Okay, here's a draft article based on the provided information, aiming for a people-first approach and journalistic integrity.
Headline: Our Moon is Drifting Away: A Cosmic Dance of Tides, Lasers, and the Distant Future
Jakarta - Look up at the moon tonight. It seems constant, a familiar presence in our sky. But did you know it's slowly, steadily moving away from us? About 3.8 centimeters every year, to be exact.While that might sound insignificant, it's a captivating story of gravity, tides, and the long, intertwined history of Earth and its celestial companion.
How Do We Know? Lasers, of Course!
Scientists aren't just guessing about this lunar departure. They're using incredibly precise measurements,thanks to a clever trick involving lasers and mirrors left on the moon by Apollo astronauts.
"By measuring the amount of time needed for light to travel to the moon and return, scientists can measure the distance to the moon precisely and how the distance changes," explains Science Alert (9/16/2025), quoting Stephen Dikerby, an astrophysics researcher at Michigan State University.
Think of it like this: shining a laser pointer at a mirror across a room, but on a cosmic scale. The time it takes for the light to bounce back tells us the distance with incredible accuracy, allowing scientists to track the moon's subtle retreat year after year.
The Moon's Wobbly Orbit
The moon's orbit isn't a perfect circle; it's an ellipse. This means the distance between the Earth and the moon varies by about 20,000 kilometers each month. this is why we sometimes see a "supermoon," when the full moon appears larger and brighter in the sky because it's closer to us.The average distance of the moon to Earth is around 385,000 km.
According to Dikerby, studying these lunar movements provides insights into the evolution of both the Earth and the moon since their formation around 4.5 billion years ago.
The Pull of the Tides: The Engine of Lunar Departure
So, what's causing the moon to drift away? The answer lies in the tides.
tides are caused by the moon's gravity pulling on Earth's oceans. The side of Earth closest to the moon experiences a stronger pull, creating a bulge of water.A smaller bulge also forms on the opposite side of the Earth.
As the Earth rotates, these tidal bulges are pulled slightly ahead of the moon. This "advanced protrusion" then exerts a gravitational pull on the moon,tugging it forward in its orbit.