Antarctica is polar, and is turned away from the sun for about half the year. Panama, which is equatorial, faces the sun all year.
Antarctica is the location of the South Pole. It is the southern-most point on Earth. Panama, on the other hand, is near the equator, which is the middle of the Earth. The sun is constantly emitting energy in the form of radiation waves. Because Earth is a sphere tilted, this radiation has less atmosphere through which to pass near the equator than Antarctica at the southern end of this sphere. Therefore, the radiation coming into the surface at Antarctica is attenuated - reduced- relative to Panama, and the surface is heated less.
The farther from the equator, the weaker the sunlight gets.
The earth is hotter at its core and cooler as we look farther out. As regards the surface of the planet, it is warmer at the equator, and cooler toward and at the poles. There will be some slight variation owing to seasonal changes, but that is the basic answer.
Regions of the earth that receive less heat, such as polar regions and higher altitudes, tend to have colder air temperatures compared to areas near the equator. This is due to the angle of the sun's rays and the amount of daylight hours these regions receive, resulting in less direct sunlight and warmth. This leads to cooler temperatures in these areas.
Areas near the poles receive less heat due to the angle at which sunlight strikes the Earth's surface. The sun's rays hit the poles at a more oblique angle, spreading the energy over a larger area and reducing its intensity. Additionally, the longer path through the atmosphere and the presence of ice and snow, which reflect sunlight, further diminish heat absorption in these regions. As a result, polar regions remain colder than areas closer to the equator.
eXAMPLE:Philippines,Jamaica,AND MORE
Antarctica is the location of the South Pole. It is the southern-most point on Earth. Panama, on the other hand, is near the equator, which is the middle of the Earth. The sun is constantly emitting energy in the form of radiation waves. Because Earth is a sphere tilted, this radiation has less atmosphere through which to pass near the equator than Antarctica at the southern end of this sphere. Therefore, the radiation coming into the surface at Antarctica is attenuated - reduced- relative to Panama, and the surface is heated less.
eXAMPLE:PHILIPPINES,jAMAICA,AND MORE
The farther from the equator, the weaker the sunlight gets.
As long as they receive energy. The energy-efficiency refers to the fact that less energy is wasted as heat.As long as they receive energy. The energy-efficiency refers to the fact that less energy is wasted as heat.As long as they receive energy. The energy-efficiency refers to the fact that less energy is wasted as heat.As long as they receive energy. The energy-efficiency refers to the fact that less energy is wasted as heat.
The Antarctic Peninsula is less than 700 miles from South America.
The earth is hotter at its core and cooler as we look farther out. As regards the surface of the planet, it is warmer at the equator, and cooler toward and at the poles. There will be some slight variation owing to seasonal changes, but that is the basic answer.
The one factor all have in common is that they are deserts and receive less than 10 inches (250 mm) of annual precipitation per year on average.
Regions of the earth that receive less heat, such as polar regions and higher altitudes, tend to have colder air temperatures compared to areas near the equator. This is due to the angle of the sun's rays and the amount of daylight hours these regions receive, resulting in less direct sunlight and warmth. This leads to cooler temperatures in these areas.
when earth absorbs the heat coming from the sunthere is too much moisture in the air3.when the clouds reflect the heat back to the space
Places far from the equator receive less heat because the angle of sunlight is more oblique, spreading the energy over a larger surface area. This means that the heat is more diluted, resulting in cooler temperatures. Additionally, the atmosphere at higher latitudes is thicker, allowing for more scattering and absorption of sunlight before it reaches the surface.
Less heat