For decades the planet Saturn defied attempts to pin down its exact rotation period, until a joint endeavour, launched by NASA, the European Space Agency and the Italian space agency ASI saw the Cassini mission set out to study Saturn and its complex system of rings and moons.

 

While astronomers have been studying gas giant Saturn and its complex system of rings and moons for decades, they have been unable to pin down its exact rotation period.

 

Eurasia Diary reports citing sputnik that a new research published in AGU’s Journal of Geophysical Research: Space Physics may have finally provided the key to unlocking the giant planet’s rotation mystery.

 

The study, co-authored by Duane Pontius of Birmingham-Southern College in Alabama, is titled “Saturn’s multiple, variable periodicities: A dual-flywheel model of thermosphere-ionosphere-magnetosphere coupling.”

 

The new research shows how seasonal changes on Saturn may be confusing attempts by scientists to calculate its exact rotation period.

 

What is a Planet’s Rotation Period?

 

One of the fundamental aspects of a planet's nature is its rotation period. To determine it, one needs to find a feature on the planet and clock it as it rotates around once. In the case of a gas giant without solid surface features, however, scientists can listen for periodic modulations in the intensity of radio signals created within the planet’s rotating magnetic field.

 

Saturn emits only low-frequency radio patterns that are blocked by Earth’s atmosphere, making it difficult to study its rotation from the Earth’s surface.

 

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