You don't see the sun.
No. The first person to look down discovered Earth.
Here are all diameters of the planets. Pluto is no planet anymore. Mercury 4,880 km Venus 12,104 km Earth 12,756 km Mars 6,794 km Jupiter 142,984 km Saturn 120,536 km Uranus 51,118 km Neptune 49,532 km Look for yourself. 51118 km / 8 = 6,389 km - that is close to Mars.
The sun would look much smaller than it does from Earth but still bright.
To someone living on the moon, the Earth would appear much larger than it does to those on Earth. It would look about 3.7 times bigger in the sky as seen from the moon.
The gravitational field near the "surface" is about 8.69 meters/second2 (= 8.69 newton/kilogram). For comparison, Earth's gravity field near its surface is about 9.82 meters/second2. Please note that the gas planets, including Uranus, don't really have a surface like Earth does.
No. The first person to look down discovered Earth.
Seen from Uranus the Earth would always be within 3 degrees or less of the Sun. The Sun would be dimmer than as seen from here, about 360 times dimmer, but still so bright that the Earth would most likely be unnoticed.
Here are all diameters of the planets. Pluto is no planet anymore. Mercury 4,880 km Venus 12,104 km Earth 12,756 km Mars 6,794 km Jupiter 142,984 km Saturn 120,536 km Uranus 51,118 km Neptune 49,532 km Look for yourself. 51118 km / 8 = 6,389 km - that is close to Mars.
The sun would look much smaller than it does from Earth but still bright.
no but uranus is better
To someone living on the moon, the Earth would appear much larger than it does to those on Earth. It would look about 3.7 times bigger in the sky as seen from the moon.
well just go on google and type in uranus and then click on uranus there you see uranus.
If you could stand on the surface of Uranus (however you cant) you would 89% the force of gravity that you experience on Earth. Another way to look at it is that objects dropped towards Uranus will accelerate towards the planet at 8.69 m/s2.
The sun's energy provides light and heat to Uranus, influencing its atmosphere and weather patterns. Solar radiation also contributes to the auroras and magnetic field of Uranus. Additionally, the sun's gravitational pull helps maintain the orbit and tilt of Uranus, which affects its seasons.
The gravitational field near the "surface" is about 8.69 meters/second2 (= 8.69 newton/kilogram). For comparison, Earth's gravity field near its surface is about 9.82 meters/second2. Please note that the gas planets, including Uranus, don't really have a surface like Earth does.
The Moon appears a lot smaller (which it is) when viewed from the Earth.
The Sun appears smaller from Mars than from Earth because Mars is farther away from the Sun than Earth is. This distance causes the Sun to appear smaller in the Martian sky. Additionally, Mars has a thinner atmosphere than Earth, which may affect the perception of the Sun's size.