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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 |