Summer’s scorching arrival will remind us of the sun’s power, but few ponder its deepest secrets. This 4.5-billion-year-old star, a modest yellow dwarf, anchors our solar system with unyielding gravity and boundless energy.
Spanning 1.4 million kilometers across, the sun dwarfs Earth 109-fold; imagine 1.3 million Earths fitting inside it. From 150 million kilometers away, it bathes our planet in light essential for survival. NASA’s heliophysics missions uncover its restless nature: constant evolution, plasma ejections, magnetic storms.
In the vast universe, it’s unremarkable—many stars boast multiples in their systems, some vastly superior in size. Yet for us, it’s vital. Core temperatures exceed 15 million Celsius, where fusion ignites, birthing helium from hydrogen.
Our view pierces the photosphere at 5,500 Celsius, the light-emitting layer. Strangely, the corona above defies logic, heating to 2 million Celsius. This paradox, the coronal heating mystery, eludes resolution despite decades of probes like Parker Solar Probe.
Orbiting the Milky Way at breakneck speeds, the sun spins variably due to its fluid form. Its 11-year solar cycle unleashes activity impacting Earth: disrupted communications, blackouts, auroras. Space agencies monitor relentlessly.
From galactic position to rotational quirks—25 days equatorial, 36 polar—every facet intrigues. As research advances, the sun’s corona holds clues to stellar physics, promising breakthroughs in understanding distant stars and space weather threats.