It's been a wild last two weeks. Seems the moment I really wanted to commit to the content pivot (ie draw kafhime sex), the old ways of Honkai Impact 3rd manifest in its most severe form: the mald. It's like being mara-stricken IRL for those that are HSR players. Sure, HI3 has a rich story about lesbian girls coming of age and overcoming the odds against world-ending cosmic forces and rich diversity of game modes and all that, but its inescapable purest form of endgame (for those that crave it) is the abyss (superstring) and arena (Memorial Arena), where the chase for one more point or one more second gives way to infinite "one more try"s. Infinite restarts chasing for the perfect opening hoping that you don't fumble your inputs or that the game doesn't bug out at a critical moment. This combined with metrics addiction manifested by your streamer friends raiding you with bigger audiences (that I'm grateful for) results in streaming longer hours that, while fun at the moment, leave a sort of emotional hangover the day after.

One of the things that has annoyed me recently with content creation around hoyoverse games is that you become a slave to the release schedule. Oh new version in HI3, oh Kafka released for HSR, oh special program for Fontaine, oh CN Beta HI3 and CN dev stream for v6.9. The hamster wheel never ends and it's easy to lose sight of the joy that sparked the journey to begin with. In that moment of the malding, there was an aspect of the purity of the grind, one I haven't felt in a long long time. Yet, in the blink of a singular boss fight, 5-8 hours were consumed. Was it worth it chasing that high?

"I started [streaming] at 6pm and it's now 1am and you are still on this boss" -Mariaaaaaaaaaaan (an SEA HI3 captain) who raided me on my long stream two Sundays ago.

In one regard I felt motivated to stream a lot again like I did maybe during early to mid 2022, but the other side is knowing every hour spent streaming gameplay is an hour away from drawing stuff for patrons or designing fan merch and drawing fan art for the long run.

Calabi-Yau manifold

In algebraic and differential geometry, a Calabi–Yau manifold, also known as a Calabi–Yau space, is a particular type of manifold which has certain properties, such as Ricci flatness, yielding applications in theoretical physics. Particularly in superstring theory, the extra dimensions of spacetime are sometimes conjectured to take the form of a 6-dimensional Calabi–Yau manifold, which led to the…

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A universe of 10 dimensions theory *4minutes*

I was thinking that it was kind of time traveling. But episode 4th is slightly different, so my thoughts about Tyme and Great time traveling washed in the toilet at this moment.

What about different dimensions.

Hearme out:

We are immediately aware of the three dimensions that surround us on a daily basis – those that define the length, width, and depth of all objects in our universes (the x, y, and z axes, respectively).

But there are 7 more and fourth dimension is time (4 minutes, Greats tattoo * time is everything*). which governs the properties of all known matter at any given point. Along with the three other dimensions, knowing an objects position in time is essential to plotting its position in the universe. Indeed time is everything.

According to Superstring Theory, the fifth and sixth dimensions are where the notion of possible worlds arises. If we could see on through to the fifth dimension, we would see a world slightly different from our own that would give us a means of measuring the similarity and differences between our world and other possible ones. What if Great is right now in the 5th dimension. It's slightly different from the original one. But we are still not sure about the original one. It's not shown us. I'm betting that Tyme still went for his revenge plan and then fell in love with Great and Great loves him back and helping with revenge. The sex he sees in his head is not the one he experienced in ep 4th.

In the sixth, we would see a plane of possible worlds, where we could compare and position all the possible universes that start with the same initial conditions as this one (i.e. the Big Bang). In theory, if you could master the fifth and sixth dimensions, you could travel back in time or go to different futures. Here it is very interesting. If Great is indeed in different dimensions, he can actually time travel and create a different kind of future.

And lastly, not the least we can talk about butterfly effect. The idea that something small, like getting coffee, can have much larger effects, such as altering your career is called the butterfly effect. The butterfly effect rests on the notion that the world is deeply interconnected, such that one small occurrence can influence a much larger complex system. Which we saw at the end of the ep.4 Dome's voice heard by Tonkla. What if Greats different choices are affecting all dimensions, and with butterfly effect, he is creating the new one. The one where he saved people he couldn't in his timeline.

My head gonna explode. I'm at work people. I've got shit to do. The hell I'm analyzing BL drama 🤣🤣

But Bibles tattoos Thighs....

Omg...

Well, I'm definitely not okay...

Hyperdimensional Space Portal Talon Abraxas

Hyperspace theory (also called Superstring or Supergravity theory) begins with Einstein's General Relativity. In 1919, Theodr Kaluza, building upon relativity, made an astounding discovery: light and gravity can be unified and expressed with identical mathematics. This was the beginning of the unification of all physical laws, which is the ultimate goal of physics. There was only one catch. He needed an extra dimension. This fifth dimension, long recognized as mathematically plausible, had never before been seriously proposed as an actual component of reality. The usefulness of his theory was hard to deny; in five dimensions, there is "enough room" to accomplish the unification of gravity and light, which simply cannot be accomplished when trapped in four dimensional spacetime.

There is an obvious question to be asked at this point. "Where is the fifth dimension?" Kaluza's answer is clever, though suspiciously hard to test. He said that the fifth dimension is too small to see. The fifth dimension is contiguous with our four, but it is curled up, while the others are extended. To understand curled-up dimensions, imagine an ant living on a string (or a Linelander). For all its life, it is only aware of two directions: forward and backward. It lives in a one-dimensional universe. However, if you examine the string very closely, you find that it has a circumference; an extra dimension, curled up and wrapped back onto itself into a circle. If you could stretch this dimension, that is, make the circumference very large, the ant would be living on the two-dimensional surface of a cylinder. But when it's curled up, it effectively is undetectable by the ant, though it may serve as a medium for vibrations or other physical effects.

This Kaluza-Klein Theory (named after Kaluza and one of his students) was a curiosity for a while until people became disenchanted with its bizarre hypotheses and lack of concrete predictions. A common criticism was to ask why, if there could be one extra dimension, why not many? Just how many dimensions did this wacky theory have? For many years, people were content to leave gravity behind and work on examining the nature of subatomic matter via Quantum Mechanics.

Fortunately, in the 1980's, Kaluza-Klein came back with a vengence. The new wave of physicists supporting Hyperspace ("higher"-space) theories had an important element which was missing in the thirties: an exact prediction of the number of dimensions in our universe. By manipulating the formulae of Einstein, Riemann, and the like, they managed to unify all the forces of nature (gravity, the strong and weak nuclear forces, and the electromagnetic force, which includes light) in a single theory. How many dimensions did they need? Ten.

According to Hyperspace theory, each point in our four-dimensional universe conceals an additional six curled-up dimensions. The image at left provides insight on how this might be possible. Here we have a two-dimensional plane viewed at great magnification. At each point in the plane, there are the two curled-up dimensions of a sphere. In our universe, each point contains not a sphere, but a higher-dimensional object: a six-dimensional "Calabi-Yau Manifold." There is a very simple reason why we can't see these manifolds: they are less than 10^-33 centimeters across, much smaller than our most powerful microscopes can detect. Nonetheless, the movement of vibrating "strings" through these manifolds may be the source of all of physics.

Superstring Shifting Theory

In response to @doverealities asking for a logical explanation to shifting, I present to you: my theory on dimensions.

It should be noted that I am not a physicist. I just love learning and science! Also, this explanation is rooted in Superstring Theory (if I ever have the time I will try to do posts with other String Theory variants), which is a scientific theory but it is a plausible one.

The Superstring Theory of physics says there are 10 dimensions.

The first dimension (1D) and second dimension (2D) are something you probably learned about in middle school algebra: the x and y axis. To bring something into the third dimension (3D) the z axis is added. Thus, the 3D is actually 3 variables put together which form the observable physical world.

The fourth dimension (4D) is time, which is essential to shifting in two different ways. First, time is observable, but according to Einstein's Special Theory of relativity, time is relative - how time moves is dependent on the observer’s perspective. This is especially important to understand because it is what makes time ratios possible. A time ratio of 1 CR hour = 1 DR hour, means both realities have the same perspective of time; time moves at the same speed in both realities. A time ratio of 1 CR hour = 24 DR hours means time is “faster” in your DR from the perspective of your CR, but when you are in your DR you don’t experience time any faster than you would in your CR. It is all about perspective. 

Secondly, the 4D and 3D form coordinates to plot a point on the graph that makes up the universe. You know how people say “every time you breathe you are shifting” or “you are shifting every second”? This is what they mean. Every physical 3D change, combined with the 4D (when it happens) forms a moment different from the one before it and the one that comes after, thus we are constantly shifting to different “points” in the universe. When you shift to your DR, you are shifting to a certain moment in that universe and then continue to move along those points. Thus, this concept is important to understand so you understand what universe “graph” and the “point” on that graph which you want to go to and start at.

Alright… now here comes the fun stuff!

The fifth dimension (5D) is made of universes that have similar 3D and 4D to our current one. DRs (or maybe they should be DUs for desired universe?) like Fame and Streamer DRs, and even DRs that fall in the “realistic fiction” category (ex. Grey’s Anatomy, Bridgerton, NCIS) all reside in the 5D spatial dimension.

The sixth dimension (6D) is fairly similar to the 5D, except it stretches all the way back to the way the universe was formed at the Big Bang (not proven, but highly likely this is how the universe was formed). If there are differences in astronomy in your DR, it probably resides in the 6D.

The seventh dimension (7D) and eight dimension (8D) have a similar relationship to one another as the 5D and 6D do. The 7D describes universes that were formed in a different way than ours, and the 8D is where all the possible universes from the different 7D initial conditions reside. (If you aren’t understanding these two, don’t worry too much about it. In my opinion, these are the two least important dimensions to understand how they work in order to understand this theory).

The ninth dimension (9D) is where universes with different laws of physics are. This is where (I believe) DRs with magical and supernatural elements are. Because these elements often defy the laws of physics, they go all the way back to the 9D in order to be possible.

The tenth dimension (10D) is where anything anyone can imagine is possible. When in doubt, assume your DR resides in the 10D.

Note: just because one DR resides in the 5D and another resides in the 9D, doesn’t mean one will be easier to get to than the other. The dimensions explain how the existence of DRs is possible. They do not necessarily indicate distance.

I hope this helps!

AvPhysic spoiler

Not spoiler first:

Yay! A sequel of the episode that made me enter this fandom.

I just realized that I liked physic too. (tbh, I like science)

Edit: No idea why but I'm currently searching about physic in whole internet

And spoiler

TSC can survive nearly everything: Second survived inside of black hole while apple is being spaghetti

TSC is a god: Second created whole universe then what is Alan? god of god?

Multiverse exist: And it made loop

+ Edit: It's loop, but it also continue after AvMath, after Second enter the white sphere and move to other space or sth And the lasso.... unless it doesn't harm anybody

+ Edit2: While I'm searching internet, I found superstring theory. I think the place where the second Second(?) lived is the extra dimension.

Here is what I want all of you to pay attention to. You are not a substance or may we imagine existing in such a three-dimensional world because we actually live in one. But for someone who's only known life in two dimensions, the third dimension would be impossible to comprehend.

These three coordinates are used to pinpoint an object’s location in space. But space isn’t the only plane we exist on; we also exist in time, which is where the fourth dimension comes in. Once we know a dot’s altitude, longitude, latitude, and position in time, we have the tools needed to plot its existence in the universe as we know it.

But some physicists who subscribe to string theory argue there’s more to reality than the observable universe. String theory, also known as “superstring theory,” aims to unify two main theories describing how the universe works: general relativity (which applies to very large objects) and quantum mechanics (which applies to very small ones). In a four-dimensional universe, this theory wouldn’t be possible, but once scientists tweaked the math to include 10 dimensions—11 including time—their equations worked.

After coming up with a theory that hinges on the existence of 10 space dimensions, string theorists then had the job of explaining where those new dimensions were hiding. Their answer: They are just as real as the “big” dimensions we can see, but the extra dimensions are curled up so tightly that they’re too small for us to notice directly.

How Many Dimensions Are There in the Universe?

Some string theorists predict at least 10 dimensions, most of which humans can’t perceive.

Some string theorists predict at least 10 dimensions, most of which humans can’t perceive. / Andriy Onufriyenko/Moment/Getty Images

Ask someone to name every dimension they know and they’ll likely list the following: length, width, and depth. They might also add time if they’re thinking outside the three-dimensional box. But asking a string theorist “How many dimensions are there?” would elicit a very different response. According to this branch of theoretical physics, there are at least 10 dimensions of space, most of which are impossible for humans to perceive.

Dimensions are the metrics that physicists use to describe reality. Sounds broad, right? Let’s start with the three dimensions most people learn in grade school. The spatial dimensions—width, height, and depth—are the easiest to visualize. A horizontal line exists in one dimension because it has only length; a square is two-dimensional. After all, it has length and width. Add depth and we get a cube, a three-dimensional shape.

These three coordinates are used to pinpoint an object’s location in space. But space isn’t the only plane we exist on; we also exist in time, which is where the fourth dimension comes in. Once we know a dot’s altitude, longitude, latitude, and position in time, we have the tools needed to plot its existence in the universe as we know it.

But some physicists who subscribe to string theory argue there’s more to reality than the observable universe. String theory, also known as “superstring theory,” aims to unify two main theories describing how the universe works: general relativity (which applies to very large objects) and quantum mechanics (which applies to very small ones). In a four-dimensional universe, this theory wouldn’t be possible, but once scientists tweaked the math to include 10 dimensions—11 including time—their equations worked.

After coming up with a theory that hinges on the existence of 10 space dimensions, string theorists then had the job of explaining where those new dimensions were hiding. Their answer: They are just as real as the “big” dimensions we can see, but the extra dimensions are curled up so tightly that they’re too small for us to notice directly.

Our basic understanding of physics makes this hard to process, but string theorist Brian Greene does a great job of framing the concept in terms most people can understand. In his 2005 TED Talk, Greene compares these invisible dimensions to the cables connected to telephone poles: From a window, a wire looks like a one-dimensional line. But if we were to study it up close we’d see that the cord is actually round, making it three-dimensional. No analogy comparing unobservable dimensions to objects in the observable world can ever be perfect, but this illustrates how something so fundamental to reality could be hiding in plain sight.

String theory states there must be at least 10 dimensions of space plus one dimension for time, but there are physicists who argue that there are more. Some posit a universe composed of 11 space dimensions. But to really blow someone’s mind when they ask how many dimensions there are, say 26: That’s the magic number according to Bosonic string theory, and it’s as high as mainstream physicists are willing to go for the time being. We are not alone

From: Steven P. Miller, @ParkermillerQ, gatekeeperwatchman.org TM, Founder and Administrator of Gatekeeper-Watchman International Group, Jacksonville, Florida., Duval County, USA.

X … @ParkermillerQ , Facebook https://www.facebook.com/gatekeeperwatchnan/

Facebook: https://www.facebook.com/groups/Sparkermiller.JAX.FL.USA,

Instagram: steven_parker_miller_1956

#GWIG, #GWIN, #GWINGO.

i treat love like a new dimension. if time is the fourth dimension, and 4D beings interact with our world like gods, crafting our realities, then id like to think of love as the fifth.

there are only so many things that effect every organism, living and not living

- The three dimensions we all recognize, x,y, z, width, height, and depth. This is true for all things, because we live in a 3D world, nothing is truly flat even if it seems like it. Even atoms have height, width and depth, even air.

- The dimension of time. We can only feel the effects of time, and not see it as a tangible dimension, because our world is 3D, not 4D. But supposing there is another plane of existence with four dimensions, including time, the concepts of gods crafting worlds and universes begin to make sense.

I think of it this way, to make it easier to understand. The existence of a 3D world, like ours, suggests a hypothetical world that is 2D- completely flat. Say we had access to these 2d worlds somehow (Superstring Theory/ Parallel Universe theory) we, as 3D beings could shape their reality- creating and destroying entire worlds simply by drawing. Someone's painting could be a universe for these beings. So, imagine a 4D being that found access to a 3D universe.

Theoretically they could create and destroy and mold entire universes in our dimension, and because we can't comprehend or fathom what a 4D being could look like, we posit them as gods, a being that is always there but never physically seen. And we cannot fathom 4D, because it doesnt exist in our plane- it's like trying to imagine what other colors are out there outside of variations of ROYGBIV, and it's impossible because, we as humans, cannot and will never be able to perceive different colors, despite knowing that they exist due to the limitations of being human. We know different dimensions exist, but it's impossible to perceive due to the limitations of only having three dimensions.

So when I think of gods of higher beings, I imagine them as 4D or even 5d beings that have mastered travel through parallel universes, basically running Sims simulators on our universe. And the longer I think about it, the more fascinated I become with the idea because I think about how God couldn't come down to earth by himself. Christians tell the story of God coming down in the form of his son, because 'Nobody can see God and live.' Like, is it because humans cannot fathom a fourth dimensional being??? So this being made a representational version of itself into our world so that we would be able to fathom it.

Like imagine a stick figure seeing a 3D human for the first time. Itd freak the FUCK out, so like I can imagine a human freaking the fuck out if we saw a 4D creature. Or even like that anatomically correct angel, where it's said that the sight of them are so horrific and awful that the sight of one will kill a human.

And if time is a fourth dimension that we feel and exist in but cannot tangibly feel, what are the others? Is consciousness another dimension? Is love another dimension? What are things we can feel happening to us but cannot touch? Gravity!! are those dimensions?

This is my special interest so I could talk for hours and hours about the connection of religion/spirituality to quantum physics, but for now I will simply link some fun articles and videos about it and write another essay another day.

8 people I'd like to get to know better

Thank you for the tag @veone

■ Last Song: The Unforgiven - Metallica

■ Last Movie: "The station agent" 2003

■ Last Book: Brian Randolph Greene

"The Elegant Universe. Superstrings, Hidden Dimensions, and the Quest for the Ultimate Theory"

■ Sweet spicy or savory: Savory, but most often I eat something so spicy that, according to those around me, it is capable of burning a hole in the table.

■ Last thing I googled: Examples of local government structures.

This is needed for my players in the current roleplaying game.

■ Current Obsession: 3D modeling. I can spend 20-30 hours in Blender or Substance Painter and not even notice it. Maybe it's another way for me to escape from reality)))

☆ Anyone who wants can join))

another week of slacking, but overall not bad

Alam Semesta Elegan: Membongkar Superstring dan Dimensi Tersembunyi

Explore the fascinating world of theoretical physics as we delve into Einstein's vision of a unified framework to explain all forces of nature. Discover the conflict between general relativity and quantum mechanics, and the significance of the ongoing quest for a unified field theory. Learn about superstring theory, which introduces tiny, vibrating strings as the building blocks of the universe, potentially unifying gravity and quantum mechanics. Uncover the mind-bending concept of extra spatial dimensions and their implications. We'll also touch on the multiverse hypothesis, experimental challenges, and the revolutionary impact of string theory on our understanding of space, time, and matter.

👍 Like and share this video to spread the knowledge!

#StringTheory #Physics #Einstein #QuantumMechanics #GeneralRelativity #UnifiedFieldTheory #Multiverse #ExtraDimensions #ScienceExplained

OUTLINE:

00:00:00 The Journey Towards Understanding 00:13:03 The Unfolding Mysteries of Superstring Theory 00:38:17 The Implications of Superstring Theory 00:44:17 The Future of Superstring Theory 00:56:50 The Future of Physics 01:08:39 The Quest for the Ultimate Theory 01:14:49 The Fabric of Spacetime 01:26:25 The Edge of Knowledge 01:47:30 the Quest for the Ultimate Theory 02:10:33 The Elegant Universe: Superstrings, Hidden Dimensions, and the Quest for the Ultimate Theory 02:18:50 Potential Applications of Superstring Theory 02:23:20 The Historical Context: Why It Matters 02:28:21 A Universe United 02:30:41 Strings Vibrating in Harmony 02:31:37 Unveiling Hidden Dimensions 02:32:32 A Revolution in Physics 02:33:25 Where Gravity Meets Quantum Mechanics 02:34:22 Unlocking the Secrets of the Big Bang 02:36:09 Exploring the Multiverse 02:37:07 Challenges and Future Directions 02:38:04 A New Perspective on Reality

A Blind Spot in Superstring Theory

Xuefeng

Oct 24, 2005

(Translated by Transn and Edited by Kaer)

If we consider the quantum field theory as one leg in a pair of pants and the general relativity theory as the other leg, then the superstring theory would be the waist part trying to connect them.

Einstein’s general relativity mainly discusses gravity and holds that it does not exist but is the result of the curvature of space. It assumes that space itself is smooth and flat, but when celestial bodies of great mass such as the sun appear, they cause it to curve inward. It is like pressing hard on a girl’s round and smooth face with an index finger which breaks the smoothness and forms an indentation. The geometric deformation of space gives rise to apparent gravity which defines it from a macro-perspective. With regard to a person or a stone, its mass is too small to deform space any noticeable amount, thus microscopic matter has almost no apparent gravity.

The problem with microcosmic matter is that its space is not smooth and flat, but is filled with countless, flying particles which are unable to curve space to produce gravity as huge masses do. The movements of microparticles have nothing to do with gravity; they are the results of electromagnetism, the strong nuclear force, and the weak nuclear force. Quantum mechanics appeared when general relativity failed to explain the source of these three forces.

Quantum mechanics studies fundamental particles at the microcosmic level. Whether large celestial bodies or grains of sand on the beach, all matter is made of hundreds of types of fundamental particles with masses close to zero but whose trajectories change unpredictably with no rules to follow but are always in motion. Motion is not caused by gravity, but by the three aforementioned forces of nature being converted from the particles. Electromagnetism is converted from photons, the strong force is converted from gluons, and the weak force is converted from bosons, however the conversion of particles cannot generate gravity; therefore, the quantum mechanics does not explain gravity.

The macroscopic world and the microscopic world are unified integral, but general relativity theoary which can explain motion at the macroscopic level and quantum mechanics which can explain it at the microscopic level, are not fully compatible. An overall description of the universe can only be had by combining these two seemingly contradictory theories and this mosaic theory is called the Superstring Theory.

This Superstring theory believes that matter is made of molecules, molecules are made of atoms, atoms are made of electron shells and nuclei, and the nuclei consist of protons and neutrons which are made of quarks. What are quarks and electrons made of? Scientists believe that both are fundamental “point” particles which have no internal structures and cannot be divided any further.

Superstring argues that these particles do not really exist, but are only strings in motion in space, and a variety of different types of particles are formed by these strings vibrating differently. All interactions between matter and energy can be explained by combining and separating strings, but strings do not move in normal three-dimensional space. Rather, they move in a high-dimension of space which is beyond our imagination. Our traditional ideas about space are wrong because space has more than three dimensions; maybe ten or even twenty-six of them.

If this sounds confusing, consider the following scenario:

· An ant crawls into a shallow pit.

· It climbs out and goes further until it falls into a deeper pit.

· It climbs out and continues to go until after some time, it drops into a sand pit.

· It climbs out, but eventually lands inside a mud pit.

These four pits are totally irrelevant to the ant which simply comes across them by chance. Living on a two-dimensional plane, it cannot see the interrelation of the four pits, let alone know that they may be related integrally.

What is the reality of the situation? These four pits are footprints left by an elephant as it ate. One foot stood on hard ground, another stood on soft ground, a third in sand, and the fourth was in a pond of rainwater. So there are the shallow pit, the deep pit, the sand pit, and the mud pit. That is to say, the seemingly unrelated pits are actually integral parts of a whole. It is only when we think beyond our two-dimensional plane to include three-dimensional height, four-dimensional time, five-dimensional retention information, and six-dimensional space movement and so on, that we begin to understand how these unrelated pits are integral parts left by a single elephant.

Gravity, electromagnetism, the strong force, and the weak force are our four pits, but they are actually parts of a whole. Superstring theory was conceived to explain their integration.

“Superstring is the most promising theory to unify our understanding of fundamental particles with the interactions of the four forces”;

“Superstring holds that strings are the most basic units of matter and that all fundamental particles such as electrons, photons, neutrinos, and quarks are different vibrational states of energy strings.”

“Superstring combines the two major basic theories of the twentieth century, general relativity and quantum mechanics, for the first time into a mathematically self-consistent framework.”

“Superstring has the potential to solve long-standing problems that have troubled physicists, including the nature of black holes and the origin of the universe. If experimentation confirms it, then our understanding of the structure of matter, space, and time would change fundamentally.”

The prospect is tempting and theoreticians are struggling with it, but it seems ridiculous and childish to me because of some major blind spots; they are:

1. How have these strings come into being?

2. How do they move?

3. Could they represent the origin of the universe?

How can a unified field theory of the universe be established when the origin of the universe is still unknown?

Only Lifechanyuan can answer these questions.

Web frequency—number of waves passing by a specific point per second period—time it takes for one wave cycle to complete in. Web light waves of all frequencies travel at the same speed of light while matter wave velocity varies strongly with frequency. Web there have been massive cosmic waves coming through, use this as a catalyst to see the change, feel the. Web musical resonance polyhedron zion intellect 33 induction of telekinetic levitation interlocking dimensions. Cosmic superstring loops wiggle and oscillate, producing gravitational waves,. Web the combinations of waves can produce very simplistic geometry or very complex geometry, depending on their frequency. Web • any pattern of vibration can be analyzed as the sum of shms each with its characteristic amplitude and frequency. 00 × 10 8 m / s is the. Web the cosmic hum propagating waves, patterns and phenomena of delight and wonder. Web rich spatiotemporal dynamics of cortical activity, including complex and diverse wave patterns, have been.

00 × 10 8 m / s is the. Web the standard model of a cosmic string is a geometrical structure with an angle deficit, which thus is in tension and hence has. Web latest from the whatfontis forum. Web musical resonance polyhedron zion intellect 33 induction of telekinetic levitation interlocking dimensions. Web there have been massive cosmic waves coming through, use this as a catalyst to see the change, feel the. Web rich spatiotemporal dynamics of cortical activity, including complex and diverse wave patterns, have been. Cosmic superstring loops wiggle and oscillate, producing gravitational waves,. Web light waves of all frequencies travel at the same speed of light while matter wave velocity varies strongly with frequency. Web the relationship between wavelength and frequency is c = fλ c = fλ, where c = 3.00 ×108 m/s c = 3. Web on the other hand, two valleys of the phase time occur at the frequencies of 425 hz and 515 hz, which exhibit fast. Web the cosmic hum propagating waves, patterns and phenomena of delight and wonder.

Man I love it when people give me lil stories. A+!!!

Check out this listing I just added to my Poshmark closet: Stephen Hawking The Universe in a Nutshell Paperback Book.

I haven't tried the new abyss yet, the elysian realm hasn't been touched for 2 weeks, superstring dimension who

I can't stop playing fucking project sekai

STRING THEORY

String theory is a theoretical framework in physics that attempts to merge quantum mechanics and general relativity.

It replaces the point-like particles of particle physics with one-dimensional objects called strings. These strings propagate through space and interact with each other.

String theory is an attempt to reconcile the two major pillars of modern physics: quantum mechanics and general relativity.

The fundamental objects of string theory are open and closed strings.. Prior to 1995, theorists believed that there were five consistent versions of superstring theory (type I, type IIa, type IIb, heterotic SO(32), and heterotic E8×E8).

However, in 1995, Edward Witten proposed that the five theories were different limits of a single theory called M-theory.

The 5 Central Ideas of String Theory:

Comprehending the ins and outs of string theory requires extensive study, but familiarizing yourself with the main elements of string theory will give you a basic understanding of its core concepts.

1. Strings and branes:

Strings are one-dimensional filaments that come in two forms: open strings and closed strings. An open string has ends that don't connect, while a closed string forms a closed loop. Branes (derived from the word "membrane") are sheet-like objects that strings can attach to at either end. Branes are capable of moving through spacetime according to the rules of quantum mechanics.

2. Additional spatial dimensions:

Physicists accept that our universe contains three spatial dimensions, but string theorists argue for a model that describes extra dimensions of space. In string theory, at least six additional dimensions go undetected because they are tightly compactified into a complex folded shape called a Calabi-Yau manifold.

3. Quantum gravity:

String theory is a theory of quantum gravity because it attempts to merge quantum physics with the theory of general relativity. Quantum physics studies the smallest objects in the universe—like atoms and subatomic particles—while general relativity typically focuses on larger-scale objects in the universe.

4. Supersymmetry:

Also known as superstring theory, supersymmetry describes the relationship between two types of particles, bosons, and fermions. In supersymmetry string theory, a boson (or force particle) always has a counterpart fermion (or matter particle), and vice versa. The concept of supersymmetry is still theoretical, as scientists have not yet seen any of these particles. Some physicists speculate that this is because it would take incredibly high energy levels to generate bosons and fermions. These particles may have existed in the early universe before the big bang but then were broken down into the lower-energy particles seen today. The Large Hadron Collider (the world's highest-energy particle collider) may at some point generate enough energy to support this theory—though as of yet, it has not turned up evidence of supersymmetry.

5. Unified forces:

String theorists believe they can use interacting strings to explain how the four fundamental forces of nature—the force of gravity, electromagnetic force, strong nuclear force, and weak nuclear force—create a unified theory of everything.