上集「曼德拉效應」專輯 101」,
分享「曼德拉效應」是為了鑄造神的新婦。
今集「曼德拉效應」專輯 102」,
會分享世上經典名畫《蒙羅麗莎》及隕石成份的「曼德拉效應」。
貴婦肖像畫《蒙羅麗莎》(Mona Lisa),
於 1502 年文藝復興時期,
由著名意大利藝術創作繪畫大師達文西所繪畫,
是一幅世上絕大部分人都見過、可謂無人不知的名畫,
既是達文西最偉大的代表作之一,
亦是現時世上最著名的油畫之一。
根據瓦薩里記載,當年達文西花了四年時間完成這幅畫,
此後就一直常被人審查、研究或演繹,
但世上甚少有其他作品有同等價值。
現今,這幅畫屬於法國政府擁有,
並保存在巴黎羅浮宮供公眾欣賞。
但是,如此顯赫的名畫,
極可能已經發生了「曼德拉效應」。
在公開答案之前,先與大家玩一個遊戲,
考考大家的記性和觀察力。
畫面中,有左右兩幅《蒙羅麗莎》,
你的記憶中,究竟哪一幅才是正確呢?
是左邊,眼神冷漠、嘴角沒有向上彎,
還是右邊,眼神輕鬆、嘴角帶有明顯微笑呢?
給大家五秒時間想一想。
好!開估。現今的現實中,
右邊眼神輕鬆和嘴角帶有明顯微笑的,
才是《蒙羅麗莎》的面貌。
於部分人的記憶中,可能左邊神情冷漠的,
才是以往記憶中的《蒙羅麗莎》。
亦有部分人記得,《蒙羅麗莎》一直沒有改變過,
一直都是帶著微笑。
並且,這幅名畫的別稱就是《蒙羅麗莎的微笑》,
所以,畫中人有明顯微笑是合情合理,
記憶中是左邊的人,只是記性不好而已。
但事實,又是否真是如此呢?
《蒙羅麗莎》是否一直帶著明顯微笑呢?
如果,我們找到一些確鑿證據,
證明以往的歷史中,左邊神情較為冷漠的一幅,
才是真正歷史存在過的《蒙羅麗莎》,
你又如何解釋呢?
2006 年上映,改編自同名小說的著名電影《達文西密碼》,
鏡頭內曾經出現過名畫《蒙羅麗莎》,
留意,電影中的《蒙羅麗莎》,
究竟與剛才左邊神情冷漠的一幅相似,
還是與右邊神情輕鬆、嘴角帶微笑的一幅相似呢?
一起看看以下片段:
電影片段:
Her smile is in the lower spatial frequencies.
她的微笑空間頻率比較低,
The horizon is significantly lower on the left than it is on the right.
左方的地平線也很明顯,比右方來得低。
Why?
為什麼?
Well, see, she appears larger from the left than on the right. Historically the left was female, the right was male.
她從左邊看起來比右邊大,左邊代表女性,右邊代表男性。
我們再看一次。
電影片段:
Her smile is in the lower spatial frequencies.
她的微笑空間頻率比較低,
The horizon is significantly lower on the left than it is on the right.
左方的地平線也很明顯,比右方來得低。
Why?
為什麼?
Well, see, she appears larger from the left than on the right. Historically the left was female, the right was male.
她從左邊看起來比右邊大,左邊代表女性,右邊代表男性。
這是電影《蒙羅麗莎》畫像的定格片段。
這齣以名畫作者命名的電影《達文西密碼》,
非常明顯地,所使用的《蒙羅麗莎》畫像,
與剛才左邊神情冷漠的一幅非常相似,
並非如右圖神情輕鬆。
現在,我們看看左右對比,
左邊是《達文西密碼》的《蒙羅麗莎》,
右邊是舊現實神情冷漠的《蒙羅麗莎》,
明顯非常相似。
我們再對比,左邊是《達文西密碼》的《蒙羅麗莎》,
右邊是現今現實中,帶有明顯微笑的《蒙羅麗莎》,
兩幅明顯有分別。
奇怪嗎?這個現象又應該如何解釋呢?
明顯,十多年前拍攝並上映電影《達文西密碼》時,
名畫《蒙羅麗莎》在工作人員眼中,
必定是神情冷漠的模樣。
當然,拍攝這齣電影時,
《蒙羅麗莎》的畫像必定是仿製品,
但是,既然他們以達文西的畫為主題,
難道他們連《蒙羅麗莎》的真品都未見過嗎?
有可能連這麼明顯的分別,都看不見嗎?
並且,電影中舊現實的《蒙羅麗莎》,
不單比新現實的神情更冷漠,面型亦較瘦削。
非常明顯,名畫《蒙羅麗莎》已經發生了「曼德拉效應」。
最後提提大家,還記得電影《達文西密碼》,
是「2012 榮耀盼望」信息重點分享的電影之一嗎?
竟然就是這齣電影,
留下了《蒙羅麗莎》舊現實的殘餘現象!
此外,上星期「曼德拉效應」專輯 97:身體及宇宙的改變,
分享了地球在銀河系位置的「曼德拉效應」,
由本來銀河系最邊陲的射手座旋臂,
變為現今現實中,銀河系 180 度的另一邊,
相距至少 8 萬光年以外的獵戶座旋臂之上。
地球位置的變動,有不少殘餘現象,
例如:著名天文學家 Carl Sagan 和尼爾‧德格拉斯‧泰森(Neil deGrasse Tyson),
曾在美國著名電視節目上,指地球位於射手座旋臂之上,
明顯,龐大的地球和太陽系都經歷了「曼德拉效應」。
「曼德拉效應」專輯 97,
亦分享了一位專門研究和收集隕石的專家,
從一本天文學的大學舊課本中,
發現內容清楚指出,地球和太陽系是位於銀河系邊陲位置,
證明地球曾經位於射手座旋臂尾部。
現在讓我們再看看這本大學天文學課本的圖片,
它指出地球是位於銀河系邊陲,射手座旋臂的尾部。
圖中左邊有三幅圖,右邊有兩幅圖,
左下第三張是地球,右下第二張是太陽系。
將左下第三張的地球縮小後,放到右下第二張的太陽系,
地球就在太陽系接近中央的位置。
再將太陽系縮小後,放在銀河系之中,如圖中所見,
太陽系是在銀河系的邊陲,而不是銀河系中心和邊陲之間。
另一個證明地球位置由射手座旋臂,變為獵戶座旋臂的證據,
就是現今的現實中,落在地球的隕石普遍成份,
都發生了「曼德拉效應」。
在舊現實中,落在地球的隕石,主要含有鐵金屬的成份,
但現今落在地球上的隕石,含鐵量只有數個百分比,
維基百科資料顯示為 7.5%,與以往的記憶完全不同。
極可能是因為我們身處的地球已經移動了 8 萬光年的距離,
兩個地方的隕石物質不同,以往的位置普遍是高含鐵量,
現今的位置則是低含鐵量,
所以,地球的隕石歷史都已經因為「曼德拉效應」而改變了。
這位隕石專家私人收集了不少隕石,
部分是鐵隕石,主要成份就是鐵,
更曾出版了一本有關隕石研究的書籍,
可見,她並非一位目不識丁的人,
的確曾以大量時間和心力去研究,並將研究成果出版成書。
原來,隕石成份已經因為「曼德拉效應」改變了!
YouTube 片段:
Now this isn't related really to location but I did run across something that I particularly found pretty interesting.
這個不是與位置有關,但我看到的這部分確實很有趣,
when it was talking about the Tunguska blast that there was a lot of debate about that.
書本談及通古斯大爆炸,當時引起激烈爭議。
Remember the forest was completely flattened and they were trying to figure out, was it meteorite, was it an alien spaceship, blah blah blah.
記得當時森林被夷平,人們嘗試找出是否隕石引起,還是外星飛船。
Well, here they have something different than I remember and that's talking about meteorites as far as the composition.
這本書的描述卻與我的記憶不同,它講及隕石以及其成份。
SCREEN: This timeline purports that 2.6% of meteors are IRON...and that the majority are stony meteors
螢幕:這時空說 2.6%隕星是鐵質......而大多數是石質隕石
and what was mostly common and what was extremely rare in regard to iron, stony irons, carbonaceous chondrites, things like that.
什麼是常見、什麼是非常罕見,包括鐵、石鐵、碳粒隕石等等。
and I remembered which one was rare and which one was commonplace completely opposite of what this says.
我記憶中常見和罕見的種類,與書本的描述完全相反。
so this made me run to get my box of meteorites that I had collected several years ago.
驅使我翻出數年前收集的一盒隕石,
Yep, I know I'm kind of a nerd.
對,我就是書呆子。
because what I had remembered was that the stony, the chondrites especially carbonaceous chondrites things that had carbon obviously those were extremely rare and hard to find.
因為我的記憶是:石質隕石、球粒狀隕石,特別是含碳的碳粒隕石,都是非常罕見,難以尋找。
and that's why everyone would have a good collection if they had them, because they were looking for carbon out in the you know, solar system and universe trying to find evidence of life.
因此所有人都希望珍藏,因為他們想尋找出碳,存在於太陽系及宇宙中,來尋找生命的證據。
so I was hoping, dang, I hope my meteorites aren't gone.
我希望我的隕石還在,
and because most of the ones that I have are the irons which they're saying are now so rare.
因為我擁有的大多是鐵質,但鐵質在現今卻成為稀有品種。
SCREEN: I wouldn't have been able to afford thousands of dollars per GRAM prices for IRON meteorites (this timeline price).
螢幕:我不可能負擔每克數千美元的價錢購買鐵隕石(這時空的價格)
I don't know how that can be because that's not how it used to be.
我真的不能理解,因為以前不是這樣的,
Now some of these are exactly meteorites, some of these are tektites and moldavites which is still kind of cool.
這裡有隕石、玻璃隕石以及綠隕石,狀態良好。
like you can see, I don't know if you can see the fissure pattern on these.
你能否看到上面裂隙的花紋,
These are like impact glass when they come back in when a meteorite hits and you know debris goes flying into the outer space through the atmosphere and comes back down and cools, it makes these tektites.
這些碰撞產生的玻璃隕石,隕石在碰撞地面時,翻起的碎片穿越大氣層到外太空,下落時冷卻形成 玻璃隕石。
and they're all different composition depending on where the asteroids hit.
它們成份不同,按隕石撞擊的位置而定,
Some of them are pretty cool.
其中一些非常棒。
One of these moldavites, this is one of the coolest ones.
這綠隕石是最棒的一個,
It's now the Moldau River Valley in the Czech Republic.
來自捷克 Moldau 河谷,
These are green in color and it's actually thought that these are even the green stones that were in the Holy Grail.
都是綠色的,甚至有人認為是聖杯中的綠石。
and I know it's going to be kind of hard to see.
我知道比較難看到,
I can get light up that you see that green, that is kind of reminiscent of Superman's kryptonite.
我放在光下,綠石讓人聯想到超人的氪星石。
so those are pretty cool, I got several of those.
非常棒,我有幾塊,
but among the irons, I've got a piece from the Henbury Meteorite you know that's an iron.
在鐵隕石中,我有一塊來自亨百利隕石。
I got Mundrabilla, Australia iron.
澳洲慕拉比拉隕石,
Sikhote-Alin from the Russia fall.
俄羅斯老爺嶺隕石,
that one's pretty recent, 1947.
比較近期,在 1947 年。
another piece of that from Zag, Morocco Brecciated chondrite meteorite piece.
另一塊來自摩洛哥札格城,角礫化的碳粒隕石。
and you can see on most of the stony ones, versus the iron ones.
在大部分的石質隕石,對比鐵質的,
there's like a dark burnt fusion crust on the outside then you can see the speckles of you know the different crystals metals things.
外邊都有黑色燒焦熔殼,還有不同金屬結晶組成的斑點,
can't get to do it.
很難看到。
Right there so that's kind of cool.
對,都很棒!
and then the one that I thought was the coolest that I had was a piece of the Allende Meteorite that fell in Mexico.
我覺我最棒的一個,是墜落於墨西哥的阿連德隕石。
because this one is a carbonaceous chondrite so this feels just like a little stone.
因為這是碳粒隕石,看上去像普通石塊。
you can see the fusion crust on there.
你可看到上面的熔殼,
There's a piece that's broken off so you can hopefully see that a little bit.
有一邊破碎了,希望你還能看到。
so I thought that one was coolest one I had.
我本以為我這塊珍藏是最棒的,
but now that it's saying that the iron ones are really the most valuable.
但現時卻說鐵質隕石才是最珍貴的,
Well, that means I've got a big piece of the Gibeon Meteorite that fell in Namibia, Africa.
嗯,我有一大塊吉比恩隕石,來自非洲那密比亞。
and there's a huge piece of this also that's in a big museum.
某博物館也藏有一大塊,
This is an iron and this is very heavy, I mean This is like a solid.
這是鐵質的,非常的重,非常堅固,
I've got magnet here so you can like see.
我用磁石來做示範,
I mean that is like all iron, I mean it's, it's a really heavy meteorite.
它整個都是鐵來的,非常重的隕石,
and what's cool on the irons they're actually a mix of iron and nickel.
鐵隕石的特別之處,在於實際上是鐵和鎳混合而成,
and when these things are cut see there's the outside of a piece of it fusion crust.
當你把它切開,這是一塊的表面,熔殼。
When you cut it and etch it with nitric acid.
當你切開,加上硝酸,
now this one does have a little bit of rust on there.
這塊有一點點鏽,
but do you see that cross-hatched pattern that is the Widmanstätten pattern.
但你會看到交叉分明的圖案,稱為魏德曼花紋,
and that's really pretty, you know, out-of-this-world looking so that's pretty cool so.
非常的漂亮,超級的好看,
but anyway, so now it's saying that all these and especially, I guess my Sikhote-Alin from Russia is worth some money.
按照他們現今的說法,我估計俄羅斯老爺嶺隕石特別值錢。
and if irons are that rare now and that's what I have mostly.
因為他們說鐵隕石是稀有的,但我卻擁有好多,
Well, you might thought, well, maybe I was just confused when I got these.
你可能會覺得我一開始就搞錯了,
Not exactly, I have actually written, you can see this, a publication on meteorites.
不,因為我曾就隕石發表刊物。
screen: I decided in hindsight not to show my full name on the publication here.
螢幕:我後來決定不顯示我在刊物上的全名。
and I mean it's pretty technical,
這是非常技術性的研究,
and I had different friends that were working at different observatories and things.
我也有朋友在天文台等地工作,
and I did not get this wrong.
我不可能搞錯。
so I know that's the Mandela Effect and that's a pretty weird one to me.
我知道這是「曼德拉效應」,對我而言是非常奇怪的事,
because I mean, think about it.
因為,試想想,
Everything, different composition in the world itself, so it's not kind of like memories and other things.
這關乎世界上的所有成份,而不是一個人的記憶或其他,
but I mean the whole history in composition or whatever from where we are.
而是整個有關成份的歷史都修改了。
Yeah, that's just... I don't know... This is just kind of blowing me away.
真是...... 我無語了......這事讓我感到很震驚。
可是,為何宇宙墜落地球的隕石,會出現如此大的變化?
正如這位曾出版隕石研究書籍的隕石專家所發現,
為何宇宙墜落地球的隕石,由以往大部分含有鐵成份的鐵隕石,
變為現今現實含鐵量只有數個百份比呢?
簡單解釋是,
既然地球在銀河系的位置已經因為「曼德拉效應」而移動了 8 萬光年的話,
環繞地球附近飛馳的隕石,當然亦已經不同了。
Ref: 錫安日報 2012 榮耀盼望 vol. 392 (20170813):
https://www.ziondaily.com/2.0/web/word_of_god_02c/view.php?id=15876
https://www.ziondaily.com/2.0/web/word_of_god_02c/view.php?id=15876
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