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Jupiter Is Smaller and Flatter Than Previously Thought
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Jupiter Is Smaller and Flatter Than Previously Thought

#Jupiter #radius #polar radius #equatorial radius #radio occultation #Pioneer #Voyager #Juno #NASA #gas giant

📌 Key Takeaways

  • New research indicates Jupiter is smaller and flatter than previously thought.
  • Measurements from Pioneer, Voyager, and Juno missions reveal a 7% larger difference between Jupiter's polar and equatorial radii compared to Earth.
  • The study used radio occultation techniques to map Jupiter's temperature and density.
  • The findings represent the most accurate measurements of Jupiter’s polar and equator radius ever
  • These methods could be applied to other gas giants like Saturn, Uranus, and Neptune.

📖 Full Retelling

Jupiter is the largest planet in the solar system, a fact confirmed in 1610. Recent research published in *Nature Astronomy* using data from NASA's Pioneer, Voyager, and Juno missions indicates that Jupiter is smaller and flatter than previously estimated. The study provides the most accurate measurements of Jupiter’s polar and equatorial radii, revealing they are 12 km, 4 km, and 8 km smaller than longstanding estimates, respectively. This suggests a 7% larger difference between its polar and equatorial radius compared to Earth. Researchers used radio occultation techniques to map Jupiter's temperature and density, leading to these new findings. This research demonstrates improved methods for studying planetary bodies and could be applied to other gas giants.

🏷️ Themes

Planetary Science, Jupiter, Space Exploration, Astronomy, Scientific Measurement

📚 Related People & Topics

NASA

NASA

American space and aeronautics agency

The National Aeronautics and Space Administration (NASA ) is an independent agency of the U.S. federal government responsible for the United States' civil space program and for research in aeronautics and space exploration. Headquartered in Washington, D.C., NASA operates ten field centers across th...

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Pioneer

Topics referred to by the same term

Pioneer commonly refers to a person who is among the first at something that is new to a community. A pioneer as a settler is among the first settling at a place that is new to the settler community. A historic example are American pioneers, persons in American history who migrated westward to settl...

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Voyager

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Voyager may refer to:

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Juno

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Juno commonly refers to:

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Jupiter

Jupiter

Fifth planet from the Sun

Jupiter is the fifth planet from the Sun, and the largest in the Solar System. It is a gas giant with a mass nearly 2.5 times that of all the other planets in the Solar System combined and slightly less than one-thousandth the mass of the Sun. Its diameter is 11 times that of Earth and a tenth that ...

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Deep Analysis

Why It Matters

This research refines our understanding of Jupiter's size and shape, providing more accurate measurements than previous estimates. These improved measurements are crucial for understanding the planet's internal structure and dynamics, and offer a methodology applicable to studying other planets.

Context & Background

  • Jupiter's size has been studied since the 17th century.
  • Previous measurements relied on radio occultation techniques.
  • The Juno spacecraft has provided new data for refining these measurements.

What Happens Next

Researchers will likely continue to analyze data from the Juno mission and potentially use similar techniques to study other gas giants. Future studies may focus on understanding the implications of Jupiter's shape for its atmospheric dynamics and magnetic field.

Frequently Asked Questions

What is radio occultation?

Radio occultation is a technique that uses radio waves to estimate the size of celestial bodies by measuring how the waves bend as they pass through their atmosphere.

How does Jupiter's equatorial radius compare to Earth's?

Jupiter's equatorial radius is about 0.33 larger than its polar radius, similar to Earth's, but with a significantly larger difference between the two compared to Earth.

What are the implications of these new measurements?

The new measurements provide a more accurate picture of Jupiter’s internal structure and dynamics, and offer a methodology applicable to studying other planets.

Original Source
Jupiter Is Smaller and Flatter Than Previously Thought By Laurence Tognetti, MSc - February 28, 2026 03:29 AM UTC | Planetary Science Jupiter is the largest planet in the solar system and has proudly boasted about this since time immemorial, with its scientific confirmation occurring by Galileo Galilei in 1610. It was later found that Jupiter has a bulging equator caused by its rapid rotation, turbulent atmosphere, and complex interior mechanisms despite its massive size, and scientists have even measured its “waistline” down to a tenth of a kilometer. Now, imagine being the largest planet in the solar system and you’re told you’re not as big as you thought. Where probably most humans would be thrilled to find this out, how do you respond if you’re Jupiter? We might never know how Jupiter feels about being slimmer. But a team of international researchers led by the Weizmann Institute of Science in Israel are happy to explain how they feel about this incredible finding, which was recently published in *Nature Astronomy*. To accomplish this, the team used a combination of data obtained from NASA’s past missions of Pioneer 10 and Pioneer 11, which visited Jupiter in December 1973 and December 1974, respectively, Voyager 1 and Voyager 2, which visited Jupiter in March and July of 1979, respectively, and the currently active Juno spacecraft, which arrived at Jupiter in July 2016. While the Pioneer and Voyager missions used a technique called radio occultation to measure Jupiter’s radius, with Voyager using an improved method, Juno used a combination of multi-angle radio occultation and gravity science to obtain its measurements. Radio occultation involves using radio waves to estimate Jupiter’s size, with Pioneer using this method when the radio waves between itself and Earth were “cut off” as the spacecraft passed behind Jupiter. This not only estimating its radius but also confirmed Jupiter had an equatorial bulge, which was first proposed by Giovanni Cassini in 1666. ...
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