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#銀的作用
#鈣在免疫系統的作用
#第150次知識尋求
#氧化銀
在最近的醫療教學,我們解釋氨基酸系統實際上是怎麼在作用的?氨基酸這樣作用的原因是什麼?比方,為什麼我們看到像氧化銀這樣的東西。
銀被發現對某些疾病起作用。在人類(歷史中)很受歡迎。
我們看到比較,雙線並行的東西。比方,這對於醫療界的人知識會一直新增的原因之一。
#免疫系統
這很重要,如果你了解這點,可以在醫學界做很多事。重要的是,讓我們看一下免疫系統。如果你細看,為什麼我們選擇或看到銀的好處與有效性。對於氧化銀在奈米銀的作用上有很多爭論。為什麼會有用?很多人不知道所以反對。
你了解人體結構。免疫系統建構的方式。人體裏頭的東西如何這個轉成那個以產生所需的條件。(2:38:13)
#骨頭
你談到蛋殼或骨頭的產生。胎兒成長的過程還沒有骨頭。骨頭從哪裡來?骨骼的生成需要什麼樣的條件?
現在我們第一次了解到蛋殼中鈣的生成。人體內部結構產生相當於鈣的場域,在那樣的條件下,子宮的,卵的環境決定等離子體磁場鈣化的程度,現在生成了骨骼。
#骨結構與免疫系統有關
如果你看人體的氨基酸連到免疫系統,防禦系統。
#骨髓
我們早先在醫療教學所了解的,發生了什麼?你有骨骼,骨骼讓淋巴進來。淋巴進來穿過骨骼壁時,變得『有強度』,人體決定骨髓的強度。或骨髓的組合成了紅血球細胞與其他細胞。還有免疫細胞,T細胞與B細胞。 (2:40:10)
當淋巴穿越骨骼結構,當中的鈣會被叫進來,所以在免疫細胞的結構裡,會有鈣的生成。因為產生鈣的強度振動吸引淋巴穿越骨骼。(2:40:44)
在過程中,它自身攜帶著鈣的磁引力場。因為它來,所以現在你的T細胞有鈣質。因為是它穩住的汪洋大海,所以它連接著。
所以現在為什麼所有的鈣都連到免疫系統?
為什麼,如果你看鈣的濃度,也會影響你的免疫系統?
鈣的某些強度連到氨基酸,
鈣的某些強度連到骨骼,
不同強度的鈣,連到不同濃度的氨基酸,與不同的免疫系統。所以產生T細胞,當中我們都知道有鈣的成分,因為它來自鈣。
現在T細胞穿越進入淋巴,進入胸腺與其它地方。並與人體的氨基酸結合,在平衡場域受到擾亂的地方,T細胞,B細胞,免疫系統會趕到受傷或不管什麼的現場。(2:42:14)
#跟鈣有何關係?
鈣如何黏附在受感染有疾病的氨基酸上?
人體結構有一個秘密。
如果你看鈣的頻譜,會發生什麼? 這些鈣…看周期表,為什麼鈣的隔壁是鉀。 鈣在感染的環境,因為它屬於較高階,弱於感染區所產生的大量的能量。
那種狀況所拿的鈣的能量強度,在鉀的強度。現在因為它在某種能量被給予,想在環境中平衡回來,所以產生鉀。(2:43:25)
現在鉀在那個強度參與,成了鉀40,非常活躍傳遞出高能量的β。所以現在你用高劑量的能量在轟炸感染區,那是細菌人體感染能被擊敗的方式。
因為鈣身為免疫系統在接近感染區,它是鈣,在鉀的強度轉換,產生打擊力的正負差距,到底要傳送強力的或收到較弱的。然後發送高劑量的高能量,也就是鉀40,也就是具高放射性的。(2:44:16)
我解釋過當你在高劑量時怎麼產生奈米材料。
因此現在史上第一次科學界終於知道鈣在免疫系統所扮演的角色。因為它的到來與它的位置較弱,它失去並想要給出能量,首先給到細胞的外層,就變得比較弱,以鈣的身分降階移到鉀。然後它釋放高劑量的β射線,很高劑量。然後那是感染獲得控制細胞被摧毀的方式。(2:45:06)
這是為什麼人會服用抗生素。
這是抗生素結構背後的原理。
這是人體免疫系統背後的原理。
現在看這個圖,看到鈣之同位素的頁面。
這在醫學界是一大突破。了解的人,我們翻轉科學界,第一次解釋到它如何運作,新增到知識來。
你能看出鈣在哪裡變成鉀嗎?你看到它在那裡,位在那裡。你看到它變成鉀,在過程中全是beta輻射。高劑量傳遞。負是鹼性,正是酸性磁力的,端視相較於環境是什麼疾病或感染。(2:47:00)
你看到在一個頻譜中,即使在鈣37,在人體的真空條件下有氬氣,會有集中的現象,代表在高劑量的輻射下釋放。
#回到銀的主題
現在回到銀,你看到銀正好表現地如出一轍,在正負beta衰變下。我告訴過你,我是核子物理學家,了解原子結構從一個轉換到另一個,在科學界從來就沒有核融這回事。核融,是的。分裂產生釋放的條件。
現在你看到鈣在全頻譜所有這些β衰變。你知道為什麼鈣在不同強度會參與免疫系統不同的部分(2:48:10)
如果看銀,你看到同樣的作用,巨量的β衰變。
正負β衰變轉換的不同磁引力場。你看到複製正好都是一樣的,差異從一邊開始,從34到57,另一邊從93到100,把銀除以2。93除以2。(2:49:18)
你會看到鈣在轉換成鉀的雙倍強度,銀的強度轉化為鈣與其他,分裂的本身會直接走到β衰變的強度。
壽命越短,毫秒越短,強度越強,代表瞬間一次性地釋放出來。半衰期如果過長就會非常漸進式。
當在瞬間微秒毫秒釋放時,會是非常集中的(2:50:01)
#那也是銀在人體傳遞與作用的方式,在對治感染區或要殺死細菌時。因為不只在β衰變,多少跟鈣很相同,同時強度是鈣的兩倍。
Silver function (2)~1
Before that, firstly look at how calcium function in the immune system
===
silver oxide,
⋯⋯
In the recent medical teaching, we were explaining how actually does the amino acids system work? What’s the reason the way the amino acids work? Why, for example, we see, things like silver oxide.
And silver has been found to be working on certain diseases. And it’s been popular with the humanity.
We look at the comparison, why is there kind of parallel? For example, this is one of the reasons that the knowledge been added on, who are in the health, interesting in the health section. Immune system This is important, if you understand this, you can do a lot with in the world of medicine. What is important, let’s look at the immune system.
If you look at it, and see why can we choose, or why do we see the effectiveness of the silver. There is a lot of debate on silver oxide work on the nano silver. Why does it work? There is lot of people who don’t understand it and oppose it. You have understand the structure of the human body. How the immune system been built. How does the material inside the human body convert one to another to create the condition when it is needed. (2:38:13)
bone
You spoke about the creation of the shell, of the egg, or the creation of the bone. When the fetus is growing, it has no bone. But where does the bone coming from? How is the condition made for the bone to be created?
Now we understand for the first time from the creation of the calcium, shell of the egg. The structure within the body creates the field, that equals to the calcium, but in that condition, the environment of the womb, the egg, that dictates calcification level of plasmatic magnetical field, now you have created the bone.
Bone structure linked to immune system If you look at all the amino acids of the human body, which are linked to immune system, defense system.
Bone marrow
If you look at it, as we understood in the original teaching of the medical, so what had happened? You have the bone, and this bone you get the lymph to goes in. And when the lymph goes inside, crossing the wall of the bone, it becomes “of the strength”, which the body has decided to be of the strength of bone marrow. Or combinations of bone marrow become red blood cells, and other cells. And immune cells, T cells, and B cells. (2:40:10)
As the lymph cross the bone structure, as the bone structure of the calcium which calls in upon the lymph to go, so within the structure of the immune system cells, there is built-in calcium. Because it was calcium vibration of strength which was created that attraction of the lymph to pass thru’ the bone. (2:40:44)
And in that process, it carries itself the gravitational-and-magnetical field of the calcium. So now you have the calcium in your T cells, as it comes up. because it’s the seas it’s the hold there. It’s connected. So, now, why do all the calciums are connected to the immune system?
Why, if you look at calcium level, you can affect your immune system, too? Certain strength of calcium are connected with amino acids, Certain strength of calcium are connected with the bone. Certain calcium in different strength are connected with different level of amino acids with different immune system.
So you have created a cell of T, in it, we all know there is a factor of calcium, because that’s it came from.
Now the T cells cross, and go into the lymph, go into thymus and into the rest. And in conjunction with the amino acids of the human body, at the point when there is a disturbance in the balance field, the T cells, B cells, the immune system attend the injury, whatever. (2:42:14)
What’s got to do with the calcium?
How does the calcium being attached to the amino acids with the disease, with the infection?
There is a secret in the structure of the human body.
If you look at the spectrum of the calcium, then, what happened? These calciums…look at the periodical table, why does it sit next to it, potassium. Calcium in the environment of infection, because it’s a higher order, it’s weaker than the infection, which was created so much energy inside of your infection. That condition takes the calcium level of energy, which is at the potassium level. Now because it’s given at some of the energy, trying to balance out in the environment, now it’s created the potassium. (2:43:25)
Potassium, now, part of it is in that level, becomes potassium 40, which is very active, deliver at high energy beta. So now you bombard the infection with the high dosage of energy, that’s how bacteria, or infection in the body of the man are destroyed.
Because the calcium is in approaching, coming to the point of the infection, as an immune system. It’s the calcium, which is by conversion in the strength of the potassium, create the gap of minus or plus, depending on what it is fighting, or what it delivers. We have to deliver stronger or receives weaker? Then you deliver heavy dosage of high energy, which is potassium 40, which is highly radioacted. (2:44:16)
I’ve explained this of how are you used to create nano-material, when you are in high dosage.
So now for the first time, the world of the science knows why does the calcium in the immune system. Because in it’s arrival, and its position, it’s weaker, it loses and tries to give the energy, it loses initially to the outer layer of the cells, and then it become weaker. It comes lower, it moves to the potassium as in the calcium. And then, it releases the high dosage of beta radiation, which is the strong dosage. And then, that’s how infection has overcome and destroyed the cells. (2:45:06)
That’s why you take antibiotics.
This is the principle behind the structure of antibiotics. This is the principle behind the immune system in the body of the man.
Now look at this figure, please bring up the page of isotope of calcium. This is the breakthrough in knowledge of science in the world of Medicine.
Those of you who understand with this, we have changed the world of science in explaining the first time how it works. It is adding to the knowledge
can you look where the calcium changes to potassium? you see it there, it sits. you see it becomes potassium and it's all beta radiation in the process. heavy doses delivery. Minus is alkaline, plus is acidic; magnetical, depends on what disease or infection in comparison to its environment needs. (2:47:00)
You see how in one spectrum, even at calcium 37, you get argon, argon in the vacuum condition of the body of the man is a centralization, which means delivery at the high doses of radiation. Now if we go back to silver, you'll see silver behaves exactly the same in a beta decay plus minus.
I told you, I'm a nuclear physicist, understand the whole structure of the atomic conversion from one to another. There never been a fusion in the world of science.
Fusion, yes. Division creates this condition of release.
But now when you see all this beta decay with the calcium in the full spectrum. now you see why calcium is at different strengths is different part of the immune system (2:48:10)
If you look at silver, you see the same behavior, huge amount of beta decay. Different strengths of gravitational-magnetic field of conversion in beta decay plus and minus in both. You see the replication is exactly the same, but the difference start on one side, you go from 34 to 57 , on the other side, you go from 93 to 100. and something, divide the silver by 2. 93 divided by 2. (2:49:18)
You see is double strength of calcium in conversion to potassium, that our strength of the silver conversion to calcium and the others which in their division themselves will go to another strength straightway beta decay.
The shorter lifespan, the shorter the milliseconds, the stronger the power is, because it means huge amount of released in one go in a very rapidly. When the expansion of half-life is too long. it's very gradual. When you have a very very microseconds and milliseconds, these are the heavy delivery (2:50:01)
and that's how silver delivers and works on the human body, as a what we call this infected or killing germs. Because not only is in a beta decay more or less the same as in the calcium, but at the same time it's the double the strength.
To be continued
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