字幕列表 影片播放 列印英文字幕 Why Does the Moon Look Bigger on the Horizon? The question of why the Moon looks bigger on the horizon than when it’s high in the sky has been debated for several thousand years. One popular myth, dating all the way back to Aristotle in the fourth century BC and which still endures somewhat today, is that it is simply a case of magnification caused by the Earth’s atmosphere. While a “magnification” effect is taking place, it actually is going the other way and is more of a compression. Atmospheric refraction causes the Moon to appear slightly smaller in the vertical axis when it is near the horizon vs. when it is high in the sky. This refraction, combined with the fact that the Moon is about 4,000 miles farther away when it is on the horizon, causes it to appear 1.5% smaller, if you were to measure very precisely its apparent size on the horizon vs. higher in the sky. So if it’s not magnification from the Earth’s atmosphere, what is going on here? In short, the Moon appearing bigger near the horizon is nothing more than an optical illusion. It’s really as simple as that. You can verify this fact by taking a pair of calipers, or even just a ruler, and measure the diameter of the Moon on the horizon; later that night, when it is higher in the sky, measure it again. (Be sure and hold the measuring device at the same distance away from your eyes each time to get accurate results.) If you do it precisely enough, you’ll find that it actually will measure about the same size both times, despite appearing nearly twice as big to your brain when it is on the horizon. Exactly what is going on in our brains to cause this optical illusion is still somewhat up for debate, but it seems to center around size consistency, where our brains are trying to grapple with the size of an object vs. how far away it thinks it is. For instance, when you see people very far away from you and their heads look incredibly tiny, your brain doesn’t think for an instant that the people and their heads are actually tiny. Your brain adjusts your perception based on what else is in your vision to gather that third dimension of depth. Something of this same effect is thought to be happening with the Moon, only this time your brain is getting tricked into thinking that the Moon is farther away when it is on the horizon, making it appear bigger to you. This is known as a Ponzo Illusion, named after Italian psychologist Mario Ponzo. Mario Ponzo first demonstrated the “Ponzo Illusion” in 1913. In this experiment, Ponzo drew two converging vertical lines on a piece of paper. He then drew two horizontal lines crossing these lines, one at the top, and one at the bottom. These two horizontal lines are the same length, but it appears that the one at the top is much longer because it looks farther away. (See image in the show notes) This is due to our brains interpreting the two converging lines as parallel lines that only appear to be converging because they are getting farther away. Thus, if both horizontal lines are making the same length “imprint” on our eyes, but one is farther away, then the one that is farther away must be much larger, so our brains perceive it as larger than it actually is. So, in the end, it’s a matter of our brain’s getting tricked in terms of the distance from the Moon to us when it’s on the horizon vs. high in the sky. When it’s on the horizon, the brain has reference points to compare and judge the distance, and similarly adjust the apparent size based on that perceived distance. When it is high in the sky, there is nothing useful to compare it to, so the apparent size changes based on how far away our brain thinks it is at that point, namely, thinking that it is closer to us high in the sky and farther away on the horizon.
B1 中級 美國腔 為什麼月亮在地平線上看起來更大? (Why Does the Moon Look Bigger on the Horizon?) 69 10 Jack 發佈於 2021 年 01 月 14 日 更多分享 分享 收藏 回報 影片單字