RSRS

Question 1

What are 3 states of matter?

Answer 1

• Solids
• Liquids
• Gases

Question 2

characteristics of solids?

Answer 2

• structured internal order
• retains its shape
• doesn’t confirm to surroundings easily
• van der waals’ force

Question 3

Characteristics of liquids

Answer 3

• take the shape of the container

- cohesive forces

Question 4

Characteristics of gases

Answer 4

• posses complete molecular mobility
• no definite shape
• weak collision forces
• can be readily expanded or compressed

Question 5

What are the critical moment when one state of matter change to another?

Answer 5

Melting point
- solid to liquid , e.g. ice to water

Freezing point
- liquid to solid , e.g. water to ice

Boiling point
- liquid to gas , e.g. water to steam vapor

Question 6

What are the process of different changes in the state of matter?

Answer 6

Sublimation
- solid to gas , e.g. dry ice to CO2 vapour

Evaporation
- liquid to vapour, e.g. H2o to humidity

Condensation
- vapour to liquid , e.g. humidity to H2o

Question 7

What is the dew point?

Answer 7

• the temperature below at which water begin to condense and form dew

Question 8

What is the definition of critical pressure?

Answer 8

• pressure required to convert gas to liquid at its critical temperature

Question 9

What is the definition of critical temperature?

Answer 9

• the temperature above at which as gas cannot be converted back to a liquid
• regardless of its critical pressure

Question 10

What is the definition of vapour pressure?

Answer 10

• the pressure exerted by gas molecules as they evaporate

- changes with temperature

Question 11

What are 2 types of energy in a state of matter?

Answer 11

• positional or potential energy or pressure

- kinetic energy

Question 12

What happen when gas molecule collide with solid or liquid?

Answer 12

• a force is exerted on the solid or liquid
  F = m(kg)a(m/s2)
• a force acting on a surface creates pressure

P = F/A

Question 13

Which 2 physical factor help molecule to move apart?

Answer 13

1. temperature

2. pressure

Question 14

What is the definition of temperature?

Answer 14

• the measurement of the average kinetic potential & kinetic energy of molecules of a substance

Question 15

What are the units of temperature? example?

Answer 15

• F, C, K
• 0 C = 273 K
• 0 k = absolute zero

Question 16

What is the definition of pressure?

Answer 16

• a force exerted against a resistance

Question 17

What is the equation for Pascal?

Answer 17

Newton (N) /m2

Question 18

What are the 2 ways that pressure is measured?

Answer 18

1) Height exerted by a fluid within a column
- -> H2O manometer, Hg barometer

2) weight per unit of area
- ->lb/square inch (PSI)
- ->N/m2 (pascal)

Question 19

Definition of density?

Answer 19

mass of substance per unit volume occupy

(rho) p = m/v

Question 20

What is the relationship between density and pressure?

Answer 20

P = F/A = mg/A

p= m/v

mg/a x h/h –> mgh/v

P = pgh

Question 21

What is the equation for gas density calculation?

Answer 21

p = gram molecular weight / 22.4L ( the volume of 1 mole of gas occupy at STPD

Question 22

What are the units of pressure

Answer 22

1 atm = 14.7psi

• -> 760mmhg or torr
• -> 1.013 x 10^5 pascals
• –>1.013 x 10^3 kilopascal
• –>1013.25 millibars
• –>1034 cm H2o

Question 23

What are the types of pressure?

Answer 23

absolute pressure = total pressure of a system

Atm pressure = barometric pressure

Gauge = pressure other than atm pressure

Absolute pressure = atm + guage

Question 24

What does RT pressure devices measure?

Answer 24

absolute, atm and or guage pressure

Question 25

What does barometer(torricelli) measure? features? how?

Answer 25

1. atm pressure
2. has 1 end open to atm or barometric pressure to push onto the resorvior
3. liquid in the tube get pushed up which gives a measurement of pressure

Question 26

What does open tube (u-tube)manometer measure? feature ? how?

Answer 26

1. measures gauge pressure
2. has 2 ends open to the atm pressure
3. fluid fluctuates as the pressures at either end is changed
   - -> -ve pressure sucks liquid , decreasing the height on the other side

Question 27

What does the manometer measure?

Answer 27

• measure gaseous pressure , < 200mmhg

eg. Blood pressure , breathing pressure

Question 28

How does the aneroid manometer work?

Answer 28

• gas flows into the pressure compartment, causing the hollow flat disk to expand
• The expansion of the flat disk cause movement of the lever arm with the pressure scale

Question 29

What does a bourdon gauge measure?

Answer 29

• measure gaseous pressure MORE THAN 200mmhg

eg. gas cylinder pressure

Question 30

What are the 1st hydrostatic property?

Answer 30

Property 1:
Fluid at rest exerts force perpendicular to its surface –> cannot exert a force parallel to a surface

Such property is seen in utube or barometer - pressure energy created by fluids at height in the fluid column

Question 31

What is the 2nd hydrostatic property?

Answer 31

Pascal therom
- pressure when applied to a fluid at rest is transmitted undiminished in all directions

such property is seen in high heels, bedsores

Question 32

What is the 3rd hydrostatic property?

Answer 32

• pressure of a fluid at rest is the same at all points at equal depths
• the difference in pressure between 2 points is relative to the difference in height

Question 33

What are the laws that applied to fluids at rest only?

Answer 33

Boyle - temperature is constant , increase Pressure decrease volume
Charles- pressure is constant, increases temperature increase volume
Gaylussac - volume is constant , increase pressure increase temperature

*all derive from ideal gas law

Question 34

definition of daltons law of partial pressure

Answer 34

total pressure of a gaseous mixture = sum of partial pressures of the constituent gas

partial pressure exerted by each gas = volumetric percentage of mixture

Question 35

Characteristic of hydrodynamic ?

Answer 35

• properties and behaviors of fluid in motion
• relate to patterns of bulk gas flow from point a to b

e.g. Ventilator flow rate

Question 36

laws of hydrodynamic

Answer 36

Graham’s law - diffusion related to density
henry’s law - diffusion related to partial pressure and solubility
fick’s law - diffusion related to surface area, PP , solubility and density

Question 37

What were the different patterns of flow?

Answer 37

• Laminar
• turbulent
• transitional

Question 38

characteristics of laminar?

Answer 38

• movement of fluids through smooth muscle surface and fixed radii
• moves in discrete cylindrical layer

Question 39

What is laminar flow affected by?

Answer 39

directly affected by (decrease flow)

• viscosity
• length

indirectly affected by (increase flow)
- radius

Used in RT : small airways and medication delivery

Question 40

characteristics of turbulent

Answer 40

• movement of molecules becomes chaotic

- no longer move in a orderly cylindrical pattern

Question 41

What is turbulent flow affected by

Answer 41

-density

see in RT: large airway, medical gases or medical delivery

Question 42

When does laminar flow becomes turbulent?

Answer 42

• rapid increase in velocity of flow
• when tube’s radius varies
• when tubes have rough, uneven surface

Question 43

What is turbulent flow

Answer 43

mixture of laminar and turbulent flow

- occurs when a laminar system a straight even tube, divide into 1 or more branches

Question 44

What is Ohm’s law for laminar?

Answer 44

flow = pressure / resistance

Question 45

What are the factors that affect turbulent flow?

Answer 45

• sharp increase in the velocity of the gas or liquid
• obstruction in gas /liquid pathway
• decrease in the the radius of the tube
• changes from viscosity to density in gas

Question 46

What does the turbulent flow factors form?

Answer 46

Reynolds number

Question 47

What is ohm’s law for turbulent?

Answer 47

Flow ^ 2 = P/R

R = p(density) x length / 4Pier^5

Question 48

What does reynolds number represent?

Answer 48

the likelihood of laminar or turbulent flow

Question 49

What is reynolds equation?

Answer 49

re = pvd / n

laminar flow < 2000 < or equal to turbulent flow

Question 50

What are some application of torricelli theorem in the body?

Answer 50

1. cardiac output via the pulmonary and systemic circulation
2. coronary artery that is constricted during atherosclerosis

Question 51

What does bernoulli therom ential?

Answer 51

• discovered that as velocity of gas increase at point of restriction in a tube –> kinetic energy is the highest
• due to conservation of energy, highest kinetic energy will have lowest potential/pressure energy

Question 52

What does nebulizer do?

Answer 52

• takes a gas and entrains 1) air and 2) liquid to create
• blended gas mixture
• humidity
• aerosolized medication

Question 53

What are the 2 types of agencies that control medical gas

Answer 53

agencies serve to protect users and consumer of medical gases from unsafe practice that could harm them

1) recommending
2) regulating

Question 54

characteristic of regulating agency

Answer 54

• legal control over users and suppliers
• can take legal action if necessary

Control:

• manufacturing
• testing
• transport
• identification (label)
• marking (label)
• safety device

e. g. department of transportation (DOT)
- FDA (food and drug administration)
- transport canada

Question 55

Characteristic of recommending agency

Answer 55

• provide expertise in area of knowledge
• NO LEGAL AUTHORITY
• recommend on:
  Correct handling, usage practices

e.g. Canadian standard association (CSA),
International organization for standardization (ISO)

Question 56

What is included on the cylinder

Answer 56

1. construction
2. markings
3. safety features
4. cylinder testing
5. demurrage
6. disposal/destruction
7. capacity and size
8. duration and content

Question 57

How is cylinder constructed?

Answer 57

• seamless (smooth) high quality steel, aluminum STAMPED or spun into shape

Question 58

What are different types of seamless cylinder?

Answer 58

Type 3AA - heat treated, high strength steel (common)
3A - no heat, high carbon steel
3AL - seamless aluminum alloy (common)
CR-MO - chrome molybdenum

Question 59

What are the markings?

Answer 59

regulating agency - construction - service pressure

On the left

• manufacture mark
• ownership mark
• series number

on the right

• original hydostatic test date
• retest dates
• inspector marks

Question 60

What are the safety features?

Answer 60

1. color coding of the shoulder
2. labeling
3. safety (high pressure ) relief valve in case of increasing in temperature
4. indexed inlet /outlet

Question 61

What are 4 types of label?

Answer 61

1. barcode (similar to markings)
2. hazard (warning , precaution)
3. WHMIS
4. Tag (full/in use/empty) , purity

Question 62

If the label is missing, destroyed or llegible–> should i use it?

Answer 62

NO

Question 63

Function of pressure relief

Answer 63

• opens should pressure or temperature builds up inside the cylinder
• set 1.5 times the maximum service pressure of the cylinder
• non-sealable

Question 64

What type of gas cylinder has relief valve?

Answer 64

**ALL MEDICAL GAs

Not for poisonous gas

Question 65

What are 2 different types of relief valve?

Answer 65

1. frangible disc

2. fuisble plug

Question 66

What is the purpose of indexed outlet/inlet?

Answer 66

prevent wrong connection between equipment to gas supplies

Question 67

How many types of indexed outlet/inlet?

Answer 67

2,

1. PISS (pin, indexed, safety system) –> smaller cylinder , D/E sizes
   - -> valve stem has pin hole, regulator have pin
   - -> 6 different location –> 10 combination
2. American standards indexing (ASI) –> large cylinders H?K
   - ->threaded valve for threaded regulator to attach
   - -> medical gas has right thread “righty tighty, lefty loosey”

Question 68

What are the PISS for o2, n2o and C/A

Answer 68

O2 : 2, 5
N2O: 3, 5
C/A: 1, 5

Question 69

What does cylinder testing composed of?

Answer 69

• leaks
• buldging
• internal/external corrosion
• pittings (localize corrosion that leave small indent)

Question 70

What are some test of the cylinder?

Answer 70

1. corrosion/pittings
   - ->visual inspection
2. Hammer test /deadring
   - clear cylinder sound (ok), dull ( corrosion)
3. hydrostatic test
   - measurement of expansion
   - measurement of water displacement after fillng with 5/3 of original pressure
   - -> 3aa, 3a –> test every 10 years
   - -> 3 al–> every 5 years

Question 71

What is involved in the disposal and destruction of cylinder?

Answer 71

• discharge content slowly
• cut up steel
• Noixous GAS*** –> perforate it from far or bury it

Question 72

What are some handling procedures?

Answer 72

Dont use

• use oil or petrolum product
• if tag is missing

Do

• leave them secure
• cracking to remove dust EXCEPT H2, cyclopropane, ethylene and CO

Question 73

O2 cylinder sizes and factors?

Answer 73

O2

1 FULL o2 cylinder –> 2200psi

D size : 359 L , 0.16L/psi
E: 622 L, 0.28L/psi
H: 6900 L , 3.14L/psi
STATE: Gas

Question 74

Heliox (80/20) cylinder sizes and factors?

Answer 74

1 FUll heliox –> 2000psi

D: 310 L, 0.14
E: 510 L, 0.26
H: 5590L, 2.5
State:Gas

Question 75

N2o size and factors?

Answer 75

1 Full n2o = 745 psi

D: 940L
E: 1590L
H: 15800L

STATE: LIQUID

Question 76

equation for durations of flow

Answer 76

duration = content/flow

IF cylinder isn’t full to begin with, use conversion factor = k

duration (with safety margin build in) = k x (gauge pressure - 500 psi) / flow

Question 77

liquid O2 and N2o conversion to gaseous?

Answer 77

1LLO2 = 862 GL 
1LLO2 = 2.5lbs 

1LLN2O = 669GL 
1LLN2O = 2.2lbs