Randome Flashcards
RPH
What is the Tp(physical half live) and energy of O15?
a) 1.3min at 3.15KeV
b) 2min at 1.7KeV
c) 110 min at 0.635KeV
d) 10min at 1.19KeV
e) 20min at 0.960KeV
b) 2min at 1.7KeV
What is the Tp(physical half live) and energy of F-18?
a) 110 min at 0.635KeV
b) 10min at 1.19KeV
c) 1.3min at 3.15KeV
d) 2min at 1.7KeV
e) 20min at 0.960KeV
a) 110 min at 0.635KeV
What is the Tp(physical half live) and energy of N-13?
a) 2min at 1.7KeV
b) 20min at 0.960KeV
c) 110 min at 0.635KeV
d) 1.3min at 3.15KeV
e) 10min at 1.19KeV
e) 10min at 1.19KeV
What is the Tp(physical half live) and energy of Rb-82?
a) 110 min at 0.635KeV
b) 1.3min at 3.15KeV
c) 2min at 1.7KeV
d) 20min at 0.960KeV
e) 10min at 1.19KeV
b) 1.3min at 3.15KeV
What is the Tp(physical half live) and energy of C-11?
a) 20min at 0.960KeV
b) 10min at 1.19KeV
c) 1.3min at 3.15KeV
d) 2min at 1.7KeV
e) 110 min at 0.635KeV
a) 20min at 0.960KeV
What is the Tp(physical half live) and energy of P-32?
a) 2.7 days at 0.96
b) 90hr at 0.34MeV beta & 186 KeV gamma
c) 46hr
d) 8 days
e) 64hr
f) 50.5 days at 1.46MeV max, 0.58
g) 14.3 days at 1.7MeV
g) 14.3 days at 1.7MeV
What is the Tp(physical half live) and energy of Sr-89?
a) 46hr
b) 8 days
c) 64hr
d) 2.7 days at 0.96
e) 14.3 days at 1.7MeV
f) 50.5 days at 1.46MeV max, 0.58
g) 90hr at 0.34MeV beta & 186 KeV gamma
f) 50.5 days at 1.46MeV max, 0.58
What is the Tp(physical half live) and energy of Y-90?
a) 2.7 days at 0.96
b) 14.3 days at 1.7MeV
c) 50.5 days at 1.46MeV max, 0.58
d) 90hr at 0.34MeV beta & 186 KeV gamma
e) 46hr
f) 8 days
g) 64hr
g) 64hr
What is the Tp(physical half-live) and energy of I-131?
a) 46hr
b) 8 days
c) 64hr
d) 50.5 days at 1.46MeV max, 0.58
e) 90hr at 0.34MeV beta & 186 KeV gamma
f) 2.7 days at 0.96
g) 14.3 days at 1.7MeV
b) 8 days
What is the Tp(physical half live) and energy of Sm-153?
a) 50.5 days at 1.46MeV max, 0.58
b) 90hr at 0.34MeV beta & 186 KeV gamma
c) 46hr
d) 8 days
e) 64hr
c) 46hr
What is the Tp(physical half live) and energy of Re-186?
a) 50.5 days at 1.46MeV max, 0.58
b) 90hr at 0.34MeV beta & 186 KeV gamma
c) 46hr
d) 8 days
e) 64hr
b) 90hr at 0.34MeV beta & 186 KeV gamma
What is the Tp(physical half live) and energy of Au-198?
a) 2.7 days at 0.96
b) 14.3 days at 1.7MeV
c) 46hr
d) 8 days
e) 64hr
a) 2.7 days at 0.96
What is 1Ci in uCi ?
a) 0.001 uCi
b) 1000,000 uCi
c) 1,000 mCi
d) 100 uCi
b) 1000,000 uCi
What is 1Ci in mCi ?
a) 1,000 mCi
b) 100 uCi
c) 0.001 uCi
d) 1000,000 uCi
a) 1,000 mCi
What is 1mCi in uCi ?
a) 0.001 uCi
b) 1,000 mCi
c) 100 uCi
d) 1000,000 uCi
a) 0.001 uCi
What is 1mCi in MBq ?
a) 1,000 mCi
b) 37 MBq
c) 37 GBq
d) 100 uCi
b) 37 MBq
What is 1Ci in GBq?
a) 37 MBq
b) 37 GBq
c) 1,000 mCi
d) 100 uC
b) 37 GBq
What is 1 Gray conversion factor?
a) 100 Rad
b) 0.01 Gray
c) 0.01 Sv
d) 100 Rem
a) 100 Rad
What is 1 Rad conversion factor?
a) 100 Rad
b) 0.01 Gray
c) 0.01 Sv
d) 100 Rem
b) 0.01 Gray
What is the 1 Rem conversion factor?
a) 100 Rad
b) 0.01 Gray
c) 0.01 Sv
d) 100 Rem
c) 0.01 Sv
What is the 1 Sv conversion factor?
a) 100 Rad
b) 0.01 Gray
c) 0.01 Sv
d) 100 Rem
d) 100 Rem
What is the formula for effective half-life?
a) I = Io(0.5)^X (HVL)
b) I = Io e^-.693(X / HVL)
c) (Tp x Tb) / (Tp + Tb)
b) (I1/I2) = (D2/D1)^2
c) (Tp x Tb) / (Tp + Tb)
What is the formula for the inverse square law of exposure rate?
a) I = Io(0.5)^X (HVL)
b) I = Io e^-.693(X / HVL)
c) (Tp x Tb) / (Tp + Tb)
b) (I1/I2) = (D2/D1)^2
b) (I1/I2) = (D2/D1)^2
What is the formula for lead shielding?
a) I = Io(0.5)^X (HVL)
b) I = Io e^-.693(X / HVL)
c) (Tp x Tb) / (Tp + Tb)
b) (I1/I2) = (D2/D1)^2
b) I = Io e^-.693(X / HVL)
What is the exposure rate for the Gestation period?
a) 0.5Rem(5mSv)
b) 5Rem(0.05Sv)
c) 15Rem(0.15Sv)
d) 50Rem(0.5Sv)
a) 0.5Rem(5mSv)
What is the exposure rate for Effective Dose?
a) 0.5Rem(5mSv)
b) 5Rem(0.05Sv)
c) 15Rem(0.15Sv)
d) 50Rem(0.5Sv)
b) 5Rem(0.05Sv)
What is the exposure rate for Extremities?
a) 0.5Rem(5mSv)
b) 5Rem(0.05Sv)
c) 15Rem(0.15Sv)
d) 50Rem(0.5Sv)
c) 15Rem(0.15Sv)
What is the exposure rate for an Eye lens?
a) 0.5Rem(5mSv)
b) 5Rem(0.05Sv)
c) 15Rem(0.15Sv)
d) 50Rem(0.5Sv)
d) 50Rem(0.5Sv)
What radioactive Area sign should be posted for exposure of 100mRem(1mSv) in 1hr @ 1m?
a) Radioactive Material
b) Radiation Area
c) High Radioactive Area
d) Very High Radioactive Area
c) High Radioactive Area
What radioactive Area sign should be posted for exposure of 5mRem(0.05mSv) in 1hr @ 1m?
a) Radioactive Material
b) Radiation Area
c) High Radioactive Area
d) Very High Radioactive Area
b) Radiation Area
What radioactive Area sign should be posted for exposure of 500mRem(5Gray) in 1hr @ 1m?
a) Radioactive Material
b) Radiation Area
c) High Radioactive Area
d) Very High Radioactive Area
d) Very High Radioactive Area
What radioactive Area sign should be posted for stored radioactive materials?
a) Radioactive Material
b) Radiation Area
c) High Radioactive Area
d) Very High Radioactive Area
a) Radioactive Material
What is radioactive exposure of less than 2mRem(0.02mSv) in 1hr @ 1m?
a) Radioactive Material
b) Radiation Area
c) unrestricted Radioactive Area
d) High Radioactive Area
e) Very High Radioactive Area
c) unrestricted Radioactive Area
What is less than 0.1Rem(1mSv) radioactive exposure in 1hr @ 1m?
a) Public exposure rate
b) unrestricted Radioactive Area
c) High Radioactive Area
d) Very High Radioactive Area
a) Public exposure rate
What kind of impurity is Chemical?
a) Moly & Tc99m breakthrough
b) All RPH Kit use, like Tc-MDP
c) Visual, done with AL stripe
c) Visual, done with AL stripe
What kind of impurity is Radiochemical?
a) Visual, done with AL stripe
b) Moly & Tc99m breakthrough
c) All RPH Kit use, like Tc-MDP
b) Moly & Tc99m breakthrough
What kind of impurity is Radionuclide?
a) Moly & Tc99m breakthrough
b) All RPH Kit use, like Tc-MDP
c) Visual, done with AL stripe
b) All RPH Kit use, like Tc-MDP
What is DOT’s normal exposure rate for White package labels?
a) No more than 0.05mR/hr @ surface and No more than 0.05mR/hr @ 3ft(1m)
b) No more than 50mR/hr @ surface and No more than 1mR/hr @ 3ft(1m)
c) No more than 200mR/hr @ surface and No more than 10mR/hr @3ft(1m)
a) No more than 0.05mR/hr @ surface and No more than 0.05mR/hr @ 3ft(1m)
What is DOT’s normal exposure rate for Yellow II package labels?
a) No more than 200mR/hr @ surface and No more than 10mR/hr @3ft(1m)
b) No more than 0.05mR/hr @ surface and No more than 0.05mR/hr @ 3ft(1m)
c) No more than 50mR/hr @ surface and No more than 1mR/hr @ 3ft(1m)
c) No more than 50mR/hr @ surface and No more than 1mR/hr @ 3ft(1m)
What is DOT’s normal exposure rate for Yellow III package labels?
a) No more than 200mR/hr @ surface and No more than 10mR/hr @3ft(1m)
b) No more than 50mR/hr @ surface and No more than 1mR/hr @ 3ft(1m)
c) No more than 0.05mR/hr @ surface and No more than 0.05mR/hr @ 3ft(1m)
a) No more than 200mR/hr @ surface and No more than 10mR/hr @3ft(1m)
Which RPH agents are used for PET Cardiac Perfusion?
a) Tc99m-Tetrafosmin(Myoview)
b) Tc99m-Sestamibi(Cardiolite)
c) Rb-82(Rubidium 82)
d) N-13(Ammonia)
e) Tl-201(Thalous Chloride)
c) Rb-82(Rubidium 82)
d) N-13(Ammonia)
Which RPH agents are used for regular NM Cardiac Perfusion?
a) Tc99m-Tetrafosmin(Myoview)
b) Tc99m-Sestamibi(Cardiolite)
c) Rb-82(Rubidium 82)
d) N-13(Ammonia)
e) Tl-201(Thalous Chloride)
a) Tc99m-Tetrafosmin(Myoview)
b) Tc99m-Sestamibi(Cardiolite)
e) Tl-201(Thalous Chloride)
All of these are Stress agents for myocardial perfusion except?
a) Adenosine
b) Lexiscan
c) Dipyridamole
d) Morphine
e) Codenie
f) Dobutamine
d) Morphine
e) Codenie
What is the half-life of Adenosine?
a) 4 -10 Sec
b) 2 min
c) 30 minute
d) 3phase intermidiate 30 minute
a) 4 -10 Sec
What is the half-life of Dobutamine?a) 3phase intermidiate 30 minute
b) 4 -10 Sec
c) 2 min
d) 30 minute
c) 2 min
What is the half-life of Dipyridamole?a) 4 -10 Sec
b) 30 minute
c) 2 min
d) 3phase intermidiate 30 minute
b) 30 minute
What is the half-life of Lexiscan?
a) 30 minute
b) 4 -10 Sec
c) 2 min
d) 3phase intermidiate 30 minute
d) 3phase intermediate 30 minute
What is the dose required for Dipyridamole administration?
a) 5mcg/kg/min
b) 140mcg/kg/min
c) 0.4mg/5syring
d) 0.56mg/kg
d) 0.56mg/kg
What is the dose required for Lexiscan administration?
a) 5mcg/kg/min
b) 140mcg/kg/min
c) 0.4mg/5syring
d) 0.56mg/kg
c) 0.4mg/5syring
What is the dose required for Adenosine administration?
a) 5mcg/kg/min
b) 140mcg/kg/min
c) 0.4mg/5syring
d) 0.56mg/kg
b) 140mcg/kg/min
What is the dose required for Dobutamine administration?
a) 5mcg/kg/min
b) 140mcg/kg/min
c) 0.4mg/5syring
d) 0.56mg/kg
a) 5mcg/kg/min
Which Stress agents for myocardial perfusion are injected over 4minute @ 60mg Max?
a) Adenosine
b) Lexiscan
c) Dipyridamole
d) Dobutamine
c) Dipyridamole
Which Stress agents for myocardial perfusion are injected over 5 syringes by rapid injection(20-30 minutes)?
a) Adenosine
b) Lexiscan
c) Dipyridamole
d) Dobutamine
b) Lexiscan
Which Stress agents for myocardial perfusion are injected at 40mcg max at the target heart rate?
a) Adenosine
b) Lexiscan
c) Dipyridamole
d) Dobutamine
d) Dobutamine
Which Stress agents for myocardial perfusion are injected over 6 minutes over a slow infusion with no antidote needed, injected tracer 3 minutes after?
a) Adenosine
b) Lexiscan
c) Dipyridamole
d) Dobutamine
a) Adenosine
What is the Tp(physical half live) and energy of Krm-81?
a) 13.2hr @ 159KeV
b) 8day @ 364KeV
c) 67hr @ 181, 740, 780KeV
d) 6hr @ 140KeV
e) 5.3day @ 81KeV
f) 78.3hr @ 90,190,290,390KeV
g) 67hr @ 173, 247KeV
h) 1.7hr @ 392KeV
I) 73.1hr @ 69, 81KeV
J) 13Sec @ 191KeV
J) 13Sec @ 191KeV
What is the Tp(physical half live) and energy of Tl-201?
a) 13.2hr @ 159KeV
b) 8day @ 364KeV
c) 67hr @ 181, 740, 780KeV
d) 6hr @ 140KeV
e) 5.3day @ 81KeV
f) 78.3hr @ 90,190,290,390KeV
g) 67hr @ 173, 247KeV
h) 1.7hr @ 392KeV
I) 73.1hr @ 69, 81KeV
J) 13Sec @ 191KeV
I) 73.1hr @ 69, 81KeV
What is the Tp(physical half live) and energy of In-113m?
a) 13.2hr @ 159KeV
b) 8day @ 364KeV
c) 67hr @ 181, 740, 780KeV
d) 6hr @ 140KeV
e) 5.3day @ 81KeV
f) 78.3hr @ 90,190,290,390KeV
g) 67hr @ 173, 247KeV
h) 1.7hr @ 392KeV
I) 73.1hr @ 69, 81KeV
J) 13Sec @ 191KeV
h) 1.7hr @ 392KeV
What is the Tp(physical half live) and energy of In-111?
a) 13.2hr @ 159KeV
b) 8day @ 364KeV
c) 67hr @ 181, 740, 780KeV
d) 6hr @ 140KeV
e) 5.3day @ 81KeV
f) 78.3hr @ 90,190,290,390KeV
g) 67hr @ 173, 247KeV
h) 1.7hr @ 392KeV
I) 73.1hr @ 69, 81KeV
J) 13Sec @ 191KeV
g) 67hr @ 173, 247KeV
What is the Tp(physical half live) and energy of Ga67?
a) 13.2hr @ 159KeV
b) 8day @ 364KeV
c) 67hr @ 181, 740, 780KeV
d) 6hr @ 140KeV
e) 5.3day @ 81KeV
f) 78.3hr @ 90,190,290,390KeV
g) 67hr @ 173, 247KeV
h) 1.7hr @ 392KeV
I) 73.1hr @ 69, 81KeV
J) 13Sec @ 191KeV
f) 78.3hr @ 90,190,290,390KeV
What is the Tp(physical half live) and energy of Xe-133?
a) 13.2hr @ 159KeV
b) 8day @ 364KeV
c) 67hr @ 181, 740, 780KeV
d) 6hr @ 140KeV
e) 5.3day @ 81KeV
e) 5.3day @ 81KeV
What is the Tp(physical half-live) and energy of I-131?
a) 13.2hr @ 159KeV
b) 8day @ 364KeV
c) 67hr @ 181, 740, 780KeV
d) 6hr @ 140KeV
b) 8day @ 364KeV
What is the Tp(physical half-live) and energy of I-123?
a) 13.2hr @ 159KeV
b) 8day @ 364KeV
c) 67hr @ 181, 740, 780KeV
d) 6hr @ 140KeV
a) 13.2hr @ 159KeV
What is the Tp(physical half live) and energy of Mo-99m?
a) 13.2hr @ 159KeV
b) 8day @ 364KeV
c) 67hr @ 181, 740, 780KeV
d) 6hr @ 140KeV
c) 67hr @ 181, 740, 780KeV
What is the Tp(physical half live) and energy of Tc-99m?
a) 13.2hr @ 159KeV
b) 8day @ 364KeV
c) 67hr @ 181, 740, 780KeV
d) 6hr @ 140KeV
d) 6hr @ 140KeV
