 10

fission of the atom was demonstrated by

Answer 10

Fermi

Question 11

generates heat which can be used to produce steam to drive prime movers, thus generating electricity

Answer 11

Controlled fission

Question 12

first spontaneous decaying substances

Answer 12

Radium and polodium

Question 13

absorbs a thermal neutron, then fissions into fragments approx

Answer 13

U-235

Question 14

Neutrons released by fission are at high energy levels (fast neutrons) and can react in fast reactors

Answer 14

True

Question 15

Naturally occurring uranium contains only ______ 235U

Answer 15

0.71%

Question 16

isotopes that are not fissile but are convertible to fissile materials

Answer 16

fertile materials

Question 17

has a long half-life (24,000 years)

Answer 17

239 Pu

Question 18

has a high cross section (ability to absorb) for fast neutrons and a low critical mass for fast fission

Answer 18

239 Pu

Question 19

Uranium is more abundant in the earth’s crust than mercury and is present in about the same amount as tin and molybdenum

Answer 19

true

Question 20

less widely used than uranium, is a suitable nuclear fuel

Answer 20

thorium

Question 21

natural isotope of thorium

Answer 21

232 th

Question 22

it is obtained as a by-product of the processing of monazite, a complex phosphate, for the extraction of rare earth

Answer 22

232 th

Question 23

Process of separating pure uranium from uranium containing impurities

Answer 23

refining

Question 24

Conversion of crude yellow cake or uranium metal to metal pure enough for reactor use, free of other elements

Answer 24

purification

Question 25

A process by which the relative abundance of the isotopes of a given element are altered, thus producing a form of the element that has been enriched in one particular isotope and depleted in its other isotopic forms.

Answer 25

isotope enrichment

Question 26

Two major processes used to separate 235U and 238U:

Answer 26

gas diffusion process
gas centrifuge process

Question 27

bases on differenced in the diffusion rate between 235UF6 and 238UF6 through porous barriers several mean free paths long

Answer 27

gas diffusion process

Question 28

depends on the centrifugal force for the separation

Answer 28

gas centrifuge process

Question 29

advance of isotope separation process

Answer 29

The plasma separation process (PSP)
The atomic vapor laser isotope separation (AVLIS) process
The molecular laser isotope separation (MLIS) process

Question 30

3 fissionable isotopes

Answer 30

233U, 235U, and 239Pu

Question 31

Type of uranium mine

Answer 31

Open pit
Underground mine

Question 32

used where deposits are close to the surface

Answer 32

Open pi

Question 33

used for deeper deposits

Answer 33

Underground mine

Question 34

involves a large pit where stripping out and removal of much overburden

Answer 34

Open pit

Question 35

have relatively small surface disturbance and the quantity of material that must be removed to access the ore is considerably less

Answer 35

Underground mine

Question 36

Natural uranium oxide from mines and processing plants is chemically converted into ______________

Answer 36

uranium hexafluoride (UF6)

Question 37

a compound that when heated forms a gas that can be fed into enrichment plants

Answer 37

uranium hexafluoride

Question 38

process that separates gaseous uranium hexafluoride into two streams, one being enriched to the required level known as low-enriched uranium (LEU); the other stream is progressively depleted in 235U and is called “tails,” or simply depleted uranium

Answer 38

enrichment

Question 39

two types of enrichment technologies:

Answer 39

gaseous diffusion
gas centrifuge

Question 40

this technology or uranium enrichment has not been utilized at the commercial level as of today

Answer 40

laser enrichment

Question 41

involves forcing uranium hexafluoride gas under pressure through a series of porous membranes or diaphragms

Answer 41

Gas diffusion process

Question 42

series of diffusion stages

Answer 42

Cascade

Question 43

uses laser technology to selectively excite 235U, the fissile isotope

Answer 43

Laser separation

Question 44

in the form of ceramic pellets

Answer 44

Reactor fuel

Question 45

formed from pressed uranium oxide (UO2), which is sintered (baked) at a high temperature (over 2550°F)

Answer 45

ceramic pellet

Question 46

most common reactor contains 150-200 fuel assemblies

Answer 46

pressurized-water reactor (PWR)

Question 47

containing fissionable material in sufficient quantity and so arranged to be capable of maintaining a controlled, self-sustaining nuclear fission chain (critical) reaction

Answer 47

Nuclear reactor

Question 48

3 major type of reactor

Answer 48

Burner
Breeder
Converter

Question 49

commonly use uranium enriched in 235U and some type of moderator to produce heat and slow down the neutrons to maintain the chain reaction

Answer 49

Burner

Question 50

the fuel is held in rods so that the neutrons released will fly out and cause nuclear fission in other rods

Answer 50

Nuclear fuel

Question 51

graphite slows the neutrons down

Answer 51

Graphite core

Question 52

these are raised and lowered to stop neutrons from travelling between fuel rods and therefore change the speed of the chain reaction

Answer 52

Control rod

Question 53

this is heated up by the energy released from the fission reactions and is used to boil water to drive turbines in the power station

Answer 53

Coolant

Question 54

Type of burner reactor

Answer 54

Pressurizer water reactor
Boiling water reactor
Liquid-metal coolant reactor

Question 55

“Breeders are designed to produce more fuel than they consume.”

Answer 55

True

Question 56

run without moderators

Answer 56

Breeder

Question 57

The liquid-metal fast-breeder reactor (LMFBR) keeps neutron energy high by using solid sodium as a coolant

Answer 57

False (liquid)

Question 58

use 238U as a fertile material to produce 239Pu and are usually not designed to produce useful heat

Answer 58

Converter

Question 59

Cores are smaller and have a longer life than power-producing units

Answer 59

Converter

Question 60

designed to produce enormous amounts of energy in a very brief time

Answer 60

Atom bomb

Question 61

Main steps in processing nuclear waste

Answer 61

Pre-treatment
Treatment processes
Conditioning

Question 62

prepares the waste for processing and includes sorting and segregation to separate out contaminated items from non-contaminated ones

Answer 62

Pre-treatment

Question 63

reduce the volume of waste requiring treatment

Answer 63

Decontamination technique

Question 64

tend to reduce the volume or radioactive waste by separating out the radioactive component from the bulk waste

Answer 64

Treatment processes

Question 65

2 common treatment techniques

Answer 65

Incineration of solid waste
Evaporation of liquid waste

Question 66

brings the waste into a safe, stable and manageable form

Answer 66

Conditioning

Question 67

designed to slow the release of radionuclides from the disposed waste package into the environment

Answer 67

Conditioning techniques

Question 68

residues from the defense production cycle

Answer 68

Defense water

Question 69

It is also made by distillation of liquid hydrogen

Answer 69

Tritium

Question 70

experimental tools of excep tional diversity and application

Answer 70

Trace element