This chapter opens a rare window where the mysteries of the quantum world mirror the journey of human existence. Just as an electron can be spread out like a single thread flowing smoothly in one direction, or gathered like a ball of thread pointing in many directions at once, so too does human life shift between being widely open and singularly focused. The dance between position and momentum, localization and freedom, becomes not only a law of physics but also a profound analogy for consciousness itself. Here, the quantum principle transforms into a stable pillar of Quantum Darshan—showing how the unseen play of momentum shapes both particles and people in their search for truth.
In the everyday world, a water wave carries momentum because countless molecules move together, each adding its tiny push. But in the quantum world, the wonder is that even a single particle behaves like a wave. Its ripples are not built from many particles, but from many possibilities of one particle, spread out until observation pins it down. The form of this wave itself encodes momentum: when the ripples are spread far apart, with more space between them, the wavelength is long and the momentum is gentle; when the ripples are tightly packed, the wavelength is short and the momentum is strong. And when many ripples of different spacing mingle together, the momentum becomes uncertain and spread into countless options. Just as the ocean’s ripples can rock a ship, the unseen quantum wave carries the full push and direction of a single particle—an awe-striking truth where matter and motion flow as one. Think of it like a **festival crowd**. When everyone is packed tightly in one corner, you know where they are, but you cannot guess which way each will rush — momentum is uncertain. When the same crowd moves as a **procession down one road**, their positions are spread out, but their direction is obvious — momentum is clear. Or like a **thread**: stretched straight, it points firmly in one direction, but coiled into a ball, it points everywhere at once. And most strikingly, like water: when left to flow, a river runs smooth and straight — momentum clear, position vague. But press your finger sharply into it, and instantly whirlpools arise — the flow coils round and round, revealing many hidden directions. In the same way, when a particle is forced into one place, its wave curls into a whirl of momenta. Even the **human mind** follows this rhythm. When it flows freely on one thought like on meditation image, its direction is steady and momentum clear. But when forced into a single point of obsession, thoughts scatter in all directions at once. Thus, the particle does not switch between “wave” and “particle.” It is always one reality, but its manifestation shifts with the balance between position and momentum. This is the mysterious dance — the very flow of momentum.
In the quantum world, momentum is never just one thing. Just as a particle’s spin can be many states at once until observed, momentum too exists as a wave of possibilities. Just clarifying, spin before measurement is a mix of up and down (shown as a tilt), but when measured it always collapses to fully up or fully down. Regarding momentum, a particle carries not a single direction but a cloud of potential directions. Only when it interacts — when it collides or is measured — does that cloud collapse into a definite movement.
We usually don’t say that momentum itself gives rise to matter or particle from energy, because momentum is only one aspect of the wave. When a quantum particle is localized in space, the wavefunction is concentrated at certain spots. This localization can only happen when many different momentum components superpose together—so a sharp position always comes at the cost of mixed directions. Conversely, when a particle is completely delocalized, like a plane wave stretched across space, it is not manifested at any one place, and its momentum becomes sharp and single. This trade-off between position and momentum is the essence of the uncertainty principle.
A simple analogy is a thread: a single long stretched thread runs neatly in one direction, like a delocalized wave with one fixed momentum. But if you roll the same thread into a ball, it points in many directions at once, just as a localized particle requires many momenta. Similarly, a human being, localized in his body and ego, has countless directions of thoughts and choices—no one can predict when he will turn over. But a sage, whose consciousness is unlocalized and expanded, flows in one single direction of fixed morals and ethics.
In the language of physics, the electron never collapses into the nucleus, though drawn by its powerful attraction. The uncertainty principle guards it—when confined too closely, its momentum becomes wildly uncertain, granting it the energy to escape that fatal embrace. In the language of spirit, the same truth shines: the soul, pressed into the narrow prison of ego, cannot vanish into nothingness. As it approaches that dark zero, the mind grows chaotic, restless, and unpredictable, until the deeper essence breaks free. Just as quantum law protects the electron, the divine play of consciousness protects the soul from eternal bondage.
A good example of quantum localisation is the electron as a standing wave inside the atom. Between the imaginary walls of the atomic potential, nodes and antinodes arise, showing that waves in opposite directions coexist. Because the electron is bound by the nucleus through Coulomb attraction, its wave does not point in just two directions but spreads into a cloud of countless directions. This makes the electron a superposition of many momenta, with probability thick in some regions and thin in others, like a cloud dense here and faint there.
In the same way, the human mind does not only swing in the straight line of yes or no. It also feels pulls from many centers. At the very base lies muladhara, the root, where instincts of survival and grounding take hold. From here rises svadhisthana, the center of passions and desires, carrying the waters of creativity, pleasure, and romance. Above it shines manipura, the fiery seat of willpower, ambition, and the drive to shape one’s path. Higher still, at the heart, rests anahata, where love and compassion blossom, where emotions soften into care and empathy. From the throat flows vishuddha, the power of speech and expression, where words carry both truth and deception, shaping destinies like ripples on water. At the brow glows ajna, the eye of vision and clarity, where intellect refines into insight and direction. Finally, at the crown unfolds sahasrara, the thousand-petaled lotus, where ignorance melts into pure awareness, and consciousness stretches beyond body and mind toward the infinite. Just as the atomic electron is a cloud of probabilities, the human mind is a cloud of tendencies.
An atom and a human are similar—both are made of waves and held in shape by forces, both are clouds of many possibilities, and both reveal the same principle of quantum darshan—that reality manifests as a dance of localization and delocalization, of multiplicity and oneness.
A particle is the actual excitation of a quantum field, the fundamental spark that exists independently of how it appears. This excitation is real and does not depend on whether its wave is spread out or concentrated. What superposition of momenta does is shape the particle’s appearance: when many momentum components combine, the particle seems bundled and localized, like a small dot in space; when momentum is sharp and singular, the particle appears as a smooth, delocalized wave, stretching across regions. In the same way, a human being is the true essence of consciousness, ever-present and whole, regardless of how thoughts or desires seem to fluctuate. When consciousness localizes in the body and ego, it flows in many directions—toward intellect, speech, emotion, instincts, passions, and even ignorance—much like the superposition of many momenta creating a particle-like cloud. But when consciousness delocalizes, like a sage absorbed in truth, it flows steadily in one direction, unaffected by distractions, just as a wave with a single momentum spreads evenly without forming a concentrated dot. Thus, physics distinguishes between the particle itself and the way it manifests, and quantum darshan mirrors this distinction by showing the difference between pure being and the multiple forms in which that being expresses itself.
Momentum: The Hidden Sculptor of Electron Orbitals
Electrons in atoms are not tiny balls orbiting the nucleus but standing waves governed by quantum mechanics. Their behavior is determined by both position and momentum, which are intimately connected: a sharply localized electron requires a wide range of momentum components, while a well-defined momentum corresponds to a delocalized spatial distribution. The familiar orbitals—s, p, d, and f—emerge as the visible patterns resulting from the superposition of momentum states in three-dimensional space. Where momentum components cancel, nodes appear; where they reinforce, the probability of finding an electron is high.
Momentum plays a central role in shaping orbital forms. In s-orbitals, momentum is distributed evenly in all directions, producing a spherical cloud that may slightly overlap the nucleus. In p-orbitals, momentum flows along opposite directions, creating dumbbell-shaped regions and vanishing at the center due to angular nodes. In d- and f-orbitals, momentum organizes into increasingly complex patterns, forming clover-like or intricate shapes. In each case, the spatial arrangement of electrons reflects the underlying balance of momentum, constrained by the nucleus’ potential energy.
A human analogy makes this clearer. Imagine a bonfire at the center of a field, representing the nucleus, with people arranging themselves around it. Their seating is not random but reflects tendencies—some drawn closer, others pushed farther away—until a stable pattern emerges. In s-like behavior, people spread evenly in all directions, reflecting balanced momentum. In p-like behavior, they sit opposite each other, leaving gaps in between. In d-like patterns, groups form lobes, much like intersecting momentum flows. What governs these patterns is not mere position but the “push and pull” of movement—just as momentum sculpts electron orbitals.
This physical principle mirrors human life. Just as a quantum state is infinite and wave-like in its true nature but becomes localized into particle-like form through interactions, so too is the human soul infinite by essence yet localized into worldly roles through social interactions and duties. The key insight is that localization does not erase the underlying reality. An electron may appear particle-like, yet its momentum-based wave nature continues to govern its behavior. Similarly, a human being may act within roles and responsibilities, yet can remain inwardly free and egoless through awareness—what may be called “quantum darshan.
Thus, momentum is more than a physical quantity; it is the hidden architect that bridges infinite possibility with localized reality. In atoms, it gives rise to orbitals, nodes, and the structure of matter. In life, it offers a metaphor for how the infinite can remain untouched even while appearing in finite forms. Matter and consciousness alike are shaped by this subtle law: structure emerges not from rigidity but from the balanced interplay of hidden momentum.
From Infinite Wave to Localized Self: A Quantum Analogy
For matter seen as particles, momentum is mass multiplied by velocity, giving speed and direction. For waves, momentum is expressed differently: it is linked to wavelength by the relation p=ℏkp = \hbar kp=ℏk. A shorter wavelength corresponds to higher momentum, a longer wavelength to lower momentum. In this sense, momentum does not push a single point forward but shapes how the entire wave extends and propagates. A single traveling wave is like a calm, steady thought flowing endlessly in one direction—peaceful, unbroken, extending into infinite consciousness. A standing wave is like a thought that keeps reflecting back on itself, creating rhythmic patterns of clarity and pause, much like a mantra echoing in the mind. But when many thought-waves of different kinds arise together, rushing in various directions, they interfere with one another: sometimes aligning to produce bright flashes of awareness and insight, and sometimes canceling to leave dark patches of confusion or ignorance. Just as an electron wave interferes only with another electron wave and not with a proton wave, in the mind too, one type of thought mostly interferes with its own kind—peace reinforcing peace, desire clashing with desire, fear amplifying fear—while different categories of thoughts usually pass by without strongly disturbing one another. In the same way that a localized electron wave emerges from the interference of many momentum components, the mind’s sharp moments of awareness appear as temporary luminous blobs born from the interplay of many thought-waves converging at once.
The arrangement of electron orbitals may be compared to a bonfire gathering. No single person’s movement defines the whole crowd, yet patterns of sitting, shifting, and adjusting ripple through the circle. The arrangement around the fire is not set by one individual’s speed or direction, but by the combined tendencies of all—much as a wave’s momentum is not a single push but the harmony of many components.
A whirlpool offers another image of the same principle. Its spirals are not caused by one drop of water but by countless flows of momentum combining, cancelling, and reinforcing each other until a stable pattern forms. In orbitals, the interference of momentum components works in the same way: some directions cancel to form nodes, others add up to create lobes of high probability. What emerges is not random motion but a structured, wave-shaped pattern, sculpted by momentum.
The same can be seen in the human mind. Thoughts arise from many subtle impulses—memories, desires, and impressions—that move in different directions like wave components. When these mental momenta conflict, they cancel out into silence; when they align, they create strong patterns of thought or emotion. Just as atomic orbitals emerge from the balance of momenta, the structure of the mind emerges from the balance of inner currents. A calm and egoless awareness, like quantum darshan, allows one to remain infinite and unbound even while these patterns form, much as the electron remains a wave even when appearing particle-like.
Thus, whether seen in the crowd around a fire, the swirl of a whirlpool, or the patterns of the mind, the lesson is the same: momentum is the hidden architect, silently shaping both matter and consciousness.
Momentum of Union: From Manifestation to Dissolution
In the quantum wave, the peaks are not points of highest energy but of highest probability, special zones where existence is most likely to show itself. Energy belongs to the whole standing wave, shared between stillness and motion, but probability gathers in the crests as if the cosmos were leaning toward manifestation there. Yet one wave alone does not guarantee appearance; true manifestation arises when waves of the same kind meet in harmony, their crests merging, amplitudes rising, and probability surging until the particle is found. This is constructive interference—the cosmic embrace of Shiva and Shakti, not two separate substances but two polarities of one wave, consciousness and power, motion and stillness, whose union gives birth to the manifest world. It is as if one human alone can experience the world, but the experience becomes extraordinary, vivid, and far more joyful when two or more human beings share it together in sympathetic coherence, each energising the other’s awareness. In the same way, a single wave can manifest the world at its peaks, but this is nothing compared to the towering peaks that arise when many waves merge in harmony. Just as a thought is potentiated by the same kind of thought from others, and not by unrelated thoughts, so too an electron wave is potentiated only by another electron wave, not by a photon wave. When crest meets trough, however, the wave cancels, probability vanishes, and manifestation dissolves. This destructive interference is not mere negation but a deeper kind of union. In tantra, it unfolds in two phases: first, the mental energy released by dissolution is gathered and delivered wholly to a single meditation image. Like a secret momentum shift, the scattered forces of desire collapse into one direction, awakening the image into living presence aka kundalini awakening and producing self-realisation that burns away the final traces of craving for the world. Only then, in the second phase, is the yogi free to dissolve completely. With no momentum pulling outward, the cancellation of crest and trough becomes total absorption, the wave rests in silence, and the yogi merges into the void of Samadhi. This rhythm of creation and dissolution can also be glimpsed in human life. I heard of two students, one boy and one girl, bound in intense friendship. They studied, grew, and rose together, step by step, reinforcing each other without leaps and bounds—like two waves in perfect constructive interference. Yet when their bond deepened into total merging, they no longer remained as individuals in the world. Their togetherness became so absolute that they dissolved into silence, cut off from outward play, like crest and trough folding into stillness. First, their friendship amplified life; then, their union carried them beyond it. However, it was a premature union and not of much use. Thus, the wave reveals both arcs of cosmic psychology. Constructive interference is the rising momentum of manifestation, the creative embrace where resonance swells into being. Destructive interference is the withdrawing momentum of dissolution: first conserving energy into awakening, then releasing it into pure stillness. In this rhythm we see the eternal play of Shiva and Shakti, of probability rising into form and dissolving back into the void, the very dance of momentum through which the cosmos breathes. It simply means that married life is not only for dissolution, as many think, but also for rising to the peak through constructive interference.
Quantum Interference and Electron Localization
An electron in an atom behaves as a wave, continuously reflected by the nucleus, forming a standing wave at discrete wavelengths—these are the atomic orbitals where it can exist stably. When the electron absorbs a photon, it gains energy, which increases its momentum and shortens its wavelength. This new wavelength can no longer fit the lower orbital’s standing-wave pattern, creating destructive interference there. The electron can only stabilize in a higher orbital whose standing-wave pattern matches its new wavelength, allowing constructive interference. Analogously, it is like a person trying to focus: when their energy or attention increases, they cannot remain in a previous state of focus; they must adjust to a new pattern that accommodates the added intensity, or else their focus scatters. In this way, discrete atomic energy levels naturally emerge from the wave-like momentum of the electron, and photon absorption “lifts” the electron precisely to the next allowed standing wave.
Harmony in Motion: How Electrons and Minds Find Their Balance
Just as momentum gives matter its speed and direction, the Pauli exclusion principle shapes the organization of electrons in an atom. No two electrons with the same spin can occupy the same orbital—much like in a harmonious family life, where two members of the same kind cannot occupy the same niche; balance requires diversity. One electron must be “male” and the other “female,” complementing each other, creating stability and order. Similarly, a doctor’s mind thrives on a delicate balance of opposing thoughts: one aims to benefit the patient through proper treatment, while the other ensures the doctor receives fair compensation. If only one thought dominates—pure altruism without reward, or pure self-interest without care—the system fails. When both coexist in harmony, like opposite spins in an orbital, the doctor can act effectively, grow in skill, and sustain the practice. In both the quantum world and human endeavors, stability and progress emerge from the interplay of opposites, each finding its rightful place in the dance of balance and cooperation.
Human as Mirror of All Worlds: From Atoms to Cosmos and Brahma
Actually, human beings give experience to the world. Whatever is happening in the quantum world, the micro world, and the macro world is experienced by the human being. But how? Humans never directly see the quantum world, nor the macro world extended into infinite space. They only observe the limited world of friends, family, social connections, and job. Yet, in truth, every world is covered within this. All other worlds are only photocopies of this limited world—some reduced in size down to the quantum level, and some enlarged to the scale of endless space and cosmos. All these worlds are reflected in human thoughts, emotions, and behaviour. So it is not hard to conclude that the human being is everywhere: in every quantum particle, in every piece of matter, and in every space. Keeping this in mind, a person naturally becomes detached and non-dual like those. This is like the repeated scriptural sayings that Brahma learned the art of living from Narayana, many great rishis and kings learned the art of living from Brahma, and from King Janak his people learned the art of living from him. It is a tradition. Brahma means the world we live in. So, when we count ourselves equal to all matter, we are in fact counting ourselves equal to Brahma. This is direct learning, but we can also learn from a Vedic priest, who through Sanatan rituals shows that he is equating himself with Brahma. That is the indirect method, and it is also very effective. Probably I received this learning from my Dada Guru, in whose company I grew, who was a great Sanatan Purohit and expert in gods and nature-worship rituals.
The tendency of humans and atoms is the same. The atom has made eyes; humans have made cameras and televisions. The atom has made feet and plain areas to walk; humans have covered feet with shoes and created roads and automobiles for travel. The atom made protective skin over the body; humans have added extra protection by building houses. Whatever work we compare, the patterns are similar. Then where lies the difference? The difference is only in the style of doing and living. The atom is egoless, peaceful, orderly nondual, and detached—whereas humans are quite the opposite. Yet, when one keeps in mind the similarity between the two, it becomes easier to imbibe the very character of the atom itself.
Actually, nature looks beautiful because it is created by the orderly activities of atoms. Among them we feel our own orderly social life. And through this recognition we attain detachment and non-duality like them. That is why we feel peace in naturally flowing, orderly, and beautiful picturesque sceneries, which appear to be made by the intelligent design of the cosmos.
Quantum Darshan: The Unity of All Life and Matter
No one is truly illiterate or ignorant in this world. Everyone, in their own way, understands their body and mind at least in a gross sense. This is the most visible reflection of the cosmos, whether we look through the lens of the quantum world or space science. Quantum Darshan reveals this truth and, by doing so, sows the seeds of love, sympathy, and cooperation among human beings. Once we see this, no one — not even the smallest creature — can be considered ignorant, for all are moving along the same life pattern and deserve to be treated as equal to ourselves. What may seem like utopia — equality between every living and non-living being — is in fact real and possible. A stone is carrying out the same quantum processing that a quantum computer performs. A mosquito lives the same fundamental lifestyle as Brahma himself. Indeed, what Brahma does, the quantum world is also doing silently within even a stationary stone, as revealed by Quantum Darshan. It reveals that all matter, living or non-living, follows the same fundamental laws — superposition, uncertainty, interactions and collapse including every quantum and cosmic phenomena as revealed above — even if we cannot perceive them directly.
Then a logical question arise, why study quantum science and space science if everything already reflects in human behavior? Primarily, it is to provide scientific authenticity for the principles of non-duality and detachment to non-believers, superficial believers, or insincere believers, since genuine believers are already guided in a practical way by the true teachings of the scriptures on these fundamental spiritual truths. Even after so much effort to uncover the deep, hidden secrets of the quantum world and the vast cosmos, if no insightful philosophies like Sharirvigyan Darshan or Quantum Darshan emerge, then we are only grasping the tip of the iceberg in terms of real understanding and benefits.
The First Currents
Imagine a blank canvas covered with countless tiny droplets of paint, each one holding the potential to flow in any direction. Left untouched, the canvas seems empty, as if nothing is happening. But the slightest nudge—a tilt, a breeze, a brushstroke—sets the droplets in motion. They merge, spread, and create patterns, slowly forming a vibrant painting full of movement and life.
In the same way, the first tiny differences in momentum among quantum particles created the first cosmic currents. Some moved faster, some slower. Some turned left, others right. These slight variations created uneven patches in the early universe — places where particles crowded together, and places where they spread apart.
Those uneven patches were the womb of galaxies. Without them, matter would have been evenly smeared across the universe, like a thin mist with no stars, no planets, no life.
A Small Push, a Big Destiny
To understand momentum’s power, think of a football match. A player gives the ball just a little extra push, and that small change decides whether the ball hits the goalpost or scores the winning shot. Momentum changes work like that. A tiny nudge in one direction at the beginning can lead to entirely different outcomes later.
In the quantum world, such nudges multiplied billions of times, across billions of particles. The universe was like a grand game, with each tiny push shaping the larger play. Out of these minute movements came the vast rivers of matter that flowed into galaxies, the clusters of stars, and finally, the planets that hold life.
Indian Darshana View: The Flow of Gati
In Indian thought, momentum finds its echo in the idea of gati — movement, flow, the ceaseless dance of prakriti. The Bhagavad Gita reminds us that all beings are helplessly driven by their nature, their guna. In the same way, all particles are carried forward by their inherent momentum.
A small shift in guna can change a person’s destiny; a small shift in momentum can change the destiny of a universe. Rajas pushes, Tamas resists, Sattva balances—and between them the world flows. Momentum is the hidden driver that turns possibility into pattern. Movement in the direction of Sattva leads toward the divine, in the direction of Rajas creates restlessness, and in the direction of Tamas leads to inertia or darkness. Yet, the superposition of movement in all three directions and choosing a single direction at a time according to the need and situation at that time produces a balanced, complete human being. Similarly, the superposition of particles in all directions but choosing one as per requirement allows the world to remain balanced, harmonious, and ever-growing.
From Fluctuations to Galaxies
Modern cosmology tells us something remarkable: the universe today, with its starry skies and living worlds, is a magnified version of the tiniest quantum fluctuations of momentum in the very beginning.
Those tiny differences, amplified over time by gravity, created the “cosmic web.” Imagine stretching a net across the universe, with knots where galaxies form and empty spaces between them. That cosmic net was woven by momentum changes in the earliest moments.
Without these variations, we would see no clusters of stars, no Milky Way, no Earth, no us. Momentum changes are the fingerprints of creation on the fabric of space.
Layman’s Metaphor: The River
Picture a mountain stream. At first, water drips quietly from melting snow. One drop goes left, another right. These tiny shifts decide where the stream will carve its path. Soon rivulets join, currents grow, and a mighty river flows down to the valley, nourishing fields and villages.
In the same way, momentum changes in the earliest particles were like those first drops. A particle leaned slightly this way, another that way. These small differences grew into vast flows of matter, carving out the rivers of stars and planets that fill the universe.
A simple change of flow in one particle became a cascade, and from that cascade, entire galaxies were born.
The Dance of Interactions
Momentum also governs how particles meet each other. Two particles rushing straight at each other may collide and create new forms. If their momentum differs only slightly, they may miss, glide, or scatter. Thus, the angle and force of momentum are like the steps of a dance, deciding whether the meeting gives rise to creation or separation.
Think of a crowded marketplace. People walk in all directions. A small change in someone’s step can lead to bumping into another, a conversation, maybe even a lifelong bond. In the same way, momentum directs the encounters of particles, and from those encounters new structures are born.
Momentum as Karma
If spin is the hidden poet of the cosmos, momentum is its karmic force. Once set in motion, it carries forward until acted upon. Just as karma propels a being through cycles of birth and rebirth, momentum propels particles through endless interactions.
The rishis said: “As you sow, so shall you reap.” In physics we say: “Momentum is conserved.” Both mean the same at heart: what is set in motion continues, weaving consequences through time.
Chance and Necessity
But why do particles change their momentum? Sometimes it is through collisions, sometimes through interactions with fields, sometimes through quantum uncertainty itself.
Science calls it probability. Darshana calls it play, or lila. In both cases, what begins as a slight uncertainty blossoms into rich variety. Without these uncertainties, the universe would be a dead, uniform block. With them, creation dances with diversity.
The One Flowing into Many
Seen deeply, momentum is nothing but the One flowing into the Many. At the root, there is stillness, the Brahman beyond movement. But when Brahman expresses as prakriti, motion begins. That first motion is momentum — the drive to expand, to scatter, to gather, to become.
Thus, momentum is not only a physical property; it is also a symbol. It is the cosmic urge to create, the primal breath of the universe.
Closing Reflection
So the next time you watch a river bend, or a gust of wind shift a leaf, remember: these are echoes of the earliest quantum pushes. The diversity of creation — galaxies, stars, life — was not written in stone from the beginning. It was written in the small, delicate changes of momentum, multiplied across the endless ocean of particles.
Momentum is the gentle nudge that became the grand design. It is the current that carried the universe from silence into song.
Closing Verse (Mantra-style)
From the smallest push, the vastest flow.
From the tiniest drift, the grandest design.
Momentum is the river of becoming,
Carving galaxies, cradling life.
O flowing current, O cosmic breath —
You are the motion that became creation.
Demystifying Kundalini 