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the northern hemisphere is a kind of hemisphere of earth & a hemisphere of earth is a kind of place -> the <mask> hemisphere is a kind of place
northern
the northern hemisphere is a kind of hemisphere of earth & a hemisphere of earth is a kind of place -> the northern <mask> is a kind of place
hemisphere
the northern hemisphere is a kind of hemisphere of earth & a hemisphere of earth is a kind of place -> the northern hemisphere is a <mask> of place
kind
the northern hemisphere is a kind of hemisphere of earth & a hemisphere of earth is a kind of place -> the northern hemisphere is a kind of <mask>
place
the northern hemisphere is a kind of place & if a place is in summer, then it will have the most sunlight -> <mask> hemisphere will have the most sunlight in summer
northern
the northern hemisphere is a kind of place & if a place is in summer, then it will have the most sunlight -> northern <mask> will have the most sunlight in summer
hemisphere
the northern hemisphere is a kind of place & if a place is in summer, then it will have the most sunlight -> northern hemisphere will have the most <mask> in summer
sunlight
the northern hemisphere is a kind of place & if a place is in summer, then it will have the most sunlight -> northern hemisphere will have the most sunlight in <mask>
summer
the sun is a kind of star & the earth revolves around the sun & earth is a kind of planet -> the <mask> revolving around the sun is an example of a planet revolving around its star
earth
the sun is a kind of star & the earth revolves around the sun & earth is a kind of planet -> the earth <mask> around the sun is an example of a planet revolving around its star
revolving
the sun is a kind of star & the earth revolves around the sun & earth is a kind of planet -> the earth revolving around the <mask> is an example of a planet revolving around its star
sun
the sun is a kind of star & the earth revolves around the sun & earth is a kind of planet -> the earth revolving around the sun is an <mask> of a planet revolving around its star
example
the sun is a kind of star & the earth revolves around the sun & earth is a kind of planet -> the earth revolving around the sun is an example of a <mask> revolving around its star
planet
the sun is a kind of star & the earth revolves around the sun & earth is a kind of planet -> the earth revolving around the sun is an example of a planet <mask> around its star
revolving
the sun is a kind of star & the earth revolves around the sun & earth is a kind of planet -> the earth revolving around the sun is an example of a planet revolving around its <mask>
star
the earth revolving around the sun is an example of a planet revolving around its star & a complete revolution / orbit of a planet around its star takes 1 / one planetary year -> a <mask> revolution of the earth around the sun will take one earth year
complete
the earth revolving around the sun is an example of a planet revolving around its star & a complete revolution / orbit of a planet around its star takes 1 / one planetary year -> a complete <mask> of the earth around the sun will take one earth year
revolution
the earth revolving around the sun is an example of a planet revolving around its star & a complete revolution / orbit of a planet around its star takes 1 / one planetary year -> a complete revolution of the <mask> around the sun will take one earth year
earth
the earth revolving around the sun is an example of a planet revolving around its star & a complete revolution / orbit of a planet around its star takes 1 / one planetary year -> a complete revolution of the earth around the <mask> will take one earth year
sun
the earth revolving around the sun is an example of a planet revolving around its star & a complete revolution / orbit of a planet around its star takes 1 / one planetary year -> a complete revolution of the earth around the sun will <mask> one earth year
take
the earth revolving around the sun is an example of a planet revolving around its star & a complete revolution / orbit of a planet around its star takes 1 / one planetary year -> a complete revolution of the earth around the sun will take <mask> earth year
one
the earth revolving around the sun is an example of a planet revolving around its star & a complete revolution / orbit of a planet around its star takes 1 / one planetary year -> a complete revolution of the earth around the sun will take one <mask> year
earth
the earth revolving around the sun is an example of a planet revolving around its star & a complete revolution / orbit of a planet around its star takes 1 / one planetary year -> a complete revolution of the earth around the sun will take one earth <mask>
year
a complete revolution / orbit of the moon around the earth takes 1 / one month & 1 month is equal to 28-31 days -> a <mask> revolution of the moon around the earth takes 28 to 31 days
complete
a complete revolution / orbit of the moon around the earth takes 1 / one month & 1 month is equal to 28-31 days -> a complete <mask> of the moon around the earth takes 28 to 31 days
revolution
a complete revolution / orbit of the moon around the earth takes 1 / one month & 1 month is equal to 28-31 days -> a complete revolution of the <mask> around the earth takes 28 to 31 days
moon
a complete revolution / orbit of the moon around the earth takes 1 / one month & 1 month is equal to 28-31 days -> a complete revolution of the moon around the <mask> takes 28 to 31 days
earth
a complete revolution / orbit of the moon around the earth takes 1 / one month & 1 month is equal to 28-31 days -> a complete revolution of the moon around the earth <mask> 28 to 31 days
takes
a complete revolution / orbit of the moon around the earth takes 1 / one month & 1 month is equal to 28-31 days -> a complete revolution of the moon around the earth takes <mask> to 31 days
28
a complete revolution / orbit of the moon around the earth takes 1 / one month & 1 month is equal to 28-31 days -> a complete revolution of the moon around the earth takes 28 to 31 <mask>
days
as distance from an object decreases , the pull of gravity on that object increases & the moon is the celestial object that is closer to the earth than the sun -> the <mask> pull from the moon on earth is greater than the sun on earth
gravity
as distance from an object decreases , the pull of gravity on that object increases & the moon is the celestial object that is closer to the earth than the sun -> the gravity <mask> from the moon on earth is greater than the sun on earth
pull
as distance from an object decreases , the pull of gravity on that object increases & the moon is the celestial object that is closer to the earth than the sun -> the gravity pull from the <mask> on earth is greater than the sun on earth
moon
as distance from an object decreases , the pull of gravity on that object increases & the moon is the celestial object that is closer to the earth than the sun -> the gravity pull from the moon on <mask> is greater than the sun on earth
earth
as distance from an object decreases , the pull of gravity on that object increases & the moon is the celestial object that is closer to the earth than the sun -> the gravity pull from the moon on earth is greater than the <mask> on earth
sun
as distance from an object decreases , the pull of gravity on that object increases & the moon is the celestial object that is closer to the earth than the sun -> the gravity pull from the moon on earth is greater than the sun on <mask>
earth
the gravity pull from the moon on earth is greater than the sun on earth & the cause of something affects that something & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational <mask> of the moon on earth affects the tides more than the gravitational pull of the sun
pull
the gravity pull from the moon on earth is greater than the sun on earth & the cause of something affects that something & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational pull of the <mask> on earth affects the tides more than the gravitational pull of the sun
moon
the gravity pull from the moon on earth is greater than the sun on earth & the cause of something affects that something & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational pull of the moon on <mask> affects the tides more than the gravitational pull of the sun
earth
the gravity pull from the moon on earth is greater than the sun on earth & the cause of something affects that something & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational pull of the moon on earth <mask> the tides more than the gravitational pull of the sun
affects
the gravity pull from the moon on earth is greater than the sun on earth & the cause of something affects that something & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational pull of the moon on earth affects the <mask> more than the gravitational pull of the sun
tides
the gravity pull from the moon on earth is greater than the sun on earth & the cause of something affects that something & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational pull of the moon on earth affects the tides more than the gravitational <mask> of the sun
pull
the gravity pull from the moon on earth is greater than the sun on earth & the cause of something affects that something & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational pull of the moon on earth affects the tides more than the gravitational pull of the <mask>
sun
as distance from an object decreases , the pull of gravity on that object increases & the moon is the celestial object that is closer to the earth than the sun -> the <mask> pull from the moon on earth is greater than the sun on earth
gravity
as distance from an object decreases , the pull of gravity on that object increases & the moon is the celestial object that is closer to the earth than the sun -> the gravity <mask> from the moon on earth is greater than the sun on earth
pull
as distance from an object decreases , the pull of gravity on that object increases & the moon is the celestial object that is closer to the earth than the sun -> the gravity pull from the <mask> on earth is greater than the sun on earth
moon
as distance from an object decreases , the pull of gravity on that object increases & the moon is the celestial object that is closer to the earth than the sun -> the gravity pull from the moon on <mask> is greater than the sun on earth
earth
as distance from an object decreases , the pull of gravity on that object increases & the moon is the celestial object that is closer to the earth than the sun -> the gravity pull from the moon on earth is greater than the <mask> on earth
sun
as distance from an object decreases , the pull of gravity on that object increases & the moon is the celestial object that is closer to the earth than the sun -> the gravity pull from the moon on earth is greater than the sun on <mask>
earth
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational <mask> of the moon on earth affects the tides more than the gravitational pull of the sun
pull
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational pull of the <mask> on earth affects the tides more than the gravitational pull of the sun
moon
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational pull of the moon on <mask> affects the tides more than the gravitational pull of the sun
earth
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational pull of the moon on earth <mask> the tides more than the gravitational pull of the sun
affects
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational pull of the moon on earth affects the <mask> more than the gravitational pull of the sun
tides
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational pull of the moon on earth affects the tides more than the gravitational <mask> of the sun
pull
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the sun on earth 's oceans causes the tides & the gravitational pull of the moon on earth 's oceans causes the tides -> the gravitational pull of the moon on earth affects the tides more than the gravitational pull of the <mask>
sun
the moon is the celestial object that is closer to the earth than the sun & as distance from an object decreases , the pull of gravity on that object increases -> the <mask> pull from the moon on earth is greater than the sun on earth
gravity
the moon is the celestial object that is closer to the earth than the sun & as distance from an object decreases , the pull of gravity on that object increases -> the gravity <mask> from the moon on earth is greater than the sun on earth
pull
the moon is the celestial object that is closer to the earth than the sun & as distance from an object decreases , the pull of gravity on that object increases -> the gravity pull from the <mask> on earth is greater than the sun on earth
moon
the moon is the celestial object that is closer to the earth than the sun & as distance from an object decreases , the pull of gravity on that object increases -> the gravity pull from the moon on <mask> is greater than the sun on earth
earth
the moon is the celestial object that is closer to the earth than the sun & as distance from an object decreases , the pull of gravity on that object increases -> the gravity pull from the moon on earth is greater than the <mask> on earth
sun
the moon is the celestial object that is closer to the earth than the sun & as distance from an object decreases , the pull of gravity on that object increases -> the gravity pull from the moon on earth is greater than the sun on <mask>
earth
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the moon on earth 's oceans causes the tides & the gravitational pull of the sun on earth 's oceans causes the tides -> the gravitational <mask> of the moon on earth affects the tides more than the gravitational pull of the sun
pull
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the moon on earth 's oceans causes the tides & the gravitational pull of the sun on earth 's oceans causes the tides -> the gravitational pull of the <mask> on earth affects the tides more than the gravitational pull of the sun
moon
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the moon on earth 's oceans causes the tides & the gravitational pull of the sun on earth 's oceans causes the tides -> the gravitational pull of the moon on <mask> affects the tides more than the gravitational pull of the sun
earth
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the moon on earth 's oceans causes the tides & the gravitational pull of the sun on earth 's oceans causes the tides -> the gravitational pull of the moon on earth <mask> the tides more than the gravitational pull of the sun
affects
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the moon on earth 's oceans causes the tides & the gravitational pull of the sun on earth 's oceans causes the tides -> the gravitational pull of the moon on earth affects the <mask> more than the gravitational pull of the sun
tides
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the moon on earth 's oceans causes the tides & the gravitational pull of the sun on earth 's oceans causes the tides -> the gravitational pull of the moon on earth affects the tides more than the gravitational <mask> of the sun
pull
the gravity pull from the moon on earth is greater than the sun on earth & the gravitational pull of the moon on earth 's oceans causes the tides & the gravitational pull of the sun on earth 's oceans causes the tides -> the gravitational pull of the moon on earth affects the tides more than the gravitational pull of the <mask>
sun
stars are located light years apart from each other & light years ly are an astronomy unit used for measuring length / distance generally used for values between 1 and 27000000000 -> <mask> year is used to measure the distance between stars
light
stars are located light years apart from each other & light years ly are an astronomy unit used for measuring length / distance generally used for values between 1 and 27000000000 -> light <mask> is used to measure the distance between stars
year
stars are located light years apart from each other & light years ly are an astronomy unit used for measuring length / distance generally used for values between 1 and 27000000000 -> light year is <mask> to measure the distance between stars
used
stars are located light years apart from each other & light years ly are an astronomy unit used for measuring length / distance generally used for values between 1 and 27000000000 -> light year is used to <mask> the distance between stars
measure
stars are located light years apart from each other & light years ly are an astronomy unit used for measuring length / distance generally used for values between 1 and 27000000000 -> light year is used to measure the <mask> between stars
distance
stars are located light years apart from each other & light years ly are an astronomy unit used for measuring length / distance generally used for values between 1 and 27000000000 -> light year is used to measure the distance between <mask>
stars
the milky way is a kind of galaxy & a galaxy is made of stars -> the milky <mask> is made of stars
way
the milky way is a kind of galaxy & a galaxy is made of stars -> the milky way is <mask> of stars
made
the milky way is a kind of galaxy & a galaxy is made of stars -> the milky way is made of <mask>
stars
light year is used to measure the distance between stars & the milky way is made of stars -> <mask> year can be used to measure the distance between the stars in milky way
light
light year is used to measure the distance between stars & the milky way is made of stars -> light <mask> can be used to measure the distance between the stars in milky way
year
light year is used to measure the distance between stars & the milky way is made of stars -> light year can be <mask> to measure the distance between the stars in milky way
used
light year is used to measure the distance between stars & the milky way is made of stars -> light year can be used to <mask> the distance between the stars in milky way
measure
light year is used to measure the distance between stars & the milky way is made of stars -> light year can be used to measure the <mask> between the stars in milky way
distance
light year is used to measure the distance between stars & the milky way is made of stars -> light year can be used to measure the distance between the <mask> in milky way
stars
light year is used to measure the distance between stars & the milky way is made of stars -> light year can be used to measure the distance between the stars in milky <mask>
way
comets orbit the sun in the solar system & comet orbits are elliptical -> <mask> orbit the sun in an elliptiacal path
comets
comets orbit the sun in the solar system & comet orbits are elliptical -> comets <mask> the sun in an elliptiacal path
orbit
comets orbit the sun in the solar system & comet orbits are elliptical -> comets orbit the <mask> in an elliptiacal path
sun
comets orbit the sun in the solar system & comet orbits are elliptical -> comets orbit the sun in an elliptiacal <mask>
path
comets orbit the sun in an elliptiacal path & a comet is often made of ice -> <mask> is likely an object that is mainly made of ice and orbitting the sun in an elliptical path
comet
comets orbit the sun in an elliptiacal path & a comet is often made of ice -> comet is likely an <mask> that is mainly made of ice and orbitting the sun in an elliptical path
object
comets orbit the sun in an elliptiacal path & a comet is often made of ice -> comet is likely an object that is mainly <mask> of ice and orbitting the sun in an elliptical path
made
comets orbit the sun in an elliptiacal path & a comet is often made of ice -> comet is likely an object that is mainly made of <mask> and orbitting the sun in an elliptical path
ice
comets orbit the sun in an elliptiacal path & a comet is often made of ice -> comet is likely an object that is mainly made of ice and orbitting the <mask> in an elliptical path
sun
comets orbit the sun in an elliptiacal path & a comet is often made of ice -> comet is likely an object that is mainly made of ice and orbitting the sun in an elliptical <mask>
path
shape is a property of the appearance of an object & classifying means grouping objects / materials by their properties -> <mask> can be used to classify objects
shape
shape is a property of the appearance of an object & classifying means grouping objects / materials by their properties -> shape can be <mask> to classify objects
used
shape is a property of the appearance of an object & classifying means grouping objects / materials by their properties -> shape can be used to <mask> objects
classify
shape is a property of the appearance of an object & classifying means grouping objects / materials by their properties -> shape can be used to classify <mask>
objects
shape can be used to classify objects & a galaxy is a kind of celestial object -> <mask> can be classified by shape
galaxies

Dataset Card for "masked_step_label"

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