step stringlengths 61 449 | label stringlengths 1 15 |
|---|---|
nuclear fusion happens in the core of the sun & the core is a kind of layer of the sun -> nuclear <mask> happens in the core layer of the sun | fusion |
nuclear fusion happens in the core of the sun & the core is a kind of layer of the sun -> nuclear fusion <mask> in the core layer of the sun | happens |
nuclear fusion happens in the core of the sun & the core is a kind of layer of the sun -> nuclear fusion happens in the <mask> layer of the sun | core |
nuclear fusion happens in the core of the sun & the core is a kind of layer of the sun -> nuclear fusion happens in the core <mask> of the sun | layer |
nuclear fusion happens in the core of the sun & the core is a kind of layer of the sun -> nuclear fusion happens in the core layer of the <mask> | sun |
blue stars are the hottest in temperature & blue is a kind of color -> <mask> that are blue in color are hottest in temperature | stars |
blue stars are the hottest in temperature & blue is a kind of color -> stars that are <mask> in color are hottest in temperature | blue |
blue stars are the hottest in temperature & blue is a kind of color -> stars that are blue in <mask> are hottest in temperature | color |
blue stars are the hottest in temperature & blue is a kind of color -> stars that are blue in color are hottest in <mask> | temperature |
earth is a kind of planet & the mass of a planet causes the pull of gravity on that planet -> the <mask> of the earth causes the pull of gravity on earth | mass |
earth is a kind of planet & the mass of a planet causes the pull of gravity on that planet -> the mass of the <mask> causes the pull of gravity on earth | earth |
earth is a kind of planet & the mass of a planet causes the pull of gravity on that planet -> the mass of the earth <mask> the pull of gravity on earth | causes |
earth is a kind of planet & the mass of a planet causes the pull of gravity on that planet -> the mass of the earth causes the <mask> of gravity on earth | pull |
earth is a kind of planet & the mass of a planet causes the pull of gravity on that planet -> the mass of the earth causes the pull of <mask> on earth | gravity |
earth is a kind of planet & the mass of a planet causes the pull of gravity on that planet -> the mass of the earth causes the pull of gravity on <mask> | earth |
a solid object is taken from earth into space & the force of gravity is different in space from the force of gravity on earth -> the <mask> of gravity on the solid object will change | force |
a solid object is taken from earth into space & the force of gravity is different in space from the force of gravity on earth -> the force of <mask> on the solid object will change | gravity |
a solid object is taken from earth into space & the force of gravity is different in space from the force of gravity on earth -> the force of gravity on the <mask> object will change | solid |
a solid object is taken from earth into space & the force of gravity is different in space from the force of gravity on earth -> the force of gravity on the solid <mask> will change | object |
a solid object is taken from earth into space & the force of gravity is different in space from the force of gravity on earth -> the force of gravity on the solid object will <mask> | change |
the force of gravity on the solid object will change & as the force of gravity changes , the weight of the object will change -> the <mask> of the solid object will change | weight |
the force of gravity on the solid object will change & as the force of gravity changes , the weight of the object will change -> the weight of the <mask> object will change | solid |
the force of gravity on the solid object will change & as the force of gravity changes , the weight of the object will change -> the weight of the solid <mask> will change | object |
the force of gravity on the solid object will change & as the force of gravity changes , the weight of the object will change -> the weight of the solid object will <mask> | change |
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 |
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 |
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 object will <mask> less on the moon than on the earth because the moon has less mass than the earth | weigh |
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 object will weigh <mask> on the moon than on the earth because the moon has less mass than the earth | less |
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 object will weigh less on the <mask> than on the earth because the moon has less mass than the earth | 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 object will weigh less on the moon than on the <mask> because the moon has less mass than the earth | earth |
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 object will weigh less on the moon than on the earth because the <mask> has less mass than the earth | 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 object will weigh less on the moon than on the earth because the moon has <mask> mass than the earth | less |
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 object will weigh less on the moon than on the earth because the moon has less <mask> than the earth | mass |
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 object will weigh less on the moon than on the earth because the moon has less mass than the <mask> | earth |
an object will weigh less on the moon than on the earth because the moon has less mass than the earth & a hammer is a kind of object -> a <mask> will weigh less on the moon than on earth becasue the moon has less mass than the earth | hammer |
an object will weigh less on the moon than on the earth because the moon has less mass than the earth & a hammer is a kind of object -> a hammer will <mask> less on the moon than on earth becasue the moon has less mass than the earth | weigh |
an object will weigh less on the moon than on the earth because the moon has less mass than the earth & a hammer is a kind of object -> a hammer will weigh <mask> on the moon than on earth becasue the moon has less mass than the earth | less |
an object will weigh less on the moon than on the earth because the moon has less mass than the earth & a hammer is a kind of object -> a hammer will weigh less on the <mask> than on earth becasue the moon has less mass than the earth | moon |
an object will weigh less on the moon than on the earth because the moon has less mass than the earth & a hammer is a kind of object -> a hammer will weigh less on the moon than on <mask> becasue the moon has less mass than the earth | earth |
an object will weigh less on the moon than on the earth because the moon has less mass than the earth & a hammer is a kind of object -> a hammer will weigh less on the moon than on earth becasue the <mask> has less mass than the earth | moon |
an object will weigh less on the moon than on the earth because the moon has less mass than the earth & a hammer is a kind of object -> a hammer will weigh less on the moon than on earth becasue the moon has <mask> mass than the earth | less |
an object will weigh less on the moon than on the earth because the moon has less mass than the earth & a hammer is a kind of object -> a hammer will weigh less on the moon than on earth becasue the moon has less <mask> than the earth | mass |
an object will weigh less on the moon than on the earth because the moon has less mass than the earth & a hammer is a kind of object -> a hammer will weigh less on the moon than on earth becasue the moon has less mass than the <mask> | earth |
a rocket is a kind of object & the rocket escapes the gravitational pull of earth & earth is a kind of planet -> the <mask> escaping the gravitational pull of earth is an example of an object escaping the gravitational pull of a planet | rocket |
a rocket is a kind of object & the rocket escapes the gravitational pull of earth & earth is a kind of planet -> the rocket <mask> the gravitational pull of earth is an example of an object escaping the gravitational pull of a planet | escaping |
a rocket is a kind of object & the rocket escapes the gravitational pull of earth & earth is a kind of planet -> the rocket escaping the gravitational <mask> of earth is an example of an object escaping the gravitational pull of a planet | pull |
a rocket is a kind of object & the rocket escapes the gravitational pull of earth & earth is a kind of planet -> the rocket escaping the gravitational pull of <mask> is an example of an object escaping the gravitational pull of a planet | earth |
a rocket is a kind of object & the rocket escapes the gravitational pull of earth & earth is a kind of planet -> the rocket escaping the gravitational pull of earth is an <mask> of an object escaping the gravitational pull of a planet | example |
a rocket is a kind of object & the rocket escapes the gravitational pull of earth & earth is a kind of planet -> the rocket escaping the gravitational pull of earth is an example of an <mask> escaping the gravitational pull of a planet | object |
a rocket is a kind of object & the rocket escapes the gravitational pull of earth & earth is a kind of planet -> the rocket escaping the gravitational pull of earth is an example of an object <mask> the gravitational pull of a planet | escaping |
a rocket is a kind of object & the rocket escapes the gravitational pull of earth & earth is a kind of planet -> the rocket escaping the gravitational pull of earth is an example of an object escaping the gravitational <mask> of a planet | pull |
a rocket is a kind of object & the rocket escapes the gravitational pull of earth & earth is a kind of planet -> the rocket escaping the gravitational pull of earth is an example of an object escaping the gravitational pull of a <mask> | planet |
the rocket escaping the gravitational pull of earth is an example of an object escaping the gravitational pull of a planet & if an object escapes the gravitational pull of a planet, then the force of gravity on that object will change -> the <mask> of gravity on the rocket changes when it escapes the gravitational pu... | force |
the rocket escaping the gravitational pull of earth is an example of an object escaping the gravitational pull of a planet & if an object escapes the gravitational pull of a planet, then the force of gravity on that object will change -> the force of <mask> on the rocket changes when it escapes the gravitational pull... | gravity |
the rocket escaping the gravitational pull of earth is an example of an object escaping the gravitational pull of a planet & if an object escapes the gravitational pull of a planet, then the force of gravity on that object will change -> the force of gravity on the <mask> changes when it escapes the gravitational pul... | rocket |
the rocket escaping the gravitational pull of earth is an example of an object escaping the gravitational pull of a planet & if an object escapes the gravitational pull of a planet, then the force of gravity on that object will change -> the force of gravity on the rocket <mask> when it escapes the gravitational pull... | changes |
the rocket escaping the gravitational pull of earth is an example of an object escaping the gravitational pull of a planet & if an object escapes the gravitational pull of a planet, then the force of gravity on that object will change -> the force of gravity on the rocket changes when it <mask> the gravitational pull... | escapes |
the rocket escaping the gravitational pull of earth is an example of an object escaping the gravitational pull of a planet & if an object escapes the gravitational pull of a planet, then the force of gravity on that object will change -> the force of gravity on the rocket changes when it escapes the gravitational <ma... | pull |
the rocket escaping the gravitational pull of earth is an example of an object escaping the gravitational pull of a planet & if an object escapes the gravitational pull of a planet, then the force of gravity on that object will change -> the force of gravity on the rocket changes when it escapes the gravitational pul... | earth |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the mass of the object will stay the same -> the <mask> of the rocket will stay the same after the rocket escapes the gravitational pull of earth | mass |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the mass of the object will stay the same -> the mass of the <mask> will stay the same after the rocket escapes the gravitational pull of earth | rocket |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the mass of the object will stay the same -> the mass of the rocket will <mask> the same after the rocket escapes the gravitational pull of earth | stay |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the mass of the object will stay the same -> the mass of the rocket will stay the same after the <mask> escapes the gravitational pull of earth | rocket |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the mass of the object will stay the same -> the mass of the rocket will stay the same after the rocket <mask> the gravitational pull of earth | escapes |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the mass of the object will stay the same -> the mass of the rocket will stay the same after the rocket escapes the gravitational <mask> of earth | pull |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the mass of the object will stay the same -> the mass of the rocket will stay the same after the rocket escapes the gravitational pull of <mask> | earth |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the weight of the object will change -> the <mask> of the rocket will change after the rocket escapes the gravitational pull of earth | weight |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the weight of the object will change -> the weight of the <mask> will change after the rocket escapes the gravitational pull of earth | rocket |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the weight of the object will change -> the weight of the rocket will <mask> after the rocket escapes the gravitational pull of earth | change |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the weight of the object will change -> the weight of the rocket will change after the <mask> escapes the gravitational pull of earth | rocket |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the weight of the object will change -> the weight of the rocket will change after the rocket <mask> the gravitational pull of earth | escapes |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the weight of the object will change -> the weight of the rocket will change after the rocket escapes the gravitational <mask> of earth | pull |
the force of gravity on the rocket changes when it escapes the gravitational pull of earth & as the force of gravity changes , the weight of the object will change -> the weight of the rocket will change after the rocket escapes the gravitational pull of <mask> | earth |
the mass of the rocket will stay the same after the rocket escapes the gravitational pull of earth & the weight of the rocket will change after the rocket escapes the gravitational pull of earth -> the <mask> of the rocket will stay the same and the weight of the rocket will change after the rocket escapes the gravit... | mass |
the mass of the rocket will stay the same after the rocket escapes the gravitational pull of earth & the weight of the rocket will change after the rocket escapes the gravitational pull of earth -> the mass of the <mask> will stay the same and the weight of the rocket will change after the rocket escapes the gravitat... | rocket |
the mass of the rocket will stay the same after the rocket escapes the gravitational pull of earth & the weight of the rocket will change after the rocket escapes the gravitational pull of earth -> the mass of the rocket will <mask> the same and the weight of the rocket will change after the rocket escapes the gravit... | stay |
the mass of the rocket will stay the same after the rocket escapes the gravitational pull of earth & the weight of the rocket will change after the rocket escapes the gravitational pull of earth -> the mass of the rocket will stay the same and the <mask> of the rocket will change after the rocket escapes the gravitat... | weight |
the mass of the rocket will stay the same after the rocket escapes the gravitational pull of earth & the weight of the rocket will change after the rocket escapes the gravitational pull of earth -> the mass of the rocket will stay the same and the weight of the <mask> will change after the rocket escapes the gravitat... | rocket |
the mass of the rocket will stay the same after the rocket escapes the gravitational pull of earth & the weight of the rocket will change after the rocket escapes the gravitational pull of earth -> the mass of the rocket will stay the same and the weight of the rocket will <mask> after the rocket escapes the gravitat... | change |
the mass of the rocket will stay the same after the rocket escapes the gravitational pull of earth & the weight of the rocket will change after the rocket escapes the gravitational pull of earth -> the mass of the rocket will stay the same and the weight of the rocket will change after the <mask> escapes the gravitat... | rocket |
the mass of the rocket will stay the same after the rocket escapes the gravitational pull of earth & the weight of the rocket will change after the rocket escapes the gravitational pull of earth -> the mass of the rocket will stay the same and the weight of the rocket will change after the rocket <mask> the gravitati... | escapes |
the mass of the rocket will stay the same after the rocket escapes the gravitational pull of earth & the weight of the rocket will change after the rocket escapes the gravitational pull of earth -> the mass of the rocket will stay the same and the weight of the rocket will change after the rocket escapes the gravitat... | pull |
the mass of the rocket will stay the same after the rocket escapes the gravitational pull of earth & the weight of the rocket will change after the rocket escapes the gravitational pull of earth -> the mass of the rocket will stay the same and the weight of the rocket will change after the rocket escapes the gravitat... | earth |
earth is a kind of planet & mars 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 |
earth is a kind of planet & mars 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 |
earth is a kind of planet & mars 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 |
earth is a kind of planet & mars 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 |
earth is a kind of planet & mars 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 |
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