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What is the order of the planets of increasing distance from the sun?
uranus
What are the rocky planets in order of their distance from the sun?
In order of their distance from the sun, the rocky planets are Mercury, Venus, Earth, and Mars.
A planets maximum distance from the sun is the what of its orbit?
The apogee.
Which characteristics of the inner planets increases with increasing distance from the sun?
As the distance from the Sun increases among the inner planets (Mercury, Venus, Earth, and Mars), characteristics such as atmospheric density and surface temperature generally decrease. The inner planets are primarily rocky with relatively solid surfaces, but as you move outward, Mars has a thinner atmosphere and cooler temperatures compared to Earth and Venus. Additionally, the presence of surface water diminishes from Earth to Mars, reflecting the effects of distance from the Sun on planetary conditions.
What happens to the amount of solar energy that planets receive from the sun as you get further out into the solar system?
As you move further out into the solar system, the amount of solar energy that planets receive decreases. This is because the intensity of sunlight weakens with distance due to the inverse square law. Planets like Pluto receive significantly less solar energy than planets closer to the sun, impacting their surface conditions and climates.
What is the order of the planets of increasing distance from the sun?
uranus
Do the densities of the Galilean moons increase with distance from Jupiter just as the densities of the planets increase with distance from the Sun?
To answer the question very literally: Yes. The Galilean satellites follow the same pattern of density versus increasing distance from Jupiter that the planets' density follows versus distance from the sun. The specific pattern is: No pattern at all. Earth ... 3rd from the sun ... is the most dense planet, while Saturn ... 6th planet from the sun ... is the least dense. So there is no "just as" to compare to.
What order is the inner planets according to increasing distance from the sun?
Mercury venus earth mars jupiter saturn uranus neptune
Do planets collide when the distance of the planets from the sun change?
The distance of the planets from the sun does not change because of the gravity surrounding each planet is pulling them into continuous orbit.
What are the rocky planets in order of their distance from the sun?
In order of their distance from the sun, the rocky planets are Mercury, Venus, Earth, and Mars.
How does the sun have gravity?
The sun has all the gravity to keep the planets a certain distance from the sun.
What is the average distance of the planets from the sun?
10000000023 km
A planets maximum distance from the sun is the what of its orbit?
The apogee.
What did Kepler discover about the distance of the planets from the sun and the length of their orbits?
Keplar showed that there is a relationship between the planets distance from the sun and the time taken for one orbit (planets year). This is described in Keplars third law; the square root of the time taken to orbit the sun is proportional to the cube of the average distance between the sun.
How does the planets distance from the sun affect the length of a day?
Not at all. The planet's daily rotation is independent of its distance from the Sun.
Which characteristics of the inner planets increases with increasing distance from the sun?
As the distance from the Sun increases among the inner planets (Mercury, Venus, Earth, and Mars), characteristics such as atmospheric density and surface temperature generally decrease. The inner planets are primarily rocky with relatively solid surfaces, but as you move outward, Mars has a thinner atmosphere and cooler temperatures compared to Earth and Venus. Additionally, the presence of surface water diminishes from Earth to Mars, reflecting the effects of distance from the Sun on planetary conditions.
What happens to the amount of solar energy that planets receive from the sun as you get further out into the solar system?
As you move further out into the solar system, the amount of solar energy that planets receive decreases. This is because the intensity of sunlight weakens with distance due to the inverse square law. Planets like Pluto receive significantly less solar energy than planets closer to the sun, impacting their surface conditions and climates.
