-- barometric pressure
-- temperature
-- cloudiness
-- relative humidity
-- consecutive hours of daylight
-- distance to the visual horizon
-- average annual snowfall/rainfall
-- weight of anything
-- number of visible stars in daytime
-- number of visible stars any time
-- gradient of temperature within 1 kilometer of the surface
-- average level of ambient noise
-- gradient of optical refractivity within 100 meters of the surface
-- total population
-- population density
-- distance to the nearest river
-- walking distance to nearest synagogue
-- distance to the nearest bus-stop
-- distance to nearest Starbuck's/MacDonald's/KFC
weight
Your mass is the amount of matter that contains, it is your weight that will differ due to gravity. The astronaut still has the same amount of matter whether he be on earth, in space, or on the moon, though due to the different strenghts of gravity he will weight the most on earth, 1/6th of this on the moon, and be weightless in outer space.
Sunlight is more dangerous in outer space than on Earth because there is no matter in space, unlike on Earth, so sunlight just passes through the emptiness of space and shines in all directions. When light passes through matter, it takes longer for the light to pass through it to reach something. In space, it only takes 8 minutes for sunlight to reach Earth's surface. The speed of light also depends on what type of matter the light is going through.the sun is more hotter in space than the earth
The Earth's gravitational force keeps it from moving away into outer space. (* Gravity is a mutual force of attraction between matter, so the Earth pulls on the Moon while the Moon pulls on the Earth.)
inner
Earth loses heat energy to outer space mainly by radiation.
weight.
The outer part of the earth is the crust
Liquid
Liquid
Liquid
Liquid
The outer part of the earth is the crust
they have different proporties. such as thickness
Space is different from earth because space has no gravitation, earth has gravitation
Other planets do not have water nor life
Earth's lithosphere, its rigid outer shell, generally represents the solid state of matter.
Your mass is the amount of matter that contains, it is your weight that will differ due to gravity. The astronaut still has the same amount of matter whether he be on earth, in space, or on the moon, though due to the different strenghts of gravity he will weight the most on earth, 1/6th of this on the moon, and be weightless in outer space.