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      Delve into the physics of the Hula-Hoop

      news.movim.eu / ArsTechnica • 3 January 2025 • 1 minute

    High-speed video of experiments on a robotic hula hooper, whose hourglass form holds the hoop up and in place.

    Some version of the Hula-Hoop has been around for millennia, but the popular plastic version was introduced by Wham-O in the 1950s and quickly became a fad. Now, researchers have taken a closer look at the underlying physics of the toy, revealing that certain body types are better at keeping the spinning hoops elevated than others, according to a new paper published in the Proceedings of the National Academy of Sciences.

    “We were surprised that an activity as popular, fun, and healthy as hula hooping wasn’t understood even at a basic physics level,” said co-author Leif Ristroph of New York University. “As we made progress on the research, we realized that the math and physics involved are very subtle, and the knowledge gained could be useful in inspiring engineering innovations, harvesting energy from vibrations, and improving in robotic positioners and movers used in industrial processing and manufacturing.”

    Ristroph's lab frequently addresses these kinds of colorful real-world puzzles. For instance, in 2018 , Ristroph and colleagues fine-tuned the recipe for the perfect bubble based on experiments with soapy thin films. In 2021 , the Ristroph lab looked into the formation processes underlying so-called "stone forests" common in certain regions of China and Madagascar.

    Read full article

    Comments

    • tagscience tagscience tagscience taguncategorized taguncategorized taguncategorized tagapplied mathematics tagapplied mathematics tagapplied mathematics taggravity taggravity taggravity taghula hoop taghula hoop taghula hoop tagmathematics tagmathematics tagmathematics tagphysics tagphysics tagphysics tagrobotics tagrobotics tagrobotics tagscience tagscience tagscience taguncategorized taguncategorized taguncategorized tagapplied mathematics tagapplied mathematics tagapplied mathematics taggravity taggravity taggravity taghula hoop taghula hoop taghula hoop tagmathematics tagmathematics tagmathematics tagphysics tagphysics tagphysics tagrobotics tagrobotics tagrobotics tagscience tagscience tagscience taguncategorized taguncategorized taguncategorized tagapplied mathematics tagapplied mathematics tagapplied mathematics taggravity taggravity taggravity taghula hoop taghula hoop taghula hoop tagmathematics tagmathematics tagmathematics tagphysics tagphysics tagphysics tagrobotics tagrobotics tagrobotics

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    • Ar chevron_right

      Delve into the physics of the Hula-Hoop

      news.movim.eu / ArsTechnica • 3 January 2025 • 1 minute

    High-speed video of experiments on a robotic hula hooper, whose hourglass form holds the hoop up and in place.

    Some version of the Hula-Hoop has been around for millennia, but the popular plastic version was introduced by Wham-O in the 1950s and quickly became a fad. Now, researchers have taken a closer look at the underlying physics of the toy, revealing that certain body types are better at keeping the spinning hoops elevated than others, according to a new paper published in the Proceedings of the National Academy of Sciences.

    “We were surprised that an activity as popular, fun, and healthy as hula hooping wasn’t understood even at a basic physics level,” said co-author Leif Ristroph of New York University. “As we made progress on the research, we realized that the math and physics involved are very subtle, and the knowledge gained could be useful in inspiring engineering innovations, harvesting energy from vibrations, and improving in robotic positioners and movers used in industrial processing and manufacturing.”

    Ristroph's lab frequently addresses these kinds of colorful real-world puzzles. For instance, in 2018 , Ristroph and colleagues fine-tuned the recipe for the perfect bubble based on experiments with soapy thin films. In 2021 , the Ristroph lab looked into the formation processes underlying so-called "stone forests" common in certain regions of China and Madagascar.

    Read full article

    Comments

    • tagscience tagscience tagscience taguncategorized taguncategorized taguncategorized tagapplied mathematics tagapplied mathematics tagapplied mathematics taggravity taggravity taggravity taghula hoop taghula hoop taghula hoop tagmathematics tagmathematics tagmathematics tagphysics tagphysics tagphysics tagrobotics tagrobotics tagrobotics tagscience tagscience tagscience taguncategorized taguncategorized taguncategorized tagapplied mathematics tagapplied mathematics tagapplied mathematics taggravity taggravity taggravity taghula hoop taghula hoop taghula hoop tagmathematics tagmathematics tagmathematics tagphysics tagphysics tagphysics tagrobotics tagrobotics tagrobotics tagscience tagscience tagscience taguncategorized taguncategorized taguncategorized tagapplied mathematics tagapplied mathematics tagapplied mathematics taggravity taggravity taggravity taghula hoop taghula hoop taghula hoop tagmathematics tagmathematics tagmathematics tagphysics tagphysics tagphysics tagrobotics tagrobotics tagrobotics

    • Pictures 3 image

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    • Ar chevron_right

      Delve into the physics of the Hula-Hoop

      news.movim.eu / ArsTechnica • 3 January 2025 • 1 minute

    High-speed video of experiments on a robotic hula hooper, whose hourglass form holds the hoop up and in place.

    Some version of the Hula-Hoop has been around for millennia, but the popular plastic version was introduced by Wham-O in the 1950s and quickly became a fad. Now, researchers have taken a closer look at the underlying physics of the toy, revealing that certain body types are better at keeping the spinning hoops elevated than others, according to a new paper published in the Proceedings of the National Academy of Sciences.

    “We were surprised that an activity as popular, fun, and healthy as hula hooping wasn’t understood even at a basic physics level,” said co-author Leif Ristroph of New York University. “As we made progress on the research, we realized that the math and physics involved are very subtle, and the knowledge gained could be useful in inspiring engineering innovations, harvesting energy from vibrations, and improving in robotic positioners and movers used in industrial processing and manufacturing.”

    Ristroph's lab frequently addresses these kinds of colorful real-world puzzles. For instance, in 2018 , Ristroph and colleagues fine-tuned the recipe for the perfect bubble based on experiments with soapy thin films. In 2021 , the Ristroph lab looked into the formation processes underlying so-called "stone forests" common in certain regions of China and Madagascar.

    Read full article

    Comments

    • tagscience tagscience tagscience taguncategorized taguncategorized taguncategorized tagapplied mathematics tagapplied mathematics tagapplied mathematics taggravity taggravity taggravity taghula hoop taghula hoop taghula hoop tagmathematics tagmathematics tagmathematics tagphysics tagphysics tagphysics tagrobotics tagrobotics tagrobotics tagscience tagscience tagscience taguncategorized taguncategorized taguncategorized tagapplied mathematics tagapplied mathematics tagapplied mathematics taggravity taggravity taggravity taghula hoop taghula hoop taghula hoop tagmathematics tagmathematics tagmathematics tagphysics tagphysics tagphysics tagrobotics tagrobotics tagrobotics tagscience tagscience tagscience taguncategorized taguncategorized taguncategorized tagapplied mathematics tagapplied mathematics tagapplied mathematics taggravity taggravity taggravity taghula hoop taghula hoop taghula hoop tagmathematics tagmathematics tagmathematics tagphysics tagphysics tagphysics tagrobotics tagrobotics tagrobotics

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