If that planet is far from the sun it is really cold because the sun heats the ground and the heat comes up
In general terms, the surface temperature of a planet decreases as its distance from the sun increases. However, Venus is approx 90% further from the sun than Mercury. But, instead of the temperature being lower, it is approx 40% higher.
The planet with an average surface temperature of 14.6°C is Earth.
Daily variations in temperature on a planet's surface are primarily caused by the rotation of the planet on its axis, which leads to changes in exposure to sunlight. Factors such as the planet's distance from the sun, its atmosphere, and its surface composition also play a role in determining the magnitude of temperature variations. Additionally, local geographic features such as mountains, bodies of water, and vegetation cover can influence temperature patterns.
In general the temperature of a planet falls with distance from the sun. However, Venus is nearly 90% further from the sun than Mercury but, instead of being cooler, Venus is 40% hotter.
The main reason why a planet's temperature can vary due to its distance from the Sun is because less solar radiation will reach it. But there can be numerous factors that influence a planet's temperature regardless of its distance from the Sun. The main influence being the atmosphere. I.e. Venus is further from the Sun than Mercury, but is the hottest planet in the solar system because its atmosphere traps carbon dioxide causing a runaway green house affect. Some planets reflect the Sun's rays from their atmosphere or surface. The amount with which this occurs is called albedo. Enceladus has the highest albedo known, and is colder than Saturn, the planet it orbits.
Jupiter is a very cold planet. It has an average surface temperature of around -234 degrees Fahrenheit. Jupiter's temperature depends on the temperature on the inside of the planet, not by its distance from the sun.
the further away you are from the sun the colder the place is.
I dont no but please get a life uhhh byee
The distance from surface to surface through the center of a planet would be that planet's "diameter".
In general terms, the surface temperature of a planet decreases as its distance from the sun increases. However, Venus is approx 90% further from the sun than Mercury. But, instead of the temperature being lower, it is approx 40% higher.
How does a planet's distance from the sun affect its period of revolution?
Yes, there is a relationship between a planet's distance from the sun and its surface gravity. The closer a planet is to the sun, the stronger the gravitational pull from the sun, which can affect the planet's own gravity. However, other factors, such as a planet's mass and composition, also play a significant role in determining its surface gravity.
The planet with an average surface temperature of 14.6°C is Earth.
Daily variations in temperature on a planet's surface are primarily caused by the rotation of the planet on its axis, which leads to changes in exposure to sunlight. Factors such as the planet's distance from the sun, its atmosphere, and its surface composition also play a role in determining the magnitude of temperature variations. Additionally, local geographic features such as mountains, bodies of water, and vegetation cover can influence temperature patterns.
The farther away from the sun the planet is, the more space it has to cover. Therefore, the planets distance from the sun whereas, if i am half the distance from Earth/Sun, that planet will get more energy. But if I am twice the distance from Earth/Sun, I will receive less energy.
If you decrease a planet's orbital radius, its surface temperature will increase.
Planets have different surface temperatures due to various factors such as their distance from the sun, composition of their atmosphere, and presence of natural processes like volcanism or greenhouse gases. These factors can affect the amount of incoming solar radiation absorbed by the planet, how that heat is distributed, and how much of it is retained, leading to differences in temperature across different planets.