The nuclear battle between the earth and sun fox news gas leak in house


While the Earth doesn’t affect our weather, it is hot on the inside, too. The loose cloud of gas and dust that coalesced to form our planet released a huge amount of energy as the cloud collapsed, and despite molding Earth over 4 billion years ago, our planet still retains some of that primordial energy.

What’s more, Earth formed with a fair amount of radioactive elements, like uranium and plutonium. Most of those metals are buried deep in the core and mantle, and over the eons, they diminish as they decay into lighter elements, releasing heat in the process.

These two sources are the primary generators of Earth’s internal heat, keeping the planetary hearth warm against the cold vacuum of space. This heat drives our planet’s geologic processes: Volcanoes and hot springs are taps into the molten fire under our feet, and the achingly slow grinding movements of the continental and oceanic plates themselves are compelled by Earth’s own energies.

The heat deep in our planet’s core powers something else, too. As Earth formed, the heaviest elements, like iron, sunk inward, and the high temperatures liquefied them, forming a malleable, molten center. The planet’s rotation — the same one that drives our peculiar weather patterns — spins the core as well. This core of charged metals raises a powerful magnetic field, a field far stronger than that of any other rocky world in the solar system — yet another reason to count our home as unique. [ Shields Up! How the Earth Got a Force Field] Breaking the solar wind

While the sun’s radiation races to Earth and drives our weather, the comparatively lethargic — but still zippy, moving at a speed of over 1 million mph (1.6 million km/h) — solar windeventually encounters our world as well. These high-energy particles are perfectly capable of stripping away our planet’s thin atmosphere, flinging our helpless nitrogen and oxygen away molecule by molecule, and thus stripping our planet of its security blanket.

We think this is what doomed Mars to its dry, frozen, dead fate long ago. But our planet has something that Mars doesn’t: its magnetic field. The solar wind is made of charged particles, which interact with the — literal — force field surrounding our planet. Some particles bounce off completely, careening into entirely new trajectories. Others, the ones with the highest energies, do make it through to the atmosphere and can even reach the surface. But thankfully, those are relatively rare. These charged particles are capable of slicing right through DNA chains, increasing cancer rates.

It’s here — where the solar wind meets Earth’s atmosphere — where we get the shimmering green and red effervescent curtains of the aurora. The solar wind particles, guided by Earth’s magnetic field, slam into oxygen and nitrogen, temporarily stripping them of electrons and forcing them to glow.

It’s a pretty sight and the result of a complex interplay between our planet and our nearest star. It’s where Earth’s magnetic field, powered in part by nuclear fission in our planet’s core, meets the solar wind, sourced ultimately by nuclear fusion in the heart of the sun.