The closer in proximity two objects are, the more directly the heat will transfer.
FOr example, with two objects very close together, heating one will heat the other (heat will radiate directly from one object into the other). As the two objects move further apart, the change in temperature of the second object as the first one is heated will start to decrease rapidly.
The farther a planet is from the sun, the cooler it is, except that this is not true about Mercury and Venus. Also, the farther a planet is from other planets, the cooler it is, except that this is not true about Mercury and Venus. The distance that a planet is from comets, asteroids, other stars besides the Sun, meteoroids, or major league baseball teams has no effect on their temperature.
The closer a planet is to the sun, the smaller the temperature variations are likely to be throughout the year. This is because the amount of solar energy received by a planet decreases as its distance from the sun increases, leading to less fluctuation in temperatures.
The temperature of Venus does not vary significantly with distance from the sun due to its thick atmosphere that traps heat. Venus experiences extreme greenhouse effect that maintains high surface temperatures regardless of distance from the sun.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
The farther a planet is from the sun, the cooler it is, except that this is not true about Mercury and Venus. Also, the farther a planet is from other planets, the cooler it is, except that this is not true about Mercury and Venus. The distance that a planet is from comets, asteroids, other stars besides the Sun, meteoroids, or major league baseball teams has no effect on their temperature.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
All of the above play a role in determining atmospheric temperature: the planet's distance from the sun, its size, albedo, and greenhouse effect.The answer to this homework question is: ALL OF THE ABOVE:)
Research has shown that the planet Venus has its atmosphere temperature increased by the greenhouse effect
The closer a planet is to the sun, the smaller the temperature variations are likely to be throughout the year. This is because the amount of solar energy received by a planet decreases as its distance from the sun increases, leading to less fluctuation in temperatures.
The further away a planet is from the sun the colder it is, the closer a planet is the hotter the planet is.
The temperature of Venus does not vary significantly with distance from the sun due to its thick atmosphere that traps heat. Venus experiences extreme greenhouse effect that maintains high surface temperatures regardless of distance from the sun.
The temperature of a planet varies with the distance from the sun because the sun is hot and the closer something is to the sun, the hotter the object gets. The further away the planet from the sun, the colder the planet.
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 amount of light and warmth a planet receives from the sun depends on its distance from the sun, its tilt or axial tilt, and its atmosphere. These factors determine how much solar radiation is absorbed and reflected by the planet, influencing its overall temperature and climate.
The closer they are, the warmer the planet. Venus is an exception due to the greenhouse effect.