step
stringlengths 61
449
| label
stringlengths 1
15
|
|---|---|
earth is a planet that has a greater mass than the planet mars & as mass of a planet / of a celestial body increases , the force of gravity on that planet will increase -> the <mask> of gravity on earth will be greater than on mars
|
force
|
earth is a planet that has a greater mass than the planet mars & as mass of a planet / of a celestial body increases , the force of gravity on that planet will increase -> the force of <mask> on earth will be greater than on mars
|
gravity
|
earth is a planet that has a greater mass than the planet mars & as mass of a planet / of a celestial body increases , the force of gravity on that planet will increase -> the force of gravity on <mask> will be greater than on mars
|
earth
|
earth is a planet that has a greater mass than the planet mars & as mass of a planet / of a celestial body increases , the force of gravity on that planet will increase -> the force of gravity on earth will be greater than on <mask>
|
mars
|
the force of gravity on earth will be greater than on mars & as the force of gravity increases , the weight of objects will increase -> <mask> will weigh more on earth than on mars because the force of gravity is greater on earth than on mars
|
objects
|
the force of gravity on earth will be greater than on mars & as the force of gravity increases , the weight of objects will increase -> objects will <mask> more on earth than on mars because the force of gravity is greater on earth than on mars
|
weigh
|
the force of gravity on earth will be greater than on mars & as the force of gravity increases , the weight of objects will increase -> objects will weigh more on <mask> than on mars because the force of gravity is greater on earth than on mars
|
earth
|
the force of gravity on earth will be greater than on mars & as the force of gravity increases , the weight of objects will increase -> objects will weigh more on earth than on <mask> because the force of gravity is greater on earth than on mars
|
mars
|
the force of gravity on earth will be greater than on mars & as the force of gravity increases , the weight of objects will increase -> objects will weigh more on earth than on mars because the <mask> of gravity is greater on earth than on mars
|
force
|
the force of gravity on earth will be greater than on mars & as the force of gravity increases , the weight of objects will increase -> objects will weigh more on earth than on mars because the force of <mask> is greater on earth than on mars
|
gravity
|
the force of gravity on earth will be greater than on mars & as the force of gravity increases , the weight of objects will increase -> objects will weigh more on earth than on mars because the force of gravity is greater on <mask> than on mars
|
earth
|
the force of gravity on earth will be greater than on mars & as the force of gravity increases , the weight of objects will increase -> objects will weigh more on earth than on mars because the force of gravity is greater on earth than on <mask>
|
mars
|
mars is a kind of planet & earth is a kind of planet & earth is greater in mass than mars -> <mask> is a planet that has a greater mass than the planet mars
|
earth
|
mars is a kind of planet & earth is a kind of planet & earth is greater in mass than mars -> earth is a <mask> that has a greater mass than the planet mars
|
planet
|
mars is a kind of planet & earth is a kind of planet & earth is greater in mass than mars -> earth is a planet that has a greater <mask> than the planet mars
|
mass
|
mars is a kind of planet & earth is a kind of planet & earth is greater in mass than mars -> earth is a planet that has a greater mass than the <mask> mars
|
planet
|
mars is a kind of planet & earth is a kind of planet & earth is greater in mass than mars -> earth is a planet that has a greater mass than the planet <mask>
|
mars
|
earth is a planet that has a greater mass than the planet mars & as mass of a planet increases , the force of gravity on that planet will increase -> the <mask> of gravity on earth will be greater than on mars
|
force
|
earth is a planet that has a greater mass than the planet mars & as mass of a planet increases , the force of gravity on that planet will increase -> the force of <mask> on earth will be greater than on mars
|
gravity
|
earth is a planet that has a greater mass than the planet mars & as mass of a planet increases , the force of gravity on that planet will increase -> the force of gravity on <mask> will be greater than on mars
|
earth
|
earth is a planet that has a greater mass than the planet mars & as mass of a planet increases , the force of gravity on that planet will increase -> the force of gravity on earth will be greater than on <mask>
|
mars
|
the force of gravity on earth will be greater than on mars & as the force of gravity decreases , the weight of the object will decrease -> <mask> will weigh less on mars than on earth because the force of gravity is less on mars
|
objects
|
the force of gravity on earth will be greater than on mars & as the force of gravity decreases , the weight of the object will decrease -> objects will <mask> less on mars than on earth because the force of gravity is less on mars
|
weigh
|
the force of gravity on earth will be greater than on mars & as the force of gravity decreases , the weight of the object will decrease -> objects will weigh <mask> on mars than on earth because the force of gravity is less on mars
|
less
|
the force of gravity on earth will be greater than on mars & as the force of gravity decreases , the weight of the object will decrease -> objects will weigh less on <mask> than on earth because the force of gravity is less on mars
|
mars
|
the force of gravity on earth will be greater than on mars & as the force of gravity decreases , the weight of the object will decrease -> objects will weigh less on mars than on <mask> because the force of gravity is less on mars
|
earth
|
the force of gravity on earth will be greater than on mars & as the force of gravity decreases , the weight of the object will decrease -> objects will weigh less on mars than on earth because the <mask> of gravity is less on mars
|
force
|
the force of gravity on earth will be greater than on mars & as the force of gravity decreases , the weight of the object will decrease -> objects will weigh less on mars than on earth because the force of <mask> is less on mars
|
gravity
|
the force of gravity on earth will be greater than on mars & as the force of gravity decreases , the weight of the object will decrease -> objects will weigh less on mars than on earth because the force of gravity is <mask> on mars
|
less
|
the force of gravity on earth will be greater than on mars & as the force of gravity decreases , the weight of the object will decrease -> objects will weigh less on mars than on earth because the force of gravity is less on <mask>
|
mars
|
the force of gravity on earth will be greater than on mars & gravitational force is similar to force of gravity & the gravitational force of a planet does not change the mass of an object on that planet or celestial body -> <mask> will have the same mass on earth and on mars
|
objects
|
the force of gravity on earth will be greater than on mars & gravitational force is similar to force of gravity & the gravitational force of a planet does not change the mass of an object on that planet or celestial body -> objects will have the same <mask> on earth and on mars
|
mass
|
the force of gravity on earth will be greater than on mars & gravitational force is similar to force of gravity & the gravitational force of a planet does not change the mass of an object on that planet or celestial body -> objects will have the same mass on <mask> and on mars
|
earth
|
the force of gravity on earth will be greater than on mars & gravitational force is similar to force of gravity & the gravitational force of a planet does not change the mass of an object on that planet or celestial body -> objects will have the same mass on earth and on <mask>
|
mars
|
objects will weigh less on mars than on earth because the force of gravity is less on mars & objects will have the same mass on earth and on mars -> <mask> will weigh less and have the same mass on mars than on earth
|
objects
|
objects will weigh less on mars than on earth because the force of gravity is less on mars & objects will have the same mass on earth and on mars -> objects will <mask> less and have the same mass on mars than on earth
|
weigh
|
objects will weigh less on mars than on earth because the force of gravity is less on mars & objects will have the same mass on earth and on mars -> objects will weigh <mask> and have the same mass on mars than on earth
|
less
|
objects will weigh less on mars than on earth because the force of gravity is less on mars & objects will have the same mass on earth and on mars -> objects will weigh less and have the same <mask> on mars than on earth
|
mass
|
objects will weigh less on mars than on earth because the force of gravity is less on mars & objects will have the same mass on earth and on mars -> objects will weigh less and have the same mass on <mask> than on earth
|
mars
|
objects will weigh less on mars than on earth because the force of gravity is less on mars & objects will have the same mass on earth and on mars -> objects will weigh less and have the same mass on mars than on <mask>
|
earth
|
the mars rover is a kind of vehicle & a vehicle is a kind of object -> the <mask> rover is a kind of object
|
mars
|
the mars rover is a kind of vehicle & a vehicle is a kind of object -> the mars <mask> is a kind of object
|
rover
|
the mars rover is a kind of vehicle & a vehicle is a kind of object -> the mars rover is a <mask> of object
|
kind
|
the mars rover is a kind of vehicle & a vehicle is a kind of object -> the mars rover is a kind of <mask>
|
object
|
objects will weigh less and have the same mass on mars than on earth & the mars rover is a kind of object -> the <mask> rover will weigh less and have the same mass on mars than on earth
|
mars
|
objects will weigh less and have the same mass on mars than on earth & the mars rover is a kind of object -> the mars <mask> will weigh less and have the same mass on mars than on earth
|
rover
|
objects will weigh less and have the same mass on mars than on earth & the mars rover is a kind of object -> the mars rover will <mask> less and have the same mass on mars than on earth
|
weigh
|
objects will weigh less and have the same mass on mars than on earth & the mars rover is a kind of object -> the mars rover will weigh <mask> and have the same mass on mars than on earth
|
less
|
objects will weigh less and have the same mass on mars than on earth & the mars rover is a kind of object -> the mars rover will weigh less and have the same <mask> on mars than on earth
|
mass
|
objects will weigh less and have the same mass on mars than on earth & the mars rover is a kind of object -> the mars rover will weigh less and have the same mass on <mask> than on earth
|
mars
|
objects will weigh less and have the same mass on mars than on earth & the mars rover is a kind of object -> the mars rover will weigh less and have the same mass on mars than on <mask>
|
earth
|
the gravitational force of a celestial object does not change the mass of an object on that planet or celestial body & as the mass of a celestial object decreases , the surface gravity of that celestial object weakens -> as the <mask> of celestial object decreases, the mass of the object on the celestial object will stay the same
|
mass
|
the gravitational force of a celestial object does not change the mass of an object on that planet or celestial body & as the mass of a celestial object decreases , the surface gravity of that celestial object weakens -> as the mass of celestial <mask> decreases, the mass of the object on the celestial object will stay the same
|
object
|
the gravitational force of a celestial object does not change the mass of an object on that planet or celestial body & as the mass of a celestial object decreases , the surface gravity of that celestial object weakens -> as the mass of celestial object decreases, the <mask> of the object on the celestial object will stay the same
|
mass
|
the gravitational force of a celestial object does not change the mass of an object on that planet or celestial body & as the mass of a celestial object decreases , the surface gravity of that celestial object weakens -> as the mass of celestial object decreases, the mass of the <mask> on the celestial object will stay the same
|
object
|
the gravitational force of a celestial object does not change the mass of an object on that planet or celestial body & as the mass of a celestial object decreases , the surface gravity of that celestial object weakens -> as the mass of celestial object decreases, the mass of the object on the celestial <mask> will stay the same
|
object
|
the gravitational force of a celestial object does not change the mass of an object on that planet or celestial body & as the mass of a celestial object decreases , the surface gravity of that celestial object weakens -> as the mass of celestial object decreases, the mass of the object on the celestial object will <mask> the same
|
stay
|
as the mass of a celestial object decreases , the surface gravity of that celestial object weakens & as the force of gravity decreases , the weight of the object will decrease -> as the <mask> of a celestial object decreases, the weight of an object on that celestial object will decrease
|
mass
|
as the mass of a celestial object decreases , the surface gravity of that celestial object weakens & as the force of gravity decreases , the weight of the object will decrease -> as the mass of a celestial <mask> decreases, the weight of an object on that celestial object will decrease
|
object
|
as the mass of a celestial object decreases , the surface gravity of that celestial object weakens & as the force of gravity decreases , the weight of the object will decrease -> as the mass of a celestial object decreases, the <mask> of an object on that celestial object will decrease
|
weight
|
as the mass of a celestial object decreases , the surface gravity of that celestial object weakens & as the force of gravity decreases , the weight of the object will decrease -> as the mass of a celestial object decreases, the weight of an <mask> on that celestial object will decrease
|
object
|
as the mass of a celestial object decreases , the surface gravity of that celestial object weakens & as the force of gravity decreases , the weight of the object will decrease -> as the mass of a celestial object decreases, the weight of an object on that celestial <mask> will decrease
|
object
|
as the mass of a celestial object decreases , the surface gravity of that celestial object weakens & as the force of gravity decreases , the weight of the object will decrease -> as the mass of a celestial object decreases, the weight of an object on that celestial object will <mask>
|
decrease
|
the earth has more mass than the moon & a moon is a kind of celestial object & earth is a kind of celestial object -> <mask> as a celestial object has more mass than the moon as a celestial object
|
earth
|
the earth has more mass than the moon & a moon is a kind of celestial object & earth is a kind of celestial object -> earth as a celestial <mask> has more mass than the moon as a celestial object
|
object
|
the earth has more mass than the moon & a moon is a kind of celestial object & earth is a kind of celestial object -> earth as a celestial object has more <mask> than the moon as a celestial object
|
mass
|
the earth has more mass than the moon & a moon is a kind of celestial object & earth is a kind of celestial object -> earth as a celestial object has more mass than the <mask> as a celestial object
|
moon
|
the earth has more mass than the moon & a moon is a kind of celestial object & earth is a kind of celestial object -> earth as a celestial object has more mass than the moon as a celestial <mask>
|
object
|
earth as a celestial object has more mass than the moon as a celestial object & less is the opposite of more -> the <mask> as a celestial object has less mass than earth as a celestial object
|
moon
|
earth as a celestial object has more mass than the moon as a celestial object & less is the opposite of more -> the moon as a celestial <mask> has less mass than earth as a celestial object
|
object
|
earth as a celestial object has more mass than the moon as a celestial object & less is the opposite of more -> the moon as a celestial object has <mask> mass than earth as a celestial object
|
less
|
earth as a celestial object has more mass than the moon as a celestial object & less is the opposite of more -> the moon as a celestial object has less <mask> than earth as a celestial object
|
mass
|
earth as a celestial object has more mass than the moon as a celestial object & less is the opposite of more -> the moon as a celestial object has less mass than <mask> as a celestial object
|
earth
|
earth as a celestial object has more mass than the moon as a celestial object & less is the opposite of more -> the moon as a celestial object has less mass than earth as a celestial <mask>
|
object
|
as the mass of celestial object decreases, the mass of the object on the celestial object will stay the same & as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the moon as a celestial object has less mass than earth as a celestial object -> an <mask> will weigh less but have the same mass on the moon than on earth
|
object
|
as the mass of celestial object decreases, the mass of the object on the celestial object will stay the same & as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the moon as a celestial object has less mass than earth as a celestial object -> an object will <mask> less but have the same mass on the moon than on earth
|
weigh
|
as the mass of celestial object decreases, the mass of the object on the celestial object will stay the same & as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the moon as a celestial object has less mass than earth as a celestial object -> an object will weigh <mask> but have the same mass on the moon than on earth
|
less
|
as the mass of celestial object decreases, the mass of the object on the celestial object will stay the same & as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the moon as a celestial object has less mass than earth as a celestial object -> an object will weigh less but have the same <mask> on the moon than on earth
|
mass
|
as the mass of celestial object decreases, the mass of the object on the celestial object will stay the same & as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the moon as a celestial object has less mass than earth as a celestial object -> an object will weigh less but have the same mass on the <mask> than on earth
|
moon
|
as the mass of celestial object decreases, the mass of the object on the celestial object will stay the same & as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the moon as a celestial object has less mass than earth as a celestial object -> an object will weigh less but have the same mass on the moon than on <mask>
|
earth
|
an object will weigh less but have the same mass on the moon than on earth & a rocket is a kind of object -> the <mask> will weigh less but have the same mass on the moon than on earth
|
rocket
|
an object will weigh less but have the same mass on the moon than on earth & a rocket is a kind of object -> the rocket will <mask> less but have the same mass on the moon than on earth
|
weigh
|
an object will weigh less but have the same mass on the moon than on earth & a rocket is a kind of object -> the rocket will weigh <mask> but have the same mass on the moon than on earth
|
less
|
an object will weigh less but have the same mass on the moon than on earth & a rocket is a kind of object -> the rocket will weigh less but have the same <mask> on the moon than on earth
|
mass
|
an object will weigh less but have the same mass on the moon than on earth & a rocket is a kind of object -> the rocket will weigh less but have the same mass on the <mask> than on earth
|
moon
|
an object will weigh less but have the same mass on the moon than on earth & a rocket is a kind of object -> the rocket will weigh less but have the same mass on the moon than on <mask>
|
earth
|
as the force of gravity decreases , the weight of the object will decrease & as the mass of a celestial object decreases , the surface gravity of that celestial object weakens -> as the <mask> of a celestial object decreases, the weight of an object on that celestial object will decrease
|
mass
|
as the force of gravity decreases , the weight of the object will decrease & as the mass of a celestial object decreases , the surface gravity of that celestial object weakens -> as the mass of a celestial <mask> decreases, the weight of an object on that celestial object will decrease
|
object
|
as the force of gravity decreases , the weight of the object will decrease & as the mass of a celestial object decreases , the surface gravity of that celestial object weakens -> as the mass of a celestial object decreases, the <mask> of an object on that celestial object will decrease
|
weight
|
as the force of gravity decreases , the weight of the object will decrease & as the mass of a celestial object decreases , the surface gravity of that celestial object weakens -> as the mass of a celestial object decreases, the weight of an <mask> on that celestial object will decrease
|
object
|
as the force of gravity decreases , the weight of the object will decrease & as the mass of a celestial object decreases , the surface gravity of that celestial object weakens -> as the mass of a celestial object decreases, the weight of an object on that celestial <mask> will decrease
|
object
|
as the force of gravity decreases , the weight of the object will decrease & as the mass of a celestial object decreases , the surface gravity of that celestial object weakens -> as the mass of a celestial object decreases, the weight of an object on that celestial object will <mask>
|
decrease
|
as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the earth has more mass than the moon -> an <mask> weighs more on earth than on the moon because earth has more mass than the moon
|
object
|
as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the earth has more mass than the moon -> an object <mask> more on earth than on the moon because earth has more mass than the moon
|
weighs
|
as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the earth has more mass than the moon -> an object weighs more on <mask> than on the moon because earth has more mass than the moon
|
earth
|
as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the earth has more mass than the moon -> an object weighs more on earth than on the <mask> because earth has more mass than the moon
|
moon
|
as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the earth has more mass than the moon -> an object weighs more on earth than on the moon because <mask> has more mass than the moon
|
earth
|
as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the earth has more mass than the moon -> an object weighs more on earth than on the moon because earth has more <mask> than the moon
|
mass
|
as the mass of a celestial object decreases, the weight of an object on that celestial object will decrease & the earth has more mass than the moon -> an object weighs more on earth than on the moon because earth has more mass than the <mask>
|
moon
|
an object weighs more on earth than on the moon because earth has more mass than the moon & less is the opposite of more -> an <mask> will weigh less on the moon than on the earth because the moon has less mass than the earth
|
object
|
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.