Table 1.

Radiation units and definitions.

Unit*Quantity MeasuredDefinition
*Submultiples : 10−2 = centi (c); 10−3 = milli (m); 10−6 = micro. Multiples: 103 = kilo (k); 106 = mega (M); 109 = giga (G). 
Abbreviations: Rad, radiation absorbed dose; Rem, roentgen equivalent in man; SI, Systeme International. Modified from N. Dainiak.29  
Roentgen (R) Exposure Charge (ionization) produced in air by x-rays or gamma rays 
Rad Dose 100 ergs deposited per gram of tissue 
Gray (Gy) Dose SI unit of dose; equals 100 rad 
Rem Dose equivalence Unit that reflects biologic response. It is used to compare various types of radiation 
Sievert (Sv) Dose equivalence SI unit of dose equivalence; equals 100 rem 
Becquerel (Bq) Exposure Disintegration per second; 1 Bq=2.7×10−11 Curie (Ci); 1 Ci=3.7×1010 Bq or 37 GBq 
KERMA Exposure Kinetic energy released in matter 
Unit*Quantity MeasuredDefinition
*Submultiples : 10−2 = centi (c); 10−3 = milli (m); 10−6 = micro. Multiples: 103 = kilo (k); 106 = mega (M); 109 = giga (G). 
Abbreviations: Rad, radiation absorbed dose; Rem, roentgen equivalent in man; SI, Systeme International. Modified from N. Dainiak.29  
Roentgen (R) Exposure Charge (ionization) produced in air by x-rays or gamma rays 
Rad Dose 100 ergs deposited per gram of tissue 
Gray (Gy) Dose SI unit of dose; equals 100 rad 
Rem Dose equivalence Unit that reflects biologic response. It is used to compare various types of radiation 
Sievert (Sv) Dose equivalence SI unit of dose equivalence; equals 100 rem 
Becquerel (Bq) Exposure Disintegration per second; 1 Bq=2.7×10−11 Curie (Ci); 1 Ci=3.7×1010 Bq or 37 GBq 
KERMA Exposure Kinetic energy released in matter 
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