翻译凯史第7次医疗教学

1、20141024凯史第7次医疗教学:2017-12-08中文听译：无伤中文听写：移动Agent英语：智慧之光中英校对：最后更改：2015年8月13日（听译者注：从凯史开始的25分22秒开始听译)Thank you, Eliya, that was a nice presentation; Ill put up the last slide there sothat people can see where the healthkf is; any questions at your end,on the Skype call, or anywhere else there? Vince, or

2、 others?凯史：感谢你。你展示得很好。我将最后一张幻灯片，以便人们在这上面看到healthkf。在你结束教学时，在Skype上或其它任何地方或这里的和其它人，有什么问题吗？Oh, no. The information for the periodic table is only due to our observations at the time with our knowledge, but I see that in previous years, Im talking about thousands of years ago, I think, a long time ago,

3、 there was a periodic table that they also had and that was also circular which Ive seen a couple of times around the internet, so its just that, I think that periodic table is an observation at the time of our knowledge is, to deal with whats around us in our environment, and I think thats about to

4、 change.：啊，没有。周期表上的信息只是由于我们那时所具有知识的看法，但我认为过去几千年前的人们也有周期表，并且也是循环的。我在互联网上多次看到的就是这样说的。我认为周期表是我们人类当时运用知识对我们周围那变化环境因素的一种处理方式、一种认识。（25：22）I presume you arking about what Im going to say.说的。凯史：你这话就是Thats correct.：是的。You see, there is no problem in, this goes back to what we started more or lessseparating i

5、n a very clear point with the childrens program on Wednesday.凯史：你明白这不算什么问题。这可以回忆一下我们开始在周三儿童教学内容，就能非常清楚地明白这个问题了。Periodic table is correct in the matter state. We have the same kind of, what do you call it, elements in the plasma state; its the behavior. So, we dont say if the periodic table is right

6、or wrong, no, its there, its helped us to develop technologies and life style around it to understand it. But, now, as I said, periodictable goes with physics, science of physics, not science of plasma.在这个物理层面，这个周期表是正确的。在等离子体层面，也有所说的元素这一同样的名称和它同样的行为。所以我们不能说周期表是正确或错误的。根据并理解了这个表，就能帮助我们去开发技术和创造生物类型。现在正

7、如我所说的，周期表跟有关，而与等离子体科学无关。So, in the plasmatic condition, which is the work of the universe, and its not inthe matter state, what we call in the gans state, as a plasma of an entity, then you have a different approach, different understanding in respect to the whole thing. 因此，在等离子体条件下，周期表是指宇宙的运行，而不是指物

8、质状态。若我们把处在 状态的东西叫做实体的等离子体，那么你对整个事物就有不同的方法、不同的理解。So, there is nothing wrong with periodic table, but in plasma we dont see an electron. So, the first thing when you go into that state, throws the whole periodic table into turmoil because it works for number of electrons and protons and neutrons, and

9、we dont have that. So, now we have to establish a new understanding in how we see plasma, which is all about the same shape and size, in respect to what they are, what they perform, what they indicate, what they, whatcondition they create for the environment they are in.这样认识周期表就出错。但在等离子体中，我们看不到电子，因此

10、当你进入那种等离子体状态，首先会对整个周期表产生的认识，因为以前认为周期表演示一些电子和质子和中子的运行，我们现在不能有这种认识了。因此，我们现在只好用我们能理解的等离子体的运行方式来建构一个新的知识体系，就是关于它们表现出来的相同形状和大小、它们的运行、它们的表现、它们为环境创造的条件。So, in plasma technologiy, when you are open to the structure of the plasma, look it like a gans of copper-oxide, look at the gans of the CO2, you dont see

11、 number of protons, you dont see number of neutrons, you dont see electrons.因此，用等离子体技术，我们打开了等离子体结构，它看上去像一个氧化铜 。看看CO2吧，你不能看到一些质子，你不能看到一些中子，你不能看到电子。So, where does the knowledge go? But, we see the behavior of CO2. We seebehavior of copper-oxide, so, the new technology, the new science in plasmatechnol

12、ogy which, thats why I said its totally different in physics, becausephysics to me is a matter state, and there is nothing wrong with it because as a state we have to accept and matter in that state behaves that way, it shows itself to be what it is, so if you are used to one electron and one proton

13、, if I can go bigger and bigger that you can see it, then, what happens to this plasma?, which is just hydrogen, behaves like hydrogen and shows itself like hydrogen, but inside it, wecannot see any separation.因此，这个知识体系将把我们引向何方呢？但我们看看CO2能明白：就是我所说的这个新的等离子体科技与与以前整个和氧化铜的表现，那有什么不同，因为我把看成是一个物质状态是错的，因为作为这

14、种状态，我们必须承认并认为是与那种物质自身表现出的状态、那种方式有大，放得越来越大，你就能看到等离子体看它里面却没有任何间隙。，因此如果你把一个电子、一个质子放，它正是氢，它表现像氢，但我们So, there is a need for a new understanding of plasma. So, how do you understand,how can we recognize, how can we distinguish one element plasma from another plasma?因此，需要有一个新等离子体的知识，因此，怎么才能让你理解，我们又怎么能确认、区别

15、一个电子等离子体是来自另外一个等离子体的呢？In a very simple way, we have to devise new systems; new systems where they can measure the magnetical, what the plasma rejects, and gravitational, what plasma brings in as magnetic field. And the difference between the two is the strength of that plasma, in its environment, be

16、cause the same plasma on Earth condition can be this size, but when we go to another position, the same plasma can be this size. So, then we see, the plasma is conditioned to what environment allows it to growinto, and take.用一个十分简单的方式 ，我们必须设计新的能测量系统，能测量等离子体出的磁场、随着磁场而带进来的的引力场强度。（28：45。凯白板上画了两个圆圈，有一个大

17、有一个小。）它们之间的差异是它环境中等离子体的强度，因为地球条件下同一等离子体能有这个尺度；但当我们进入另一太空位置，相同的等离子体能有另一尺度。（凯旁边画了一个更大的圆圈，代表那个更大的等离子体)那么我们就看到环境获取什么。等离子体变成什么、Maybe in another universe, maybe in another part of the galaxy where there ismuch stronger gravitational magnetic field, the size of the plasma of the hydrogen will be this big,

18、because this is what the environment in that area allows it to takesize of.也许在另一宇宙、另一星系部分中有很强的斥引力场，氢等离子体的大小将是较大的，因为它是在这个区域的环境它获得这种尺度。This is what we always say. In the larger scale, the size of this solar cell which is oneplasma is dictated by the gravitational magnetic field of the total galaxy of

19、thefields of its own, what we call, area dictate it to be and allows it to be. If you goback to human body, the gravitational magnetic field and the size of thethe chest allows and dictates the size of the heart and the size of the lung. But,ofthats a physical restriction. The same thing happens in

20、the universe, but insteadof bones gravitational magnetic fields decide it. If youve been online for past fewdays and even today, you see it very clearly.这就是我的。在较大尺度上，星系中的“太阳单元”是一个等离子体，它的大小是由整个星系自身的斥引力场决定的。我们所说的这个区域决赛和太阳是这样的大小。如果你回到人类身体，胸腔的斥引力场和大小和决定了心脏和肺的大小。但这是物理的预制。同样的事发生在宇宙。但胸腔的骨骼的斥引力场也决定着它心脏的大小。如

21、果你几天前甚至今天，你就能清楚地明白这个问题。Gravitational magnetic field of the system allows for us if it shrinks to hear theradio, and then when it expands due to its strength we cannot hear the radio. Thats a physical observation. So, how do we recognize elements in the universe according to their plasmatic gravitati

22、onal magnetic field? There are 2 ways to do from a human point of view: one is observation by color, thats what youve seen on the book no. 3, we input color or rain unit; and secondly, its observation by the detection in the difference strength at the point of the interaction of the environment whic

23、h is here. On the edge of the plasma, once we measure the gravitational magnetic field, we understand this point and this point if it is CO2, if it is carbon, this is copper, this is oxygen, because it has a fingerprint, it has astrength level.如果系统的斥引力场收缩时，它让我们能听到收音机；当它由于而膨胀时，我们不能听到收音机了。这是物理的观测。因此，我

24、们怎么依据等离子体斥引力场强度 确认宇宙中的元素呢？从人类的视角来看有两条途径：一是通过颜色来观察，这是在第三本书上所看到的，我们加进颜色或雨单元；二是通过探测某个环境中相互作用那个点的斥引力场不同强度来观察。（凯白板上的大圆圈的边缘画了一个红色的线）在等离子体的边缘，一旦我们测量到斥引力场，我们就能知道这个点是CO2，还是碳、铜、氧，因为它有“”特征，它有强度水平。On the other hand, the same size in the same environment, if interacts with thesame area, thats why, for example, i

25、f this is the environment and this is the sizeCO2, at this point we see the copper-oxide as CuO adds blue, and at the samepoint with the CO2 we see it as white, its the same plasma. This goes back to understanding of the structure of the elements in the universe, where whatever gravitational magneti

26、c field sits and it spirals up, at this point is CO2, at this point is copper-oxide. As you go in, the strength increases. As you come out, the strengthreduces.另一方面，如果等离子体在相同区域发生相互作用，相同环境中就有相同，这就是为什么，比如在某个环境中CO2就是这样大，我们看到在这个点上氧化铜CuO加上了，我们看到在同一个点上的CO2却是白色。它们是相同的等离子体。回忆宇宙中元素结构的知识，无论什么斥引力场都位于宇宙中并螺旋像发条一

27、样展开。（凯白板上画了一个像钟表发条这样的很多圆圈。然后他在外面画了一点来表示，再往里面一点画了一个点来表示氧化铜）在这个点上是CO2，在这个点上是氧化铜。当你看圈内的物质，越往里面它的强度就越低，越往外面它的强度越强。So, by the color we should be able to see what we have in what composition. This is the difference in understanding the operation of the plasma. I was telling the knowledge seekers in the pa

28、st week that you do not or, in a way, you assess what is the gravitational magnetic field of destination you want to go to and you build it in the reactor.因此，通过颜色，我们就能看到我们有什么成分。这是对等离子体运行的不同认识。我前几周曾告诉知识寻求者，用这种方式不能估测你在反应器中创造出的等离子体的终点是什么。Once we pass the gravitational magnetic fields of the solar syste

29、m the life and the colors are totally different than what we are used to in this shell. I was explaining this one to a child some time ago. If you are in an egg and you are a chick you only see the white color of the shell, but when you break the egg, when you break theshell, you see the all colors

30、of the leaves and everything else.一旦我们通过了太阳系的斥引力场，那么我们的和肤色就与在地球大气层中的完全不同了。前段时间，我也在儿童教学中讲解了这个知识。如果你在一个蛋中，你是一个小鸡，你只看到蛋壳白色，但当你打破这个壳，你看到树的全部颜色，也看到了一切事物的颜色。 It doesnt mean that the colors did not exist, but its the environment which you are in dictates you to see what, what was available in the shell wit

31、h you. And, we see these and we think thats the color of the universe and we see different shades and colors and they say this is, this planet has this material in it, that planet has that material in it.这并不意味着你在蛋壳内比别人视力差而看不到其他任何颜色。但你所在的环境决定你看到什壳内什么对你是可用的。我们看到那些并认为那是宇宙的颜色，我们看到不同颜色及其渐变，他们说这个行星内有这种物质、

32、那个行星内有那种物质They see these things on a matter level of what it is in the atomic structure, but bycolors in fact its easier towith a plasma. So, in time, as we separate theplasma technology from what we call physics, as a new science, as a fundamentalbasis of the creation, then we understand there is n

33、othing wrong and there isnothing missing from any of the tables from the work of the scientists of the past.他们看到这些东西处于什么结构的物质水平，但事实上伴随着等离子体的发展，就能更容易地看到，因此，当我们及时地把等离子体技术从我们所说的方面分离出来作为一个新科学，作为一个创造的基本原理，那么我们就认识到过去科学家制成的周期表任何方面都毫无错误和任何不足。(35：00)The only thing is, we always looked top, we looked at one a

34、tom and then we call it 1+1 molecule, and then molecules and multiples of molecules and we, we build the structure. Now, we are going in the opposite direction, we are going low, we are going to below then what we had before, and this is what it looks a bit strange, butin fact you cannot build a bui

35、lding without the foundation.唯一的是，我们总是爱从宏观上看。（凯白板上画了并列的两条横线，以此来表示在我们看问题要从宏观和微观两个方面来进行）我们去看一个，然后去看我们所说的“1+1”的，再去看我们用建构起来的聚合物。现在，我们朝相反方向去看，我们从微观方面去看，我们来到微观世界，那么呈现在我们前面的东西看上去有点奇怪，但事实上，你不能在没有地基情况下去建起一个物。And, the world of physics has been built on a very rocky, rocky foundation, becausenobody knew what w

36、as underneath of it, so we ignored it, because we didnt understand it. And, now at this present level the man can only understand now the work of the real plasma, as we open the books. But, this is not the foundation.There is a level below this, which is beyond the understanding of the man.物理界建立在像岩石

37、那样凹凸不平的基础之上，因为没有人知道它的基础是什么，这样我们忽视了它，因为人们不了解它。现在当我们打开这些书时，人类当前认知水平也只能了解现在等离子的真实运行情况。但是，这还不是基础。现在人类有了一个更深远、更微观的认识水平In time, well open up, but for time being plasma is what the world of the man orphysics is built on upon. So, we go into what we call the, in a very simple way, aswe said in thks with the

38、 children, we go from plasma to physics, and moreplasmas together we go to chemistry and then we go to biology, but below plasmathere is a level which is the base of the creation of the whole universe and it isbeyond the understanding of the man, because man already has enough problemswith physics,

39、and even what wk about the plasma is unacceptable to them,its very much like when the man said the Earth is round, they put him on a, on a,what do you call it, on a noose.适时宣告，我们这个人类界是建立在等离子体基础之上的。因此，就像我们在儿童教学中所说的那样，用一个十分简单的方式，（凯另外一张白纸上画了一些图，表示从等离子体到，再到化学，再到生物学。并且在等离子体层面的左边画了一个基础部分。）我们进入将等离子体引入，我们进一

40、步将等离子体进入化学，然后我们引入到生物学，但在等离子体水平之下，就触及到了整个宇宙造物的基础，它比人类的认识更深刻。人类伴随着发展已产生了足够多的问题，甚至我们谈到等离子体时，他们很像对待人类所说的“地球是圆的”那样不可接受。这是他们把的“绞索”里面了。放进了一个你所说The structure of plasma does not come to be the original, the, the, thefundamental, the origin of the creation. There is a sub-plasma level which is the fundamental

41、 endpoint of the creation, but if we go into that process, its a book no. 8 which is written about the magnetic fields, which in that book I have explained the origin of the creation. So, what you talk in Mendeleev Table, you talkabout this part. You talk about physics. You are sitting in the margin

42、, in the place,in the area, which is this part. What wplasma.k about is before physics, which is the等离子体结构不是造物的、基础。存在着比等离子体更小的微粒，它是造物的基础、终端。第就深入到那个造物过程，我在书中写着磁场粒子并说明了它是造物的源头。（凯绿色的笔在表示等离子体的那个圆圈里面画了一个方格来表示这造物的）因此，你所说的周期表的内容，（凯表示等离子体的圆圈里面用笔画了几下）你谈到了这个部分，你谈到，你处在这个区域的边缘位置的部分，你所说的内容就是以前所研究的等离子体。（38：05）So,

43、 there is nothing wrong in all the things weve seen, but in the world of physicsyou talk about electrons and protons, in the world of plasma we speak about magnetic gravitational field strength. If you add one plasma into the totality of a plasma of another one, you dont increase, the strength will

44、change, the strength on the boundary, you feed the mass of the new plasma in the grams which is added into the center mass. So, what does this center mass does? It has more strength, and so where before you had the electron, or lets say another elementplasma added to, you could see at this point blu

45、e.所以，你在化学元素周期表中所看到的内容都毫无错误。但你是在领域谈论电子和质子，而我们是在等离子体科学领域谈论斥引力场强度。如果你把一个等离子体加入另一个等离子体的整体中（凯了一个大圆圈，然后在里面画了一个小圆圈），你不能增加等离子体个数，但新等离子体的边界的强度将改变，你在新等离子体的团块增加了用克数表示的质量。那么，这个团块会发生什么呢？它具有了更大的场强。因此，在这儿你之前有一个电子，或让我们说另一个电子等离子体加进去了，你将看到这一点变蓝了。Now you add the, another matter, which has increased the center, at the

46、same point you see green, but you see the same plasma. So, if you go back into what we said and what weve done from the beginning, which is the spiral of, actually, anti-clockwise is the most appropriate, of the elements, opening up the plasma magnetic field, at this point you see blue, but if you g

47、o with the black and you add the plasma to it, the fold is this, its less, so you see green. And, this is what wesee changes. What we see in what we have. And thats where the change comes.现在，你加进了另一种物质，提高了等离子体的场强，在同一点上你看到了，但你看到的是相同的等离子体。因此，如果你回到我们开始说过的内容（之前凯画了一个类似于钟表发条的一个图来解释等离子体的场强分布情况，从内逐渐减弱。凯在那个大圆

48、圈里面，再次画一个发条状的多重圆圈。39：20)，实际上逆时针螺旋运动，是电子打开另一个等离子体磁场进入到其中最恰当的方式。在这一点上，你看到了，（凯了两条蓝、黑线，先后螺旋着画）但是如果你随着黑线来看，你也给它加了一个等离子体，黑的螺旋线是它个，它场强比蓝线小，所以你看到的它呈绿色。这就是我们看到的变化，我们看到了我们的等离子体内所发生的变化，就是在那儿带来的变化And thats where the new technology, understanding of the plasma is. Its gravitational magnetic field, because you re

49、ach the same point with the higher or lower strength gravitational magnetic field. If you are higher, you create a different color. If you are lower, you, different, different color, you create a different color.Its very much, as I explained before, its how hard you rub your hand. If you rub your ha

50、nd slow, you have less heat. If you are very cold, you rub your hand faster and you get more heat. Its the same hand, its just the motion, but in plasma its magnetic gravitational field strength. So, this brings back into, if you understand this point, how matters change in the body of the man, when

51、 you breathe it.那就是等离子体新工艺、新知识。它是斥引力场，因为你随着或高或低的斥引力场强度到达了同一点，你创造出不同的颜色。如果你是较低场强，你就呈现某种颜色；若你是较弱的场强，你就呈现另一种不同的颜色。这非常像我以前解释过的，你怎样用力搓你的手，如果慢慢地搓你的手，你得到较低的热量；如果你非常冷，你不较快地搓你的手，那么你得到较高的热量。同样的手，只是由于运动快慢不同，产生的热量就不同。但在等离子体内，只是斥引力场强度不同。所以，这引起了你回忆，如果你明白你呼吸时物质在内怎么变化。So, it changes the whole fundamental of the phy

52、sics, it changes the wholefundamental of the understanding of the creation in biology and chemistry. And, then what we say, it looks strange and it changes, its different. In a way, we speak from the plasmatic magnetic fields, you speak from the physical point of view, as a matter state. So, how we

53、absorb, how we attract, how we see things, is different.For example, we even see in a, in the gans of the copper-oxide, we see in the lab how fast, due to its gravitational magnetic field mass, it sinks to the bottom of thecontainer, compared to the CO2, which is lighter. Its very simple.因此，它改变了、生物学

54、和化学的创造的整个知识基础。因此我们所说的看上去是奇怪的、变化的、与众不同的。在某种角度来看，我们凭等离子体来说的，你凭观点按物质状态来说的。因此，我们在怎样吸收、我们怎样吸引、我们怎么看事物等方面，是不同的。比如，我们甚至在看到氧化铜很快地沉到容器底部，由于它的斥引力场质量，它比CO2更重。它是非常简单的。When you have higher strength gravitational magnetic field, which is a matter in the, on the condition of the Earth, you have a stronger gravitat

55、ion field than the magnetic field. This is opposite to what you understand, but you see the effect exactly as you see in a matter life, that the heavier elements sink faster, but in fact the color, the combination is by the ratio of the mass of the center plasma, because its inertial gravitational m

56、agnetic field interacts with the Earth, so it looks as to be the same here as matter.当斥引力场强度较高时，引力场就比斥力场更强，在地球条件下它就是物质。这与我们的知识相悖，但你看到的这个效果正像你在物质生活中所看到的那样，重的东西下沉得快些，但是事实上是通过等离子体中心处的质量比率来组颜色的，因为等离子体斥引力场经常与地球发生相互作用，因此它看上去是彼此相同的物质。So, in, in so many ways, the confusion comes in observation which is not

57、reality in the process of the whole thing, because the size of the copper-oxide more or less is the same size as CO2. Its just where the gravitational magnetic field strength in respect to the environment changes. If you take the copper-oxide in the gravitational magnetic field beyond the solar system, you will observe different colors in different positions, because the field allows the expansion where to be. If you keep it on the same point, you will see different colors, because in reality, in the, in the new en