distance and atmosphere
The amount of light and warmth a planet receives from the sun depends on its distance from the sun, the intensity of sunlight reaching the planet, and its atmosphere composition, which affects how much of the sunlight is absorbed or reflected. These factors collectively determine the temperature and conditions on the planet's surface for supporting life.
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.
A planet's proximity to the Sun affects how much light and warmth it will receive. In addition to its distance from the Sun, surface reflectivity as well as the planet's atmosphere or greenhouse effect. Light from the Sun will either be reflected back into space or make it to the ground to heat it up.
No. Pluto (when it was a planet) was frozen. Neptune is also very cold. Result of no light/warmth.
you will need water, oxygen, plants, food, air, warmth, shelter, sunlight and vitamins to survive on earth. To survive on any planet you will need water and sunlight and oxygen and air an warmth and shelter.
The amount of light and warmth a planet receives from the sun depends on its distance from the sun, the intensity of sunlight reaching the planet, and its atmosphere composition, which affects how much of the sunlight is absorbed or reflected. These factors collectively determine the temperature and conditions on the planet's surface for supporting life.
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.
A planet's proximity to the Sun affects how much light and warmth it will receive. In addition to its distance from the Sun, surface reflectivity as well as the planet's atmosphere or greenhouse effect. Light from the Sun will either be reflected back into space or make it to the ground to heat it up.
Rain forests require some warmth and a lot of rain. Antarctica has neither. It is far too cold, and in fact only receives a small amount of precpitation.
food, water, air, warmth, the temperature(warmth), shelter, and vitamins.
The planet Saturn has four season, however, the temperatures for the seasons changes are from the surface temperature that changes little with the latitude. The warmth of the temperatures are not by the sun, but by the warmth of the planet.
No. Pluto (when it was a planet) was frozen. Neptune is also very cold. Result of no light/warmth.
you will need water, oxygen, plants, food, air, warmth, shelter, sunlight and vitamins to survive on earth. To survive on any planet you will need water and sunlight and oxygen and air an warmth and shelter.
Insolation
There are a number of factors which affect the surface temperature of planets. First, there is sunlight which is a source of warmth. Then, there are various types of atmosphere, which retain warmth to varying degrees. Then, there is the radiation of heat into space, by means of infrared radiation, which happens on the side of the planet that faces away from the sun, and cools the planet.
Distance from the sun, size of the molten core, composition of the atmosphere and in some cases, speed of orbit / closeness to another heavenly body of greater mass which causes friction by pulling the crust/interior of the other planet in directions it would've experience if it was away from other objects.
The greater the amount of filling, the warmer the featherbed will be. In general, a given amount of down will be warmer than the same amount of feathers.