{"id":55778,"date":"2025-11-12T04:45:54","date_gmt":"2025-11-11T19:45:54","guid":{"rendered":"https:\/\/phys-edu.net\/wp\/?p=55778"},"modified":"2025-11-12T04:46:49","modified_gmt":"2025-11-11T19:46:49","slug":"from-feline-grace-to-kendama-skill-the-hidden-physics-of-impact-absorption","status":"publish","type":"post","link":"https:\/\/phys-edu.net\/wp\/?p=55778&lang=en","title":{"rendered":"From Feline Grace to Kendama Skill: The Hidden Physics of Impact Absorption"},"content":{"rendered":"<p style=\"text-align: center;\"><span style=\"color: #339966;\"><strong>I&#8217;m Kuwako Ken, your Science Trainer. Every day is an experiment.<\/strong><\/span><\/p>\n<h1>The Physics of a Cat&#8217;s Landing<\/h1>\n<p>Suddenly, have you ever witnessed a cat&#8217;s incredibly graceful movement? A cat jumping down from a height lands silently and beautifully, almost without a sound. Can you imagine that the secret to this fluid motion holds the ultimate key to mastering Kendama (the Japanese cup-and-ball game)? Today, I&#8217;m going to talk about the surprisingly familiar &#8220;Physics&#8221; that connects the seemingly unrelated acts of a &#8220;cat&#8217;s landing&#8221; and &#8220;Kendama&#8221;!First, take a look at this breathtaking footage:<\/p>\n<p><iframe loading=\"lazy\" title=\"How do cats always land on their feet? - Life in the Air: Episode 1 Preview - BBC\" width=\"1140\" height=\"641\" src=\"https:\/\/www.youtube.com\/embed\/sepYP_knGWc?feature=oembed\" frameborder=\"0\" allow=\"accelerometer; autoplay; clipboard-write; encrypted-media; gyroscope; picture-in-picture; web-share\" referrerpolicy=\"strict-origin-when-cross-origin\" allowfullscreen><\/iframe><\/p>\n<p style=\"text-align: center;\">Super Slow-Motion Footage of a Cat&#8217;s Landing When filmed with professional equipment, it becomes clear just how advanced a technique the cat is using. The moment before landing, the cat stretches its legs toward the ground. Then, from the instant its paws barely touch the surface, it deep-bends its joints like a suspension system, sinking low until its entire body is close to the ground.<img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-27176\" src=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/8b6a6bfce800f50254c2bac464c01bd7.jpg\" alt=\"\" width=\"678\" height=\"280\" srcset=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/8b6a6bfce800f50254c2bac464c01bd7.jpg 874w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/8b6a6bfce800f50254c2bac464c01bd7-300x124.jpg 300w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/8b6a6bfce800f50254c2bac464c01bd7-768x317.jpg 768w\" sizes=\"auto, (max-width: 678px) 100vw, 678px\" \/><\/p>\n<p style=\"text-align: left;\">This entire sequence of movements is the very secret to its perfect shock absorption. And imitating this &#8220;shock absorption technique&#8221; of the cat is the fastest way to master Kendama.<\/p>\n<h3>The Secret to Kendama Success<\/h3>\n<p>The truth is, I (a science teacher!) often play Kendama with my students when teaching &#8220;Parabolic Motion&#8221; (the movement of a ball thrown into the air) in my science classes.<\/p>\n<h1><img loading=\"lazy\" decoding=\"async\" class=\"alignnone size-full wp-image-24835 aligncenter\" src=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/09730c7fc52358df426ec674a0a25a7c.jpg\" alt=\"\u30b9\u30af\u30ea\u30fc\u30f3\u30b7\u30e7\u30c3\u30c8 2016-04-26 6.09.16\" width=\"482\" height=\"357\" srcset=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/09730c7fc52358df426ec674a0a25a7c.jpg 482w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/09730c7fc52358df426ec674a0a25a7c-300x222.jpg 300w\" sizes=\"auto, (max-width: 482px) 100vw, 482px\" \/><\/h1>\n<p style=\"text-align: center;\">Why Kendama?<\/p>\n<p>You might wonder, but it&#8217;s because the process of getting better at Kendama requires mastering a crucial &#8220;body movement&#8221; that aligns perfectly with the laws of physics. Today, let&#8217;s explore the science hidden in Kendama together. Please try it with your children at home!<\/p>\n<h3>The Science Recipe<\/h3>\n<h4>What You Need:<\/h4>\n<p>A Kendama (The first step is always the challenge!)<\/p>\n<h4>Method:<\/h4>\n<p>First, try playing Kendama without overthinking it. If you&#8217;re a beginner, you&#8217;ll find it difficult just to hold it correctly, the ball won&#8217;t obey, and it&#8217;ll be hard to land it on the cup. Try to aim for the &#8220;Big Cup&#8221; (Ozara), the largest one. &#8230;How did it go? You might already be feeling a bit frustrated with the elusive ball (lol). Well, let me share a &#8220;tip&#8221; with you.<\/p>\n<h3>The Key Technique for Kendama Mastery<\/h3>\n<p>Here&#8217;s how experts describe the secret to Kendama improvement:<img loading=\"lazy\" decoding=\"async\" class=\"alignnone size-large wp-image-24833 aligncenter\" src=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/55b36b534831f7af17a56e984e55b9b7.jpg\" alt=\"\u30b9\u30af\u30ea\u30fc\u30f3\u30b7\u30e7\u30c3\u30c8 2016-04-25 16.15.37\" width=\"231\" height=\"272\" \/><\/p>\n<p style=\"text-align: center;\"><a href=\"https:\/\/amzn.to\/4hQplZE\">DVD\u3067 \u3059\u3050\u3067\u304d\u308b!\u3051\u3093\u7389\u4e0a\u9054\u30d6\u30c3\u30af (Kendama Mastering Book with DVD)<\/a><\/p>\n<p>\u2460 Hold the big cup and bend your knees.\u2461 Toss the ball straight up.\u2462 Insert the cup Just as the ball reaches its highest point, quickly move the cup directly underneath the ball.\u2463 Catch the ball Bend your knees as the ball falls to receive it gently.<\/p>\n<p style=\"padding-left: 30px;\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone size-full wp-image-24832 aligncenter\" src=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/c65ff46b70f269bb836929ff65871ad1.jpg\" alt=\"\u30b9\u30af\u30ea\u30fc\u30f3\u30b7\u30e7\u30c3\u30c8 2016-04-25 16.15.55\" width=\"303\" height=\"329\" srcset=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/c65ff46b70f269bb836929ff65871ad1.jpg 303w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/c65ff46b70f269bb836929ff65871ad1-276x300.jpg 276w\" sizes=\"auto, (max-width: 303px) 100vw, 303px\" \/><\/p>\n<p style=\"text-align: center;\">Quoted from: Kendama Mastering Book (Japan Kendama Association)<\/p>\n<p>Try following these steps, focusing especially on \u2462 and \u2463. After a few attempts, you&#8217;ll notice a significant increase in your success rate compared to before. But why does this work?<\/p>\n<h3>The Science of Kendama<\/h3>\n<p>The most important thing in Kendama is &#8220;how to soften the impact&#8221; between the cup and the ball. The tips mentioned earlier help us achieve this. First, let&#8217;s look at &#8216;\u2462 Insert the cup&#8217;:<\/p>\n<p style=\"text-align: center;\">Insert the cup &#8220;Just as the ball reaches its highest point.&#8221;<\/p>\n<p>Why the highest point? Because at the peak of its throw (the highest point), the ball is transitioning from upward to downward motion, meaning its velocity is instantaneously &#8220;zero.&#8221;<\/p>\n<p style=\"text-align: center;\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone size-full wp-image-27175\" src=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/0a823f0ea95e22e113b8a83ed3435e39.jpg\" alt=\"\" width=\"163\" height=\"193\" \/><\/p>\n<p>Since you are catching a ball that is stopped (zero velocity), the impact is minimized. This is a crucial concept taught in science and physics.Bending Your KneesHowever, in reality, it&#8217;s nearly impossible to insert the cup at the exact moment the velocity is &#8220;zero.&#8221; Inevitably, you end up catching the ball after it has started to fall (i.e., when it has a downward velocity). This is where the second tip comes in: &#8216;\u2463 Catch the ball&#8217; \u2014 &#8220;Bend your knees as the ball falls.&#8221; Doesn&#8217;t this bending motion look familiar? That&#8217;s right\u2014it&#8217;s the exact same movement as the cat&#8217;s landing we saw at the beginning! The cat also deeply bends its legs like springs, increasing the time over which the force is applied to the ground, to cushion the impact (damage) from the collision. If you try to catch the ball with fixed knees and a fixed cup, it&#8217;s like two rigid objects colliding: a large force (impact) is applied instantaneously, and the ball bounces off with a loud &#8220;clack!&#8221;<\/p>\n<p style=\"text-align: center;\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-27179\" src=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2017\/03\/45a4eda78d6d226f98543c2c936892ea.jpg\" alt=\"\" width=\"356\" height=\"253\" srcset=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2017\/03\/45a4eda78d6d226f98543c2c936892ea.jpg 516w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2017\/03\/45a4eda78d6d226f98543c2c936892ea-300x213.jpg 300w\" sizes=\"auto, (max-width: 356px) 100vw, 356px\" \/><\/p>\n<p style=\"text-align: center;\">When the cup is held still: A large force is applied all at once (= Ouch!)<\/p>\n<p style=\"text-align: left;\">Therefore, at the moment the ball touches the cup, you use your knees to gently lower the cup. This allows you to gain more &#8220;time&#8221; during which the ball is in contact with the cup.<\/p>\n<p style=\"text-align: center;\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-27180\" src=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2017\/03\/695899e52960070553f6573915fd53a6.jpg\" alt=\"\" width=\"387\" height=\"274\" srcset=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2017\/03\/695899e52960070553f6573915fd53a6.jpg 568w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2017\/03\/695899e52960070553f6573915fd53a6-300x212.jpg 300w\" sizes=\"auto, (max-width: 387px) 100vw, 387px\" \/><\/p>\n<p style=\"text-align: center;\">When the cup is lowered: The force is dispersed over time (= No Ouch!)<\/p>\n<p style=\"text-align: left;\">Since the force is dispersed over time (meaning the instantaneous force received is smaller), the ball doesn&#8217;t bounce and sticks perfectly to the cup, as if it were sucked in.<\/p>\n<p>The Relationship between Momentum and ImpulseThis phenomenon of &#8220;increasing the time to decrease the force&#8221; can be neatly explained with a physics concept: &#8220;Momentum and Impulse.&#8221; It might be slightly complicated, but let&#8217;s take a look. The ball falls with a &#8220;Momentum $mv$&#8221; (the magnitude of its motion). The cup stops it (v&#8217;=0) by applying an &#8220;Impulse Ft&#8221; (Force times Time).<\/p>\n<p style=\"text-align: center;\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-27182\" src=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2017\/03\/0b99c2049cebb219fcd9fb5ba0a8edce.jpg\" alt=\"\" width=\"265\" height=\"189\" srcset=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2017\/03\/0b99c2049cebb219fcd9fb5ba0a8edce.jpg 486w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2017\/03\/0b99c2049cebb219fcd9fb5ba0a8edce-300x214.jpg 300w\" sizes=\"auto, (max-width: 265px) 100vw, 265px\" \/><\/p>\n<p style=\"text-align: center;\">mv \u00a0\u2212 Ft = mv&#8217;<\/p>\n<p style=\"text-align: center;\">(Initial Momentum $\\quad$ + $\\quad$ Impulse $\\quad$ = $\\quad$ Final Momentum)<\/p>\n<p style=\"text-align: left;\">Since the goal is to stop the ball, the final velocity $v&#8217;$ is 0, so:<\/p>\n<p style=\"text-align: center;\">$mv$ $\\quad$ \u2212 $\\quad$ $Ft$ = 0<\/p>\n<p>Solving this equation for the force $F$ that the cup applies to the ball:<\/p>\n<p style=\"text-align: center;\">$F = \\frac{mv}{t}$<\/p>\n<p style=\"text-align: center;\">(Force = Initial Momentum $\\div$ Time)<\/p>\n<p>This formula tells the whole story! To reduce the force $F$ received from the cup (which causes the bounce), you must either increase the &#8220;time $t$&#8221; in the denominator or decrease the &#8220;initial momentum $mv$ (or velocity $v$)&#8221; in the numerator. Therefore, the secrets to Kendama are&#8230;&#8221;Catching the ball at its highest point (where velocity $v$ is minimal)&#8221; $\\rightarrow$ Strategy to minimize momentum.&#8221;Bending your knees to match the falling ball&#8221; $\\rightarrow$ Strategy to increase time $t$&#8230;.a perfect strategy based on two laws of physics!Relative Velocity \u3000 By the way, bending your knees has one more benefit. By lowering your line of sight (the cup) along with the ball, the ball appears to fall slower from your perspective (this is called &#8220;reducing the relative velocity&#8221;). This is the same principle as watching a train moving slowly next to your moving train. This makes it easier to land the ball on the cup.<\/p>\n<h3>So Much to Learn from Kendama!<\/h3>\n<p>As you can see, the simple game of Kendama is packed with science, connecting a cat&#8217;s landing to physics equations. It truly is a perfect teaching tool. I encourage you to enjoy playing Kendama at home and experience the fun of physics firsthand: &#8220;I&#8217;m increasing the impact time now!&#8221; or &#8220;I&#8217;m doing what the cat does!&#8221; A simple game like this is how an interest in science often begins.: By the way, how you hold the Kendama cup is also important. Put your thumb over the top and press the bottom cup with your other fingers. This stabilizes the cup and increases your chances of success.<img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-27177 aligncenter\" src=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/e31dd212403a564da57b57030fd0ee5e.jpg\" alt=\"\" width=\"238\" height=\"150\" srcset=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/e31dd212403a564da57b57030fd0ee5e.jpg 396w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/e31dd212403a564da57b57030fd0ee5e-300x189.jpg 300w\" sizes=\"auto, (max-width: 238px) 100vw, 238px\" \/><\/p>\n<h3>Inquiries and Requests<\/h3>\n<p>Bring the wonder and fun of science closer to you! We&#8217;ve compiled easy-to-understand fun science experiments you can do at home and their tips. Feel free to search through our articles!The content of our science blog has been turned into a book. Learn more <a href=\"https:\/\/amzn.to\/42PMCEL\">here<\/a>For information about the administrator, Kuwako Ken, click <a href=\"https:\/\/phys-edu.net\/wp\/?page_id=37\">here<\/a>For various requests (writing, lectures, experimental classes, TV supervision\/appearances, etc.), click <a href=\"https:\/\/phys-edu.net\/wp\/?page_id=188\">here<\/a><span class=\"s2\">&#8211; Article updates are posted <a href=\"https:\/\/x.com\/kuwako\">on X<\/a>!<\/span><\/p>\n<p style=\"text-align: center;\"><a href=\"https:\/\/www.youtube.com\/user\/kkuwako\"><img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-35048\" src=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2020\/03\/3d9640dad7bc5538e76f92da1966ee19.jpg\" alt=\"\" width=\"30\" height=\"21\" \/><\/a>We post experimental videos on the <a href=\"https:\/\/www.youtube.com\/user\/kkuwako?sub_confirmation=1\">Science Channel<\/a>!<\/p>\n<h3>\uff15\u6708\u306e\u30a4\u30c1\u30aa\u30b7\u5b9f\u9a13\uff01<\/h3>\r\n<p>\u30ad\u30fc\u30f3\u3068\u51b7\u3048\u308b\u30c9\u30e9\u30a4\u30a2\u30a4\u30b9\uff01\u6c17\u6e29\u304c\u4e0a\u304c\u3063\u3066\u304f\u308b\u3053\u306e\u6642\u671f\u30fb\u30c9\u30e9\u30a4\u30a2\u30a4\u30b9\u3092\u4f7f\u3063\u305f\u6607\u83ef\u30fb\u51dd\u7d50\u30fb\u7b49\u901f\u5ea6\u76f4\u7dda\u904b\u52d5\u306e\u5b9f\u9a13\u306f\u3044\u304b\u304c\uff1f<\/p>\r\n<p><img class=\"alignnone wp-image-39516 aligncenter\" src=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2022\/03\/0618612becc032a60bdda50090ccccbe.jpg\" sizes=\"auto, (max-width: 550px) 100vw, 550px\" srcset=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2022\/03\/0618612becc032a60bdda50090ccccbe.jpg 1406w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2022\/03\/0618612becc032a60bdda50090ccccbe-300x168.jpg 300w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2022\/03\/0618612becc032a60bdda50090ccccbe-1024x572.jpg 1024w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2022\/03\/0618612becc032a60bdda50090ccccbe-768x429.jpg 768w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2022\/03\/0618612becc032a60bdda50090ccccbe-320x180.jpg 320w\" alt=\"\" width=\"453\" height=\"253\" \/><\/p>\r\n<p style=\"text-align: center;\"><a href=\"https:\/\/phys-edu.net\/wp\/?p=39513\">\u6db2\u4f53\u30bc\u30ed\uff01\u30c9\u30e9\u30a4\u30a2\u30a4\u30b9\u304c\u6d88\u3048\u308b\u307e\u3067\u306e\uff13\u6642\u9593\u3092\u79d1\u5b66\u3059\u308b\uff08\u6607\u83ef\u30fb\u51dd\u7d50\u30fb\u7b49\u901f\u5ea6\u76f4\u7dda\u904b\u52d5\uff09<\/a><\/p>\r\n<h3 style=\"text-align: left;\"><span style=\"font-size: medium;\"><b><strong>\u30c6\u30ec\u30d3\u756a\u7d44\u76e3\u4fee\u30fb\u30a4\u30d9\u30f3\u30c8\u7b49\u306e\u304a\u77e5\u3089\u305b<\/strong><\/b><\/span><\/h3>\r\n<ul>\r\n<li>4\u670830\u65e5\uff08\u6728\uff09\u300cTHE\u7a81\u7834\u30d5\u30a1\u30a4\u30eb\u300d\uff08\u65e5\u672c\u30c6\u30ec\u30d3\uff09\u306e<a href=\"https:\/\/phys-edu.net\/wp\/?p=62906\">\u79d1\u5b66\u76e3\u4fee\u3092\u62c5\u5f53\u3057\u307e\u3057\u305f<\/a>\u3002<\/li>\r\n<li>5\u67088\u65e5\uff08\u91d1\uff09<a href=\"https:\/\/phys-edu.net\/wp\/?p=62629\">\u7406\u79d1\u6559\u80b2\u30cb\u30e5\u30fc\u30b9<\/a>\u3092\u62c5\u5f53\u3057\u307e\u3057\u305f\u3002<\/li>\r\n<li>6\u670814\u65e5\uff08\u65e5\uff09\u3000\u5343\u8449\u5927\u5b66\u30a4\u30f3\u30b9\u30bf\u30ec\u30fc\u30b7\u30e7\u30f3\u300c\u63a2\u7a76\u300d\u306b\u3066\u8b1b\u5e2b\u3092\u52d9\u3081\u307e\u3059<\/li>\r\n<li>6\u670826\u65e5\uff08\u91d1\uff09\u3000\u5343\u8449\u5927\u5b66\u306e\u516c\u958b\u7814\u7a76\u4f1a\uff08\u4e2d\u5b66\u7406\u79d1\u306b\u3064\u3044\u3066\u6388\u696d\u516c\u958b\u4e88\u5b9a\uff09<\/li>\r\n<li>7\u670818\u65e5\uff08\u571f\uff09\u3000<a href=\"https:\/\/phys-edu.net\/wp\/?p=60018\">\u6559\u54e1\u5411\u3051\u5b9f\u9a13\u8b1b\u7fd2\u4f1a\u300c\u30ca\u30ea\u30ab\u30ab\u30b5\u30a4\u30a8\u30f3\u30b9\u30a2\u30ab\u30c7\u30df\u30fc\u300d\u306e\u8b1b\u5e2b\u3092\u3057\u307e\u3059<\/a>\u3002\u304a\u4f1a\u3044\u3057\u307e\u3057\u3087\u3046\u3002<\/li>\r\n<\/ul>\r\n<h3><b>\u66f8\u7c4d<strong>\u306e\u304a\u77e5\u3089\u305b<\/strong><\/b><\/h3>\r\n<ul>\r\n<li>\u300e\u5927\u4eba\u306e\u305f\u3081\u306e\u9ad8\u6821\u7269\u7406\u5fa9\u7fd2\u5e33\u300f\uff08\u8b1b\u8ac7\u793e\uff09\u2026\u4e00\u822c\u5411\u3051\u306b\u65e5\u5e38\u306e\u7269\u7406\u306b\u3064\u3044\u3066\u516c\u5f0f\u3092\u5143\u306b\u7d10\u89e3\u304d\u307e\u3057\u305f\u3002<a href=\"https:\/\/phys-edu.net\/wp\/?p=1827\">\u7279\u8a2d\u30b5\u30a4\u30c8<\/a>\u3067\u306f\u5b9f\u9a13\u3092\u591a\u6570\u7d39\u4ecb\u3057\u3066\u3044\u307e\u3059\u3002<strong>\u203b\u5897\u5237\u304c\u304b\u304b\u308a\uff16\u5237\u3068\u306a\u308a\u307e\u3057\u305f\uff082026\/02\/01\uff09<br \/><img class=\"alignnone wp-image-10940 aligncenter\" src=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2013\/12\/0811159a99f69eeff1a357e3daed84e0-300x262.jpg\" sizes=\"(max-width: 220px) 100vw, 220px\" srcset=\"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2013\/12\/0811159a99f69eeff1a357e3daed84e0-300x262.jpg 300w, https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2013\/12\/0811159a99f69eeff1a357e3daed84e0.jpg 311w\" alt=\"\u30b9\u30af\u30ea\u30fc\u30f3\u30b7\u30e7\u30c3\u30c8 2014-07-05 0.43.51\" width=\"220\" height=\"192\" \/><br \/><\/strong><\/li>\r\n<li>\u300e\u304d\u3081\u308b!\u5171\u901a\u30c6\u30b9\u30c8 \u7269\u7406\u57fa\u790e 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href=\"http:\/\/phys-edu.net\/wp\/?page_id=37\">About<\/a>\u00a0\u2026\u300c\u79d1\u5b66\u306e\u30cd\u30bf\u5e33\u300d\u306e\u30b3\u30f3\u30bb\u30d7\u30c8\u3084\u3001\u904b\u55b6\u8005\u3067\u3042\u308b\u6851\u5b50\u7814\u306e\u30d7\u30ed\u30d5\u30a3\u30fc\u30eb\u30fb\u60f3\u3044\u3092\u307e\u3068\u3081\u3066\u3044\u307e\u3059\u3002<\/li>\r\n<li><a href=\"https:\/\/phys-edu.net\/wp\/?page_id=188\">\u304a\u554f\u3044\u5408\u308f\u305b<\/a> \u2026\u5b9f\u9a13\u6559\u5ba4\u306e\u3054\u4f9d\u983c\u3001\u57f7\u7b46\u30fb\u8b1b\u6f14\u306e\u76f8\u8ac7\u3001\u79d1\u5b66\u76e3\u4fee\u7b49\u306f\u3053\u3061\u3089\u306e\u30d5\u30a9\u30fc\u30e0\u304b\u3089\u304a\u5bc4\u305b\u304f\u3060\u3055\u3044\u3002<\/li>\r\n<\/ul>\r\n","protected":false},"excerpt":{"rendered":"<p>I&#8217;m Kuwako Ken, your Science Trainer. Every day is an experiment. The Physics of a Cat&#8217;s Landing S [&hellip;]<\/p>\n","protected":false},"author":1,"featured_media":24835,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"_sitemap_exclude":false,"_sitemap_priority":"","_sitemap_frequency":"","sns_share_botton_hide":"","vkExUnit_sns_title":"","vkexunit_cta_each_option":"","_lightning_design_setting":{"layout":"default"},"footnotes":""},"categories":[781],"tags":[],"class_list":["post-55778","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-science-en"],"jetpack_featured_media_url":"https:\/\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/09730c7fc52358df426ec674a0a25a7c.jpg","jetpack-related-posts":[{"id":56046,"url":"https:\/\/phys-edu.net\/wp\/?p=56046&lang=en","url_meta":{"origin":55778,"position":0},"title":"Why Do Cats Survive Big Falls? 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Every day is an e\u2026","rel":"","context":"Science","block_context":{"text":"Science","link":"https:\/\/phys-edu.net\/wp\/?cat=781&lang=en"},"img":{"alt_text":"","src":"https:\/\/i0.wp.com\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/9c8f28bb07a1e2554651ba7cdcf7041c.jpg?resize=350%2C200&ssl=1","width":350,"height":200,"srcset":"https:\/\/i0.wp.com\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/9c8f28bb07a1e2554651ba7cdcf7041c.jpg?resize=350%2C200&ssl=1 1x, https:\/\/i0.wp.com\/phys-edu.net\/wp\/wp-content\/uploads\/2016\/04\/9c8f28bb07a1e2554651ba7cdcf7041c.jpg?resize=525%2C300&ssl=1 1.5x"},"classes":[]},{"id":51166,"url":"https:\/\/phys-edu.net\/wp\/?p=51166&lang=en","url_meta":{"origin":55778,"position":1},"title":"Fascinating Physics in Space: Action-Reaction, Inertia, and Conservation of Momentum (Classroom Use) [Highlights from Astronaut Wakata\u2019s Videos]","author":"\u6851\u5b50 \u7814","date":"2025\u5e748\u670824\u65e5","format":false,"excerpt":"I'm Ken Kuwako, a science trainer. 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