Potential energy Curie a = (Vf - Vo)/t Absorbed dose Rad Energy Time, Distance, Shielding Roentgen Amputation Acceleration Effective Dose Becquerel Air Kerma Velocity Primary Barriers Clarence Dally Mass,Leanth,Time Equivalent Dose 3x10^8 m/s Thomas Edison 6.24 × 10 ^18 electrons Gray Secondary Barriers Sievert coulomb/kilogram Radioactivity Kinetic energy X-ray Tube V=d/t Potential energy Curie a = (Vf - Vo)/t Absorbed dose Rad Energy Time, Distance, Shielding Roentgen Amputation Acceleration Effective Dose Becquerel Air Kerma Velocity Primary Barriers Clarence Dally Mass,Leanth,Time Equivalent Dose 3x10^8 m/s Thomas Edison 6.24 × 10 ^18 electrons Gray Secondary Barriers Sievert coulomb/kilogram Radioactivity Kinetic energy X-ray Tube V=d/t
(Print) Use this randomly generated list as your call list when playing the game. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.
B-Potential energy
G-Curie
N-a = (Vf - Vo)/t
I-Absorbed dose
B-Rad
I-Energy
G-Time, Distance, Shielding
O-Roentgen
B-Amputation
O-Acceleration
G-Effective Dose
O-Becquerel
G-Air Kerma
N-Velocity
I-Primary Barriers
G-Clarence Dally
N-Mass,Leanth,Time
B-Equivalent Dose
N-3x10^8 m/s
I-Thomas Edison
O-6.24 × 10 ^18 electrons
I-Gray
N-Secondary Barriers
O-Sievert
G-coulomb/kilogram
I-Radioactivity
B-Kinetic energy
B-X-ray Tube
O-V=d/t