Wiki User
∙ 11y agoThey Meet
Wiki User
∙ 10y agoNot necessarily. The poles experience minimal daily temperature changes due to their location. Areas closer to the equator experience greater daily temperature fluctuations due to the angle of sunlight and climate conditions.
The temperature typically decreases as you move farther away from the equator. This is because areas closer to the poles receive less direct sunlight, leading to cooler temperatures.
The general trend is that areas closer to the equator have smaller temperature ranges throughout the year, while areas closer to the poles have larger temperature ranges. This is due to the angle at which sunlight strikes the Earth, with more direct sunlight at the equator leading to more consistent temperatures, and less direct sunlight at the poles leading to greater temperature variation.
No, typically, the circumference of an object does not decrease as the temperature increases. In most materials, as temperature rises, thermal expansion occurs, causing the object to expand and its circumference to increase.
You are closer to the center of the earth at the poles, r is smaller in g=GM/r2
They will attract each other.
They are farther from the equater. the sun's rays are farther from them.
It gets hotter
Not necessarily. The poles experience minimal daily temperature changes due to their location. Areas closer to the equator experience greater daily temperature fluctuations due to the angle of sunlight and climate conditions.
The answer is a cuz ais closer.
Because its closer to the mantle and the core.
The temperature typically decreases as you move farther away from the equator. This is because areas closer to the poles receive less direct sunlight, leading to cooler temperatures.
The sun's rays will strike land closer to both poles at a shallow angle, and lose much of its heat.
it gets cooler when you get closer to outer space
Because its closer to the mantle and the core.
The general trend is that areas closer to the equator have smaller temperature ranges throughout the year, while areas closer to the poles have larger temperature ranges. This is due to the angle at which sunlight strikes the Earth, with more direct sunlight at the equator leading to more consistent temperatures, and less direct sunlight at the poles leading to greater temperature variation.
When the poles are moved closer together to a distance of one inch apart, the magnetic field between them becomes stronger. The force between the poles also increases, resulting in a higher attractive or repulsive force depending on the orientation of the poles. The magnetic field lines become more concentrated between the poles due to the shorter distance, causing a stronger effect on nearby magnetic materials.