Sun Closest To: Earth
This extra energy has a key influence on our planet’s climate and seasons, but it is not enough to override the effect of axial tilt. Instead, it shapes the character of the seasons. Because Earth is closer to the Sun and moving faster in its orbit (thanks to Kepler’s second law of planetary motion, which states that a planet sweeps out equal areas in equal times), the Northern Hemisphere experiences a shorter, milder winter than the Southern Hemisphere does during its winter. Conversely, when Earth is at aphelion during the Southern Hemisphere’s winter (June–August), that hemisphere endures a slightly colder and longer winter. The Southern Hemisphere’s summers, when Earth is near perihelion, are consequently a bit hotter and shorter than northern summers.
The extra 6.9% of solar energy from perihelion is simply overwhelmed by this geometry. It’s the difference between a gentle heat lamp held far away and angled, versus a dimmer lamp held close but shining directly. Tilt wins over distance every time. Perihelion is not a fixed date on our calendar. Due to a slow, cyclical wobble in Earth’s axis (called apsidal precession), the date of perihelion drifts forward by about one day every 58 years. Over thousands of years, this drift—combined with changes in the shape of the orbit (eccentricity) and the tilt itself (obliquity)—creates the Milankovitch cycles, which are linked to the onset and retreat of ice ages. About 10,000 years ago, perihelion occurred during the Northern Hemisphere’s summer, creating much hotter summers and colder winters—a key factor in the end of the last glacial period. sun closest to earth
Today, we happen to live in a time when perihelion aligns with the northern winter and aphelion with the northern summer, a configuration that helps moderate our climate. When you shiver on a January night, take a moment to look up at the Sun the next morning—or better, imagine its position behind the clouds. You are, in that very moment, closer to our star than at any other time of the year. You are standing on a planet racing at over 30 kilometers per second (67,000 miles per hour) along the inner edge of its slightly lopsided track. The Sun’s disk is at its largest, its energy at its peak, yet the tilt of our world turns that maximum intensity into the soft, slanting light of winter. This extra energy has a key influence on
Every year, as winter’s chill grips the Northern Hemisphere and holiday lights twinkle against long, dark nights, our planet silently reaches a profound milestone in its cosmic journey. Roughly two weeks after the winter solstice, between January 2nd and January 5th, Earth makes its closest annual approach to the Sun. This moment, known as perihelion (from the Greek words peri , meaning "near," and helios , meaning "Sun"), is one of the most frequently misunderstood phenomena in astronomy. Conversely, when Earth is at aphelion during the