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Yes, it is a source of energy to almost every plant on Earth. Not to mention keeping water as a liquid and our planet warm enough for living things to use it to survive.
no, goldilocks is a zone around a star where a planet with appropriate atmospheric pressure can maintain the liquid water on its surface
liquid core
A star is a luminous ball of plasma held together by its own gravity and produce energy through thermonuclear fusion. A planet is a body orbiting a star massive enough to be rounded by its own gravity but not massive enough to conduct fusion.
It is a combination of kinetic energy, and potential energy. Kinetic energy is related to the planet's movement; and the farther away a planet is from the Sun, the greater its potential energy.
an gaseous and liquid part of a planet
Yes, it is a source of energy to almost every plant on Earth. Not to mention keeping water as a liquid and our planet warm enough for living things to use it to survive.
no, goldilocks is a zone around a star where a planet with appropriate atmospheric pressure can maintain the liquid water on its surface
Earth is the third planet in our solar system. Of all 8 planets, earth is the most unique in that it is the only planet with liquid water and the only known planet currently sustaining life. It is the largest planet before the asteroid belt and its atmosphere is a perfect enough distance away to maintain a liveable temperatures. Did you know that Saturn's moon, Titan, is the only known moon and planet-like body with liquid water? ~Apple Juice
The habitable zone is defined as the region in a star centered orbit where an Earth like planet can maintain liquid water on its surface.
Yes there is plenty of solar energy for every house on the planet.
A planet cannot become a star. A star is an object that is massive enough to release energy via nuclear fusion. A planet is much less massive.
For an object such as a planet or moon to have weather, it must have an atmosphere. Asteroids do not have strong enough gravity to maintain an atmosphere.
Liquidifi
Jupiter is not nearly massive enough or dense enough to hit "critical mass"; essentially, there's not enough pressure at the core of the planet to start the initial nuclear reaction and its not dense enough to maintain the reaction.
Some of the gases are left in the gravitational pull but do not have enough energy to pull them in to the planet so they form rings of matter revolving around the planet.
The question seems poorly worded, but Earth is the planet with liquid water on its surface.