46 questions
Luminosity
Color
Temperature
Brightness
Stars
Nebula
Post Office
Hospital
Galaxy
Space
Sun
Biggest
Brightest
Hottest
Closest
Comet
tail
hot
star
moon
Rotation
day & night
year
seasons
orbit
Rotation
orbit
tilt
spin
season
Revolution
year
24 hours
day and night
tilt
Tilt
Seasons
Day & Night
Weather
Tides
Divergent
Deny
Divide
Together
Collide
Convergent
Cold
Spread
Collide
New Land
Transform
Collide
Slide
Spin
Translate
Waning
losing light
gaining light
Waxing
gaining light
losing light
Waning
light on right
light on half
light on left
no light
Waxing
light on right
light on half
light on left
light on all
MASS: Biggest to Smallest
UGSn SPM
MPS SnGU
UGnS SPM
nUGS SPM
When you go up, it gets
dimmer
hotter
colder
brighter
When you go down, it gets
colder
hotter
bigger
dimmer
When you go left, it gets
bigger
brighter
hotter
cooler
When you go right, it gets
smaller
cooler
hotter
bluer
high pressure
low pressure
warm front
cold front
cold front
warm front
high pressure
low pressure
Hurricane
cold ocean water
cool ocean water
warm ocean water
salty ocean water
cloudy & rainy
bright & hot
windy
sunny & clear skies
snow & hail
cloudy & rainy
bright & hot
clear skies & sunny
Speed
distance/time
distance * time
change in velocity
direction/time
Velocity
speeding up
changing direction
how fast
speed with direction
Rate of motion
velocity
force
acceleration
speed
Acceleration
Change in velocity
Push or Pull
Rate of motion
Speed with direction
Force
push or pull
constant speed
motionless
kinetic
Stored Energy
Potential
Kinetic
Energy in motion
Kinetic
Potential
Highest Point
Most KE
Most PE
Highest Point
Least KE
Least PE
Lowest Point
Least KE
Least PE
Lowest Point
Most KE
Most PE
Balanced
Constant Speed
Acceleration
Motionless
Equal & Opposite Forces
Unbalanced
One Force is Stronger
Causes Acceleration
No motion
Forces are equal
Friction
Slow down
Speed up
Gravity
Speed Up
Slow Down
First Law
F = MA
Inertia
Action - Reaction
Increase
Second Law
Inertia
Action - Reaction
F = MA
Third Law
Action - Reaction
Inertia
F = MA
First Law
Object at rest will remain at rest & an abject in motion will stay in motion unless acted on by an unbalanced force
Comparing two objects
For every reaction there is an equal and opposite reaction
Second Law
For every action there is an equal and opposite reaction
Object at rest will remain at rest & an abject in motion will stay in motion unless acted on by an unbalanced force
F = MA
Third Law
Object at rest will remain at rest & an abject in motion will stay in motion unless acted on by an unbalanced force
F = MA
For every action there is an equal and opposite reaction