Chapter   11LIGHT

"lanck's discovery of the quantum in1900 drove a crack in the armor that still covers the deep and secretprinciples of existence. In the exploitation of that opening we are at thebeginning, not the end. Someday we'll understand the whole thing as one singlemarvelous vision that will seem so overwhelmingly simple and beautiful that wewill say to each other -Oh, how could we have been so stupid for so long? Howcould it have been otherwise! "

- JohnArchibald Wheeler

“1900年普朗克的量子发现打破了存在的深奥神秘的法则的外壳。”对它的研究让我们知道我们在一个开始机而不是结束。某一天，我们将明白所有的东西都由一种独一无二的不可思议的东西组成，它仿佛难以至信的简单美好以至于我们奔走相告-噢，我们怎么能愚蠢这么长时间？否则世界将是什么样子！”

-约翰·阿奇博尔德·惠勒

F. I will now demonstratethat the "gyroscopic-action-particle" which comprises all matter willmechanically explain other scientific facts which have not been mechanicallyexplained before this time.

F.我将证明组成所有物质的“陀螺效应子”将力学的解释在这之前其它不能被力学解释的科学事实。

Consider that the existenceof the "gyroscopic-action-particle " also explains the duality of the wave andparticle theories of light. Light is electromagnetic in nature and consists of"negative” and "positive" (see discussion of"negative" and "positive” in Section 25-D) gyroscopic particlestraveling in the same direction and having opposite spins. When the axis of thegyroscopic particles are affected as they mechanically collide with differentmaterials at varying angles, the gyroscopic particles will therefore behave asparticles or a wave. If one "hits" the axis of a gyroscope "headon," it will not pivot.

“陀螺效应子”的存在也解释了光的波粒二相性的理论。光有自然的电磁性，由“负极”和“正极”（看25-D部分关于“负极”和“正极”的讨论）陀螺子在同一方向相反旋转运动组成。当陀螺子的轴和不同材料在不同角度力学碰撞，陀螺子行为将因此像粒子或波。如果“迎头”“撞击”陀螺仪的轴，它将不再进动。

The following informationcorroborates the prior information I have presented in this Book. I urge thereader to Master the Mechanical Essence of this material. The materialdemonstrates that one must pay strict attention to the sub-atomic composition(gyroscopic spin) of all matter which is pertinent to those varying technicaldesigns utilizing Einstein's equation of E=MC2 on a 100%conversion-efficient basis.

下面的信息证实我先前在这本书中展现的信息。我催促读者精通这种材料的力学本质。材料证明必须严格关注所有物质的次原子级结构，对于利用爱因斯坦的E=MC2的100%转化率的科学设计这是相当中肯的。

G. John Dalton (Englishchemist and physicist, 1766-1844) proved that when various elements wereobserved through a microscope, such elements appeared in different crystallineshapes. Crystals of gold always looked alike, crystals of copper always lookedalike, but crystals of gold and copper never looked like one another.

G. John Dalton (英国化学家、物理学家，1766-1844)证明在显微镜下看到的很多元素有不同的晶体结构。黄金的结晶体是相似的，铜的结晶体是相似的，但黄金和铜的晶体从来不一样。

It has also been proven thata sharp "hit” will easily break crystals at certain mathematical pointsand will not easily break the crystals at other points.

同样证明，在一个精确的点猛击很易容打碎晶体，但在其它点不容易。

Considering the twopreceding paragraphs, it is obvious that the energy comprising differentcrystals representing different elements has an attraction force throughout thecrystal. This attraction force is greatest along a particular plane: theGYROSCOPIC PLANE!

考虑前面两段话，很明显，组成不同晶体代表不同元素的能量存在一个贯穿晶体的吸引力。吸引力完全沿着一个特定的而：陀螺仪的平面！

H. Observe the effects oflight polarization by certain crystals:

Figure 25-Hl Light istransmitted through crystal slabs having their crystalline axes orientedparallel with respect to one another.

图25-Hl 光穿过晶体轴相互平行的晶体片。

Figure 25-H2 Less light istransmitted when one of the crystal slabs is rotated to a 45°angle with respect to the otherslab.

图25-H2 当晶体片相对另一个旋转45°时少量光可以穿过。

Figure 25-H3 No light istransmitted when one of the crystal slabs is oriented at a 90°angle with respect to the otherslab.

图25-H3 当晶体片相对另一个90°时没有光穿过。

As the angular degree of thecrystal (composed of electromagnetic energy in the form of gyroscopicparticles) varies, the amount of light (electromagnetic energy in the form ofgyroscopic particles) also varies. Such a variation indicates that the crystalis held together with greater electromagnetic force along certain planes: theGYROSCOPIC PLANE!

当晶体（由陀螺子电磁场形式能量组成）角度变化时，光（陀螺子电磁场形式能量）的数量也变化。这样的变化指明，晶体是用沿特定平面的强大电磁力连接在一起的：陀螺仪的平面！

Sir David Brewster (Scottishphysicist, 1781-1868) was the first to note that when light is incident at thepolarizing angle, then the reflected and refracted rays are exactly 90°apart.

David Brewster先生（苏格兰物理学家，1781-1868）第一个发现当光在偏振角入射，那么反射和折射光将精确的90°分开。

Notice that the 45°and 90°angles are significant in theapplication of force to light (electromagnetic energy). This effect matches the45°angles ofprisms and pyramids as well as the 90°angle important to a conductor system.

注意，45°和 90°角在对光（电磁力）施力时是非常重要的。棱镜和棱锥的45°角与导体系统的90°角同样重要。

J. What does the picturebelow represent?

Does Figure 25-J appearsimilar to the forces generated by an electric or magnetic field? Actually,Figure 25-J represents a picture of a sheet of glass undergoing stress whichcauses the glass to doubly- refract. If there was no physical (mechanical) strain upon theglass plate, the plate would have no effect upon the light passing through it.One may then conclude that when placed under stress, the glass plate releases aglimpse of its "secret" concerning the plane of its electromagneticcomposition.

图25-J和电场或磁场区域产生的力相似吗？实际上图25-J是对一玻璃片施加压力，引起玻璃双倍反射形成的。如果玻璃板没有物理（力学）扭曲，将没有光穿过它的效果。也许有人会总结，当对玻璃板施加压力，玻璃板会显示它电磁结构的“秘密”。

K. Certain materials (liquidmixtures) have the property of rotating the plane of light polarization by anamount directly proportional to the length of the light path in the sample.

通过大量与样本中的光路长度成恰当比例的光路，特定材料（液态混合物）有旋转光偏振平面的特性。

(1)Somematerials cause a rotation that is clockwise when viewed towards the lightsource.

(2)Somematerials cause a rotation that is counterclockwise when viewed towards thelight source.

(3)Observethat such rotations match my description of "negative" and"positive" charges. These negative and positive charges compose allmatter and represent the same gyroscopic entity seeming to spin in oppositedirections (when viewed from the perspective of an observer).

(4)Observethat such rotations indicate that materials are either a little more negativeor positive in charge depending upon their electromagnetic composition. Unlesssuch is the case, why else would differing liquid solutions have reverseeffects upon light (electromagnetic energy)?

（1）       当看向光源时，一些材料引起顺时针方向的旋转。

（2）       当看向光源时，一些材料引起逆时针方向的旋转。

（3）       观察这样的旋转是符合我“负”和“正”电荷的描述的。这些负和正电荷组成所有物质并表现为一些好像在相反方向旋转（当从观察者的视角看）的陀螺效应体。

（4）       这样的旋转指明，物质的负极性或正极性决定于它们的电磁结构。如果不是这样，为什么不同的溶液对光（电磁能量）有相反的效果。

L. The first connectionbetween magnetism and optics was discovered by Michael Faraday in 1845. Faradaydiscovered that the plane of light polarization is rotated when polarized lightis allowed to pass through an isotropic medium located within a strong magneticfield if the light travels in a direction parallel to the direction of themagnetic field. This observation demonstrates the effect of gyroscopic spinscomprising light interacting with the gyroscopic-spin-composition of matter andmagnetic energy with respect to the plane of gyroscopic spins of allinteractions.

磁性和光的联系在1845年第一次被法拉第发现。法拉第发现，当偏振光穿过在磁场中的各向同性的介质，光的方向与磁场相同，偏振光的平面会旋转。这个发现证明陀螺自旋效果，包括光与物质的陀螺自旋结构交互和磁能与陀螺自旋平面交互。

M. A related,magneto-optical effect to that of Faraday's was discovered by John Kerr in1875. Kerr found that an isotropic optical medium placed between the plates ofan electrical condenser became doubly refracting when the condenser is charged.This observation again demonstrates the presence of the gyroscopic spin orplane.

M. 1875年John Kerr结出了对法拉第发现的磁光效应的描述。Kerr发现各向同性的光学介质放在充电的电容器平板间，折射会倍增。这一观察又一次证明陀螺自旋或平面的存在。

N. An effect similar to thatof John Kerr's was also discovered by A.A. Cotton and H. Mouton in 1907. Theyfound that certain isotropic, optical media become doubly refracting whenplaced in a strong magnetic field. Such an observation again demonstrates thepresence of the gyroscopic spin or plane.

N.1907年A.A. Cotton 和 H. Mouton发现和John Kerr'发现相似的效应。他们发现各向同性的光学介质放在一个强磁场中时，折射倍增。这一观察又一次证明陀螺自旋或平面的存在。

O. All of the aboveprocesses -which involve producing double refraction in a normally isotropicmedium via the application of mechanical deforming forces, magnetic fields, andelectrical fields -have a basic similarity: in each case, physical (mechanical)strains are produced within the medium which accordingly becomes anisotropic.

O. 上面所有过程-通过加压变形、磁场、电场，在正常的各向同性介质中产生折射倍增-有一个基本的相似点：在每个案例中，在介质中物理（机械）扭曲都会产生，因此变成各向异性。

Consequently, there is adefinite, scientific pattern which emerges in the above observations: thegyroscopic composition of matter reacts to a proper force.

所以，一个明确、科学的模式在上面的观察中浮现：物质的陀螺结构对恰当的力作出反应。

(1) Observe that in allcases a force is applied which causes the electromagnetic composition of thematerial to react.

(2) Observe that in allcases the presence of electromagnetic energy is obvious.

(3) Therefore, in all casesthe reactions were due to the material composition (electromagnetic energy)being affected by the mechanical action of such electromagnetic energy(consisting of gyroscopic particles). Such reactions demonstrate the"action/reaction effect" created by the gyroscopic spin or planewhich constitutes the basic mechanical structure of all matter.

（1）在所有的案例中施加一个力引起物质电磁组成做出反应。

（2）在所有的案例中电磁能量的存在是明显的。

（3）因此，在所有的案例中反应归因于物质结构（电磁能量）被这样电磁能（由陀螺子组成）机械作用影响。这样的反应证明“交互效果”由构成所有物质基本力学结构的陀螺自旋或平面创建。

P. Such an"action/reaction effect" is observed in the following example:

The photograph in Figure25-P depicts the effects of light (electromagnetic energy, i.e., gyroscopicparticles) "colliding" with a material (a razor blade also composedof electromagnetic energy, i.e., gyroscopic particles) at an angle whichgraphically demonstrates the effect of the gyroscopic action and gyroscopicplanes. Observe that the light and dark lines (which surround the outerperiphery of the razor blade) form the conventional patterns of electric ormagnetic "lines of force."

图25-P里的照片描绘了光（电磁能量，也就是，陀螺子）与物质（一个刀片，由电磁能量组成，也就是，陀螺子）在一个角度“碰撞”的效果，生动的证明了陀螺运动和陀螺平面的效应。观察光和黑线（环绕刀片的边缘）形成传统的电或磁“力线”的模式。

应该认识到光和黑线由我的“负极”和“正极”电荷描述，代表陀螺效应子的相反自旋。图25-P观察到的模式发生在这样的陀螺子在相同的方向（如光），对它们的轴施加力导致它们在相对于力直角方向运动。（这种解释同时满足光的波动必和粒子性！）

As described in ChapterThree, a magnetic field consists of "negative" and "positive" particles -[the samegyroscopic particle is described as being either "negative" or"positive" via the direction of its spin with respect to the frame ofreference of the outside observer] -with opposite spins and traveling inopposite directions like cars on one-way streets. In addition, when a conductorwire is applied (as a mechanical force) at right angles to those"negative" and "positive" particles , both"versions" of the single, gyroscopic particle traveled down theconductor wire in the same direction.

如第三章所描述的，磁场区域由“负”和“正”的粒子组成-[同样的陀螺子被描述为“负”或“正”是由它相对于外面观察者参考系自旋决定的]-相反的自旋并在相反的方向运动，像汽车在一条路上。另外，当导线相对于这些“负”和“正”粒子垂直运动时，两“种”单个的陀螺子在导线上同向运动。

注：反向运动是磁场，同向运动是电场。

It should now becomeapparent how light can be produced from an electric current which consists ofgyroscopic particles traveling in the same direction with opposite spins.

由同向运动相反自旋陀螺子组成的电流如何产生光是显而易见的。

When light strikes an object(as the razor blade in Figure 25-P) at the appropriate angle, the gyroscopicparticles (having clockwise and counterclockwise spins comprising the light)travel in opposite directions or have some alteration of their originaldirection. This mechanical action creates the image of an electric or magneticfield via the observed "lines of force." Such action should clearlydemonstrate the gyroscopic effect of matter.

当光在恰当的角度撞到一个物体（如图25-P中的刀片），陀螺子（顺时针和逆时针自旋组成光）在相反方向运动或一些改变它们原始的方向。这种机械运动创建电或磁区域的图像，通过观察“力线”。这种运动应该清楚的证明物质的陀螺效应。

To summarize two importantpoints:

总结两个要点：

A magnetic fieldmechanically consists of ''negative' ' and ''positive'' gyroscopic particleshaving opposite spins and simultaneously traveling in opposite directions,e.g., the concentric "shells of force '' surrounding a bar magnet. (Referback to Chapter Three for a detailed analysis of this effect.)

磁场区域由“负”和“正”陀螺子组成，有相反的自旋，同时运动在相反的方向，也就是说，环绕磁条的同轴“力壳”。（查阅第三章这种效应的详细分析）

An electric currentmechanically consists of "negative" and ''positive "gyroscopicparticles having opposite spins and traveling in the same direction down aconductor wire -as does light traveling in space through a medium.

Further evidence of thegyroscopic effect of matter is demonstrated by the following:

进一步物质陀螺效应的证据列在下面：

(1) Every chemical elementemits a characteristic spectral line when the atoms of the element are excitedin a flame, furnace, or in an electric discharge. This again demonstrates thevarying electromagnetic composition of different materials. [Since all matteris composed of the same gyroscopic particle, the electromagnetic composition ofmatter varies with the particular angle of incidence (plane of spin) for agiven gyroscopic particle.]

These spectral linevariations are similar to the light and dark lines that become visible whenmaterials are placed under physical (mechanical) stress. Both of these effectsare a result of the electromagnetic composition of all matter.

（1）每种化学元素发射一种特征光谱线，当元素里的原子在火焰、熔炉或放电环境里激发。这又证明不同的物质由不同的电磁组成。[因为所有的物质由同样的陀螺子组成，物质的电磁组成决定于给定陀螺子的特定入射角（自旋平面）。]

这些光谱线的变化同光和黑线相似，当对物质施加物理（机械）压力时变得可见。这些效应是所有物质电磁组成的结果。

(2) If the materialcomprising a prism is altered, the spectrographic lines will also change intheir distance between one another. This effect corroborates my explanationthat different materials are different electromagnetically, i.e., theirgyroscopic planes vary. Consequently, the degree of deflection of penetrationof different materials by light traveling at a 45°angle will vary continuously as will light deflection.

（2）如果组成晶体的物质改变，光谱线之间的距离也将改变。这种应该证明了我的解释，不同物质是不同的电磁场，也就是说，它们陀螺平面的变化。因此，光以45°角穿过物质偏移的角度是连续，如光偏移。

(3) Such action on the partof light is further evidenced by the Zeeman Effect. [Pieter Zeeman had searchedfor another magnetic effect upon light since he knew that Faraday had believedthat another effect should exist.] The Zeeman Effect represents the splittingof spectral lines into components of slightly different frequencies when thelight source is placed in a strong magnetic field.

光的这部分行为被塞曼效应进一步证明。[塞曼已经寻找另一个光的磁效应，因为他知道法拉第相信有另一种效应的存在。] 塞曼效应表现为，将光源放到一个强磁场中时，光谱线分离为几条更细的谱线。

(1)In Sections25-Q (2) and 25-Q (3) above, the described effects upon spectrographic linesare similar. Such lines are a characteristic of each element’s gyroscopic (electromagnetic)composition. In (2) above, the spectrogram's lines vary when traveling throughdifferent materials having different gyroscopic (electromagnetic) composition.In (3) above, the spectrogram's lines vary under the influence of an external,electromagnetic (gyroscopic) field.

（5）的上面25-Q (2)和25-Q (3)部分，描述的光谱线的效应是相似的。这样的线是每种元素陀螺（电磁）组成的特征。在上面的(2)，当穿过由不能陀螺（电磁）组成的不同物质时光谱线变化。在上面(3)，在一个外部电磁（陀螺）区域影响下光谱线变化。

All of the aboveobservations demonstrate the importance of the gyroscopic-action composition ofall matter and demonstrate that even slight changes (in materials via thegyroscopic angle of incidence) can produce a noticeable difference in observedresults.

所有上面的观察证明所有物质陀螺效应的重要性，证明即使轻微的变化（物质中陀螺子入射角）在观察结果中能产生一个明显的不同。

R. The following isadditional evidence concerning the importance of the gyroscopic conception ofmatter:

R.下面是额外的证明，关于物质陀螺效应概念的重要性：

(1) The observed, spectrum"band" of colors produced when white light is dispersed by a prismactually varies in hue on a continuous basis from the violet to the red end ofthe spectrum. Such a spectrum is not composed of seven distinct "bands.”

(2) If one applies mydescription of "negative " and "positive" particles withopposite spins (gyroscopic action) to Figure 25-R, then the observed spectralresults will be precisely explained:

如果把我描述的有相反自旋（陀螺运动）的“负”和“正”粒子应用到图25-R，观察到的光谱结果可以被精确的解释：

REASON: The gyroscopicparticles comprising light have opposite spin directions. These gyroscopicparticles either collide with other gyroscopic particles comprising the atomsof the prism or they have an influence-force placed upon them by the gyroscopicparticles comprising the atoms of the prism. This "collision" or "influence-force"mechanically occurs as a result of a close encounter between the loosely-bound gyroscopic particles withinthe light causing such gyroscopic particles to move at right angles to theforce exerted upon them by the more tightly-bound gyroscopic particles within the prism. However, because oftheir opposite spins, the gyroscopic particles comprising light will move inopposite directions to that force as they encounter the gyroscopic particleswithin the prism, i.e., one gyroscopic particle within the light will move"right " (at some angle between 0°and 90°) and theother gyroscopic particle (having an opposite spin) within light will move"left" (at some angle between 0°and 90°).

原因：组成光的陀螺子有相反的自旋方向。这些陀螺子与组成棱镜原子的陀螺子碰撞，或它们受到一个组成棱镜原子的陀螺子施加的影响力。这种“碰撞”或“影响力”是光内松散边缘的陀螺子紧密交会的结果，引起这些陀螺子相对于棱镜内更紧密边缘陀螺子施加的力垂直方向运动。然而，因为相反的自旋，组成光的陀螺子将相对于力在相反方向运动，也就是说，光内的一种陀螺子将向“右”运动（以0°到 90°之间相同的角度），另一类陀螺子（有相反自旋）将向“左”运动（以0°到 90°之间相同的角度）。

Remember that light consistsof gyroscopic particles moving in the same direction, but with a (possibly)equal number of such particles spinning in one direction and a (possibly) equalnumber of gyroscopic particles spinning in the other direction. All suchgyroscopic particles are interspersed throughout the general flow, direction ofthe light.

记住，光由在相同方向运动的陀螺子组成，但大量的陀螺子在一个方向自旋，等量的陀螺子在另一个方向自旋。所有陀螺子散布在光方向的区域。

In figure 25-R, the spectrallines travel to the left and to the right of the point where light(electromagnetic energy) first physically enters into surface AB at a 45°angle.

在图25-R，光谱线运动到光（电磁能）第一次物理以45°角进入AB面的点的左和右边。

If you imagine numeroussurfaces parallel to surface AB and oriented throughout the prism (which isactually a three-dimensional pyramid), then you will recognize that thegyroscopic particles of light vary continuously in their angular degree ofpenetration (of a 45°angle) as they pass through the material.

如果你想象大量表面平行于AB面并遍布棱镜（实际是一个三维金字塔），你将认识到光的陀螺子在它们穿透角度（45°度）连续变化，如它们穿透物质。

The continuous variation incolor hue is created by the continuous variation of "negative" or"positive" gyroscopic particles that exist in any one plane (surface)within the prism. [The electromagnetic function of the eye with respect to thebrain is appropriate to how or what we visualize.]

色彩的连续变化是棱镜里任何平面（表面）的“负”或“正”陀螺子连接变化导致的。[关于大脑眼的电磁功能在我们如何或什么可见是恰当的。]

(3) The fact that infraredand ultraviolet light are located at opposite ends of the spectrumoperationally means that one color "band" has more"negative" charges and the other "band" has more"positive" charges. Consequently, the two color "bands"represent different types of matter!

事实是红外和紫外光位于光谱相反的端，意味着一种色“带”有更“负”的电荷，另一“带”有更“正”电荷。因此，两种色“带”代表不同类型的物质！

From the beginning of myresearch, I have endeavored to prove that all matter is composed of a varyingamount of "negative" and "positive" gyroscopic particles.In reality, each gyroscopic particle consists of identicalgyroscopic-action-entitles which demonstrate both "negative " and"positive" characteristics depending upon the gyroscopic orientationof the spin with respect to the outside observer. Moreover, the arrangement ofsuch gyroscopic-action-entities (via slight degree changes in their respectiveaxes of rotation) can be infinite. Such infinity can generate infinite forms ofmatter.

从我研究的开始，已经全力证明了所有的物质是由大量“负”和“正”的陀螺子组成。实际上，每个陀螺子由相同的陀螺效应实体组成，表现为‘负’和‘正’特征是依赖于相对于外在观察者的陀螺自旋取向。同时，这种陀螺效应实体（通过自旋轴轻微角度变化）可以是无穷的。这路无穷可以产生无穷的物质形式。

Gyroscopic action alsoprovides an explanation for the nature of X-rays which originate by separatingelectrical terminals while placed in a partial vacuum. Such a separation causesdifferent amounts of "negative" and "positive" gyroscopicparticles to be released, thereby forming another type of matter.

You may now be beginning tounderstand how the "spin" orientation of gyroscopic particlesprovides an explanation for all rays emitted by different materials. Suchgyroscopic action ("negative" or "positive") is alsoverified by the fact that as certain rays are emitted from one type ofmaterial, that same material will undergo decay into another form of material.The new material is composed of a different quantity of "negative"and "positive" gyroscopic particles.

你现在也许开始明白陀螺子“自旋”取向如何提供不同物质发出所有光线的一种解释。这种陀螺效应（“负”或“正”）同样被事实证实，事实是特定光由同类型物质发射，同种物质将衰变为另一种物质形式。新物质由不同数量的“负”或“正”陀螺子组成。

The opposite effect is alsotrue: by bombarding uranium atoms with neutrons (which are agglutinations ofgyroscopic particles) the uranium is transformed into the heavier elementtransuranium.

相反的效应也是真的：通过用中子轰击铀原子（由陀螺子凝聚成），铀转化为超铀的重元素。

The differing forms ofmatter which are continuously observed in cyclotrons are forms generated by theinteraction of "negative" and "positive" gyroscopic particles.There are infinite, possible forms that such matter can assume. Such infiniteforms are caused by high-velocity particles reacting with "negative"and "positive" gyroscopic particles comprising (and traveling within)the tremendous electromagnetic fields generated by such units.

在回旋加速器里连续观察到的不同物质形式是由“负”和“正”陀螺子交互产生的。有无穷的可能形式可以呈现。这种无穷形式是由高速粒子与组成装置的极强电磁区域的“负”和“正”陀螺子交互形成的。

Based upon theelectromagnetic field experiments of Michael Faraday, the electromagnetictheory of radiation was proposed by James Clerk Maxwell in 1865 and experimentallycorroborated 20 years later in Germany by Heinrich Hertz.

基于法拉第电磁区域的实验，麦克斯韦在1865年提出了射线的电磁理论，20年后由德国赫兹用实验证明。

It should be obvious fromstudying Figure 25-S that all rays have something in common: such rays are allelectromagnetic energy and they are therefore composed ofgyroscopic-action-entities.

学习图25-S可以明显看到，所有光线有一些共同点：都是电磁能量并且由陀螺效应实体组成。

What causes such rays todiffer? I have endeavored to prove that the wave motion of these rays arecaused by a variation in the number of "negative" or "positive"gyroscopic particles composing a given ray as well as the angular degree bywhich such rays are emitted from their source.

什么导致光线的不同？我已经尽力证明，这些光线的波动是由‘负’和‘正’陀螺子数量的变化引起的，它们组成指定光线和角度，光线来自发射源。

T. QUESTION: Have youMastered what was taught in Section 25 above? If you have, then you must nowrealize the critical importance of understanding the mechanical,gyroscopic-action-entity comprising the atoms of all materials. Many suchmaterials will be used in energy machines designed for 100% (conversion)efficient utilization of Einstein's equation of E = MC2. Such anunderstanding will also permit the creation of new materials with varyingelectromagnetic characteristics.

T.问题：你已经精通了25部分教授的知识了吗？如果你说是，那么你必须认识到，理解所有物质原子都是由真实的陀螺效应实体组成的重要性。许多这种物质将用于设计遵守E = MC2等式100%转化率的能源机。这种理解将允许用有变化电磁特性的物质创建能源机。

By studying what I havewritten, you have glimpsed the Mechanical Essence of Quantum Mechanics: theGyroscopic-Action-Particle. This "gyroscopic-action-particle'' is the basic building block of all matter and isthe mechanical essence of E = MC2. The behavior of the gyroscopicparticle can still be mechanically understood and operationally predicted inaccordance with Newtonian Mechanics.

通过学习我所写的，你已经对量子力学有了初步认识：陀螺效应子。这种“陀螺效应子”是构建所有物质的基础砖块，是E = MC2的力学本质。陀螺子的行为依然可以用力学理解和用牛顿力学预测。

If you have Mastered what Ihave earnestly sought to teach you up to this point, then you should have nodifficulty in understanding and Mastering the teachings which will follow.