ROYGBIV temperature liquid diffraction trough kinetic energy linear upward line on distance/time graph net force electrical energy crest transverse wave independent variable flat line with zero slop on distance/time graphs EM waves equilibrium Gamma Rays Visible Light potential energy contact force refraction thermal energy gas Inertia dependent variable conduction Radio Waves Balanced Force radiation Ultraviolet convection reflection frequency non- contact force solid unbalanced Force longitudinal wave force Infrared Friction ROYGBIV temperature liquid diffraction trough kinetic energy linear upward line on distance/time graph net force electrical energy crest transverse wave independent variable flat line with zero slop on distance/time graphs EM waves equilibrium Gamma Rays Visible Light potential energy contact force refraction thermal energy gas Inertia dependent variable conduction Radio Waves Balanced Force radiation Ultraviolet convection reflection frequency non- contact force solid unbalanced Force longitudinal wave force Infrared Friction
(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. 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.
ROYGBIV
temperature
liquid
diffraction
trough
kinetic energy
linear upward line on distance/time graph
net force
electrical energy
crest
transverse wave
independent variable
flat line with zero slop on distance/time graphs
EM waves
equilibrium
Gamma Rays
Visible Light
potential energy
contact force
refraction
thermal energy
gas
Inertia
dependent variable
conduction
Radio Waves
Balanced Force
radiation
Ultraviolet
convection
reflection
frequency
non-contact force
solid
unbalanced Force
longitudinal wave
force
Infrared
Friction