There is, however, a slight twist. Because the Earth is closer to the Sun in January, the Southern Hemisphere (which experiences summer in January) actually receives about 7% more solar energy than the Northern Hemisphere does during its summer.
Interestingly, the fact that perihelion occurs during the Southern Hemisphere’s summer has a noticeable climatic impact. Because the Earth is closer to the Sun during the austral summer, the Southern Hemisphere receives slightly more total solar energy during its warmest months than the Northern Hemisphere does during its own summer. This contributes, along with the Southern Hemisphere’s much larger ocean surface area, to its generally milder seasonal temperature extremes. However, this extra energy does not make the Southern Hemisphere’s summers universally hotter, as the moderating influence of vast oceans prevents the kind of intense continental heat seen in places like North America or Central Asia. This subtle difference underscores the real-world consequences of the January perihelion. which month is the earth closest to the sun
The key to understanding this lies in the geometry of Earth’s orbit. Contrary to a perfect circle, Earth’s path around the Sun is a slight ellipse, as described by Johannes Kepler in the early 17th century. This means the distance between the two bodies varies over the course of a year. The point of closest approach is known as (from the Greek peri , meaning “near,” and helios , meaning “sun”), while the farthest point is aphelion . Currently, perihelion occurs approximately two weeks after the December solstice, typically on January 3rd or 4th. On this day, Earth is about 147.1 million kilometers (91.4 million miles) from the Sun, which is roughly 2.5 million kilometers (1.5 million miles) closer than at aphelion in early July. There is, however, a slight twist