The video owner has disabled playback on external websites.
This video is no longer available on YouTube.
This video cannot be played right now.
Watch on YouTube
ابزارهای یادگیری هوش مصنوعی را باز کنید
ثبتنام کنید تا به ابزارهای قدرتمندی دسترسی پیدا کنید که به شما کمک میکنند سریعتر از هر ویدیو یاد بگیرید.
Travel INSIDE a Black Hole
آمار یادگیری
سطح CEFR
سختی
زیرنویسها (128 بخشها)
Hey, Vsauce. Michael here. And today we are going to go inside a black hole. It's not
going to be comfortable, but it will be pretty fun. Now, first thing's first: mathematically
speaking, anything could become a black hole, if you were to compress it into a small enough
space. That's right, you, me, this camera - everything in the unvierse has what is known
as a "Schwarzschild radius." A tiny, tiny amount of space that, were you to collapse the entire
mass of the object into, its density would be so great that its gravitational pull would
be so great that not even light could escape from it. You would have a black hole.
If you were to compress Mount Everest into something smaller than a nanometer, you would
have a black hole. And if you were to compress the entire Earth down to the size of a peanut,
you would have a black hole.
But, fortunately for us, there is no known way to compress Everest or Earth in that fashion.
But a star, many, many, many times larger than our own Sun, has a much larger Schwartzchild
radius, and when it runs out of fuel and can no longer keep itself hot enough, it collapses
to a single, infinitesimally-small point known as a "singularity."
Its density will be infinite and so its gravitational pull will be so strong that
nothing can escape, not even light.
But enough about ways black holes form, let's jump into one. First question: what would
it look like from the outside? Well, we know that gravitational fields bend space and time.
Stars behind our Sun will actually appear to be in slightly different locations from
Earth, because the Sun's gravitational field bends the light coming from those stars.
When it comes to the gravitational fields of larger objects, like entire galaxies or,
for that matter, a black hole, the effect is even nuttier. Light coming from object's
behind them is significantly distorted, producing smears and smudges.
As seen from Earth, the blue galaxy behind this red galaxy is completely distorted, like
a fun house mirror. So, rather than appearing as it really should, it looks to us like a ring -
a smudge all the way around the red galaxy.
زیرنویس کامل در پخشکننده ویدیو موجود است
با تمرینها یاد بگیرید
تمرینهای واژگان، گرامر و درک مطلب از این ویدیو بسازید
نظرات (0)
برای نظر دادن وارد شویدثبتنام کن و همه امکانات رو باز کن
پیشرفتت رو دنبال کن، واژگان رو ذخیره کن و تمرین کن
حالت تعاملی
آزمون
پاسخ صحیح:
ویدیوهای مرتبط
Learn English By Movies - The Pursuit Of Happyness (Scene With Subtitles)
Adele Called Jennifer Aniston 'Rachel' While She Was Using A Cubicle | The Graham Norton Show
Iconic Moment when Rebel Wilson Delivers Funny, Incredible Speech | EE BAFTA Film Awards 2020
La La Land (2016 Movie) Official Clip – “City Of Stars”
F.R.I.E.N.D.S Ross's Sandwich
Vsauce
آزمون
پاسخ صحیح:
آزمونها هنگام تماشای ویدیو ظاهر میشوند
راهنمای حفظ
از این ویدیو
شروع رایگان یادگیری زبان
