How Did The Moon Form?
カートのアイテムが多すぎます
カートに追加できませんでした。
ウィッシュリストに追加できませんでした。
ほしい物リストの削除に失敗しました。
ポッドキャストのフォローに失敗しました
ポッドキャストのフォロー解除に失敗しました
-
ナレーター:
-
著者:
In this episode, we tackle one of the greatest enduring paradoxes in planetary science: the mystery of how the moon was born.
We begin in December 1972 with Apollo 17 astronaut Harrison Schmitt—the first and only trained geologist to walk on the lunar surface.
The off-white rock he collected, troctolite 76536, would become a message from the solar system's childhood, preserved like a pristine fossil on a geologically quiet world.
We break down the three classic origin theories, capture, fission, and co-accretion, to reveal why the physical math behind them simply doesn't add up.
Then, we look at the reigning champion of lunar history: the Giant Impact Hypothesis, which suggests a Mars-sized planet named Theia smashed into the proto-Earth 4.5 billion years ago.
But when advanced mass spectrometers checked the isotopic "fingerprints" of lunar samples, they uncovered a stunning crisis.
The moon doesn't look like an outsider; its chemical signature is identical to Earth's down to a tiny fraction.
To resolve this cosmic paradox, we explore the radical new "Synestia" model—a theory of a collision so violently extreme that it melted both worlds into a searing, spinning, donut-shaped cloud of vaporized rock.