#Biology of the Quantum Dimension
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Top Ukrainian female Scientists, Doctors, Mathematicans, Economists, Artists, Athletes, Leaders, Astronauts, Military Leaders, etc.
The Ukrainian mathematician Maryna Viazovska who won Fields Medal — the highest honor for a mathematician.
Selected few famous Ukrainian scientists
We decided to talk about outstanding Ukrainian women who've changed and continue to change the world of science to show that girls can do anything.
Maryna Viazovska, a mathematician
Ukrainian scientist, doctor of natural sciences. Ukrainian mathematician Maryna Viazovska, who currently works at the Swiss Federal Institute of Technology, received the Salem Prize 2016, which is extremely prestigious for mathematicians. The commission awarded the prize to Maryna Viazovska for her world-class discovery. Ukrainian solved a problem that scientists have been working on for more than 400 years, i.e. packing spheres in 8-dimensional space, and co-authored the one in 24-dimensional space. Previously, the problem of packing spheres was solved only for spaces with three or fewer dimensions.
Yuliia Bezvershenko, a physicist
Ukrainian scientist in theoretical physics, popularizer of science, public figure, Ph.D. of physic and mathematical sciences, Yuliia Bezvershenko is included in the list of TOP-20 Ukrainian women in STEM for 2018-2019. Yuliia deals with mathematical methods applied to the problems of dynamics of quantum systems in external fields and control of quantum systems. She is convinced and proves that one can practice theoretical physics with passion.
According to Yuliia, at one time she heard an important thing from her mentor: you can be yourself in any field! Therefore, one shouldn't be afraid of stereotypes and prejudices of others.
If you're a girl, a woman, no matter where, no matter how old you are, and your heart is in science, don't be afraid. Go there boldly. After all, nothing will stop a woman, ready to work and conduct scientific discoveries.
Mariia Bailiak, a biologist
Doctor of Biological Sciences, Associate Professor of Biochemistry and Biotechnology in Vasyl Stefanyk Precarpathian National University. Scientist Mariia Bailiak studies biochemistry and researches the influence of various plants and substances on the aging process. Mariia Bailiak's discoveries concern, for instance, the increase of stress resistance and the general condition of living organisms (and therefore, us and you, and it's good news: stress resistance doesn't hurt anyone), and anti-aging substances. Thanks to her intensive work, Mariia is in the Top 10 successful Ukrainian women scientists.
Olha Brovarets, a biophysicist
Ukrainian biophysicist, Doctor of Physic and Mathematical Sciences, winner of the Scopus Awards Ukraine in the nomination "Best team of scientists who achieved significant scientific results without Western collaborations" and the President of Ukraine Award for Young Scientists, and a leading researcher in the Department of Molecular and Quantum Biophysics Institute of Molecular Biology and Genetics of the National Academy of Sciences of Ukraine. Olha is the youngest doctor habilitatus in Ukraine; she became a doctor at 29. Olha is now 34 years old and she continues to study biophysics: her discoveries give an understanding of the mechanisms of cancer and many other diseases caused by mutations. It was Olha who calculated the pattern of mutations in DNA leading to cancer and many other diseases.
Nana Voitenko, a biologist
Professor, Doctor of Biological Sciences, neurobiologist, head of the department of sensory signaling of the Bohomolets Institute of Physiology of NAS of Ukraine. Nana Voitenko has been researching pain for more than 20 years. What do we know about pain? For most people on Earth, pain is something they'd like to get rid of as soon as possible if they feel it. Nana Voitenko deals with the nature of pain, as it occurs and spreads in the human's central and peripheral nervous systems. In the laboratory, Voitenko and her colleagues managed to develop an experimental treatment that affects only those cells involved in pain syndromes. Besides, Nana Voitenko is actively promoting science: she's a lecturer at the "Days of Science" initiative, was a lecturer at TED-x Kyiv in 2013, and the organizer of the "Week of Knowledge about the Brain." Science is close, and it's accessible to everyone.
Ella Libanova, an economist
Scientist in socioeconomics, demography, and labor economics, academician of the National Academy of Sciences of Ukraine, Doctor of Economics, Professor, Honored Economist of Ukraine. Ella Libanova is an academician-secretary of the economics department of the National Academy of Sciences of Ukraine and, by the way, the first and only female member of the presidium of the National Academy of Sciences for 102 years of its work. She teaches social statistics at the Faculty of Economics of the Taras Shevchenko National University of Kyiv; introduced a method for measuring human development at the region level, used by the State Statistics Service of Ukraine for annual calculations.
Nina Virchenko, a mathematician
Professor of the Department of Mathematical Analysis and Probability Theory, Doctor of Physic and Mathematical Sciences Nina Virchenko is one of the most famous Ukrainian mathematicians. She is the author of more than 500 scientific and methodological works, including 20 books published in Ukrainian, Russian, English, and Japanese. Nina Virchenko is recognized not only in Ukraine but also abroad; she's a member of the Australian, American, Belgian, Edinburgh, London mathematical societies. In the end, it's not surprising, because mathematics knows no boundaries and recognizes all the achievements, wherever you obtain them.
Nina Virchenko's fate wasn't easy: at 18 in 1948, she was sentenced to 10 years in the Gulag camps for preparing a "political conspiracy, revolt" and participating in the "Ukrainian-nationalist gang." Years in the camps didn't stop the future doctor from achieving her dreams. In 1964, she defended her Ph.D. and her Dr. habil. dissertation in Kyiv in 1988.
Nataliia Vynohrad, an epidemiologist
Epidemiologist, professor, doctor of medical sciences, Nataliia Vynohrad manages the Department of Epidemiology of Lviv National Medical University. She's an expert of the World Health Organization in responding to epidemic threats and the Ministry of Health of Ukraine on epidemiology, an adviser to the Ministry of Emergencies of Ukraine on anti-epidemic protection and biosafety. Agree, you can't find a more relevant profession in 2020-2021. Once an ordinary girl from a village in the Khmelnytskyi region, and now the author of 305 scientific papers, and 8 copyright certificates for inventions and patents of Ukraine, proves that nothing is impossible for a girl who knows what she wants.
Nataliia Polonska-Vasylenko, a historian
From the early 20th century until the end of her life in the 1970s, our first heroine studied the history and archeology of Ukraine, both in Ukraine and later in exile in Germany and the Czech Republic. In a historically troublesome time for Ukraine, she became one of the leading representatives of the state school in Ukrainian historiography, that is, she promoted the idea of independence and continuity of the Ukrainian historical process. Nataliia Polonska-Vasylenko is the author of almost 200 scientific works on the history of Zaporizhzhia and Southern Ukraine, which remain relevant to this day.
Valentyna Radzymovska, a biologist
One of the most prominent names in our history is Valentyna Radzymovska, a professor, doctor of medical and physiological sciences, founder of the Ukrainian school of physiologists and biochemists, and a public figure. The Soviet authorities repressed Valentyna Radzymovska for her political activities and participation in the Union for the Liberation of Ukraine in the 1930s. However, it didn't prevent her from becoming the author of more than 60 works on biochemistry, pathophysiology, pediatrics, psychoneurology, physiology, and phthisiology. Like the previous scientist in our article, she left Ukraine in 1945, emigrating first to Germany and then to the United States.
Radzymovska contributed hugely to the study of tuberculosis and its treatment in children.
Nina Morozhenko, a physicist
Although the sun is the closest star to us, it still hides many fascinating mysteries. Ukrainian astronomer, helio physicist, doctor of physic and mathematical sciences, author of 56 scientific works, Nina Morozhenko devoted her entire life to studying the structure of our guide light and the processes taking place on it. After all, everything happening on the Sun affects many areas of human activity. Without studying the sun, it's impossible to understand not only what the future holds for our civilization but also what is happening in space, i.e. on the distant stars the humanity is so eager to reach. Nina Morozhenko's scientific works on solar prominences were the first in the world and gave rise to scientific research by helio physicists from many countries. The Ukrainian researcher's significant contribution to the physics of the sun once again demonstrates that physics isn't a purely "male" science.
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What subjects are actually taught at the academy? I've heard of recreational mathematics, thermodynamics, and touch telepathy, but what other courses are there?
What subjects do young Gallifreyans and Time Lords learn?
For once, we can be very very detailed about this!
🔬 Fundamental and Advanced Sciences
Quantum Mechanics: Introduced early in Gallifreyan education, this subject uses multidimensional geometry to solve complex problems, exploring the interplay between abstract concepts and physical realities.
Thermodynamics: This subject explores the principles of energy conversion between heat and other forms of energy, crucial for understanding the energetic dynamics of time-travel technology.
Cybernetics: Focuses on the study and construction of systems with regulatory functions, integrating technological and biological processes for the creation and maintenance of cybernetic beings and advanced machinery.
Matrix Diagnostics: Covers the techniques and tools used for diagnosing and maintaining the Matrix, a vast repository of Time Lord knowledge and consciousness.
⏲️ Specialised Temporal Studies
Basic Temporal Theory: Introduces the concepts of time and its properties, laying the groundwork for more advanced temporal manipulation studies.
Advanced Temporal Theory: Offered to students with intellectual perseverance, diving deeper into complex temporal phenomena and manipulation techniques.
Temporal Engineering: Encompasses engineering principles to temporal mechanics, essential for practical time manipulation.
TT Capsule Construction and Design: Focuses on the design and construction techniques specific to Time Travel Capsules, integrating advanced dimensional engineering and Veteran and Vintage Timeships.
TT Capsule Operation and Maintenance: Includes Space-Time Navigation, covering the operational aspects and routine maintenance of TARDISes.
Engineering Theory: The study of spaceship construction in general from different cultures.
Stellar Engineering and Cosmic Science: Deals with the manipulation and understanding of cosmic phenomena.
Dimensional Science: Studies the properties and manipulation of various dimensions beyond the standard three-dimensional space.
Dimensional Engineering: Applies engineering principles to manipulate and control various dimensions for practical uses.
Spatial Cartography: Teaches the mapping of space and the intricate layers of multiple dimensions.
Temporal Protocol and The Laws of Time: Ensures that all actions taken by Time Lords are in accordance with Gallifreyan law and temporal ethics.
Temporal Classics: Studies classic temporal theories and their applications through history.
🧠 Psychic and Telepathic Disciplines
Touch Telepathy: Teaches advanced communication techniques using innate psychic abilities.
Telepathic Defence: Includes mind-shielding techniques to protect students from psychic intrusions.
Psychic Field Manipulation: Standard training that covers manipulating one's psychic environment, including the science of Temporal Stasis.
🎨 Arts and General Studies
Super-logic: A complex form of logic used to solve problems that are beyond traditional logical frameworks.
Recreational Mathematics: This probably includes the study of happy prime numbers and other 'fun' maths (is there such a thing?), blending leisure with learning.
Art: Covers various forms of Gallifreyan art, including the creation and study of stasis cube art.
Gallifreyan History: Covers Gallifrey's past, including studying cosmic influences like those of the Assyrians.
Future History: Involves the study of fixed points in history, such as the Cro-magnon period on Earth.
Vector Justice: Teaches the principles of fairness and justice as practised by the ancient organisation known as the Vectors.
Botany and Biology: This field covers the study of Gallifreyan and alien plant and animal life, incorporating advanced biophysical studies.
Medicine: Includes tri-bio-physics and other medical sciences.
Languages: Teaches the linguistic skills necessary to communicate across thousands of different languages.
Music: Explores musical theory and practice, including the traditional harp lessons.
Detachment and Physical Inactivity: Focuses on mental and physical disciplines required to maintain objectivity and calm in all situations.
📚 The Culture of Learning
The Academy isn't just about academic achievement but also about instilling a deep-seated ethos of service and responsibility towards time and the wider universe. It's complemented by:
The Codex of Disciplines: A guide to the ethical and practical aspects of time travel and interaction with both time and the multitude of species across the universe.
Competitive and Collaborative Learning: From zero-gravity hyperball teams to Academy Sprint Championships, Time Lords are encouraged to excel in both individual and team endeavours.
Related:
How is sexual education taught on Gallifrey?: How Time Tots might get taught about sex.
What happens with 'gifted kids' on Gallifrey?: How Gallifrey deals with particularly talented children.
Do Gallifreyan children have toys?: Describing the very limited supply of toys for kids on Gallifrey.
Hope that helped! 😃
More content ... →📫Got a question? | 📚Complete list of Q+A and factoids →😆Jokes |🩻Biology |🗨️Language |🕰️Throwbacks |🤓Facts →🫀Gallifreyan Anatomy and Physiology Guide (pending) →⚕️Gallifreyan Emergency Medicine Guides →📝Source list (WIP) →📜Masterpost If you're finding your happy place in this part of the internet, feel free to buy a coffee to help keep our exhausted human conscious. She works full-time in medicine and is so very tired 😴
#doctor who#gil#gallifrey institute for learning#dr who#dw eu#gallifrey#gallifreyans#ask answered#whoniverse
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Basic Biology of Vestals | Vers. 2.0.006 - Marucho
INTRODUCTION
Vestals are an extraterrestrial species with a complex and vibrant history with impressive technological developments and intricate social relations.
Vestals originated from Vestar (pDID: 4685-6684-9999), which exists in an alternate dimension (DID: P-4685-6684-9785). It is hypothesized that early quantum fractures have created access from Vestar to Vestroia only very recently. Vestar circles a weak star (sDID: P-4685-6684-9958) which plays a crucial part of life on Vestar.
It is unclear when Vestals developed into their current place in their planetary timeline due to the different way time moves in that dimension, but it is very likely that their evolutionary process occurred very quickly, leading them to take over their planet and advance technologically at an almost unprecedented speed. The current state of Vestar is quite overpopulated, creating an initiative in Vestal society to spread and occupy different worlds.
For more information on the development of Vestal society, supplemental material can be found in Marn: The Fates of Vestal Societies (translated by Ace Grit). To stay on track, this report will only detail Vestal biology.
GENERAL BIOLOGY
(pictured above is an R-Vestal)
Vestals in their natural form are quintrupedal creatures with two sets of limbs; the primary ones that are used for mobility, and secondary limbs that resemble tails, which are used for balance, as weapons, as defense, or in some groups, as communication. According to archeological finds, Vestals used to have six primary limbs, but evolutionary pressure for taller/higher reaching creatures lead to the limb developing into a vestigial stub in the chest area [1]. The added support in the back of the body allows most Vestals to be able to "stand", or rise up on three limbs to almost double their height.
Vestals range from having 1-7 secondary limbs. In most cases the more limbs a Vestal has, the weaker each individual limb is. In severe cases of hyperpolymelia, surgery may be performed to fuse the limbs and strengthen the overall structure. Mutations in the primary limbs much rarer than secondary ones, but polymelia in primary limbs almost always leads to limbs that are too weak to be used.
Most of a Vestal's important internal systems such as pulmonary, cardiovascular, and digestive track can be found in what would appear to be the "chest" or thorax of the Vestal. The head of the body is mostly empty, resembling a mouth of sorts that Vestals very rarely display publicly.
The face of the Vestal resembles a mask of sorts, and is made of a hard, tough material that does not grow and cannot heal, meaning young Vestals' heads do not grow [2]. The faces hold a combination of optical receptors and empty holes that allow sound to pass through. Vestals' optical receptors detect the UV end of the light spectrum, like bees on Earth. Additionally, sound is generated from a Vestal's thorax and intricately moved through hollow bones and through the face to create sound.
(pictured above, a full grown Vestal with their young. Young Vestals develop with wider primary limbs to help develop balance, which usually wilts and sheds as the Vestal grows.)
Most notably, Vestals have evolved to work symbiotically with fauna that grow on the top of the body (translation of the name of the fauna is currently being discussed). The fauna species depends on several factors from UV intake, nutrients, and heat; the appearance, length, and color of the fauna range wildly, but the most common ones are 6-12 inches and resemble blades of grass. Vestals with less efficient fauna usually develop certain organs or specialized limbs to allow the Vestal to obtain more energy.
VESTAL BUILDS
As mentioned before, the symbiotic fauna can develop in a myriad of ways, with varying levels of efficiency at gathering energy from UV light. This is a very crucial way of generating and obtaining energy, meaning the efficiency of fauna can drastically affect the physical build of a Vestal.
It is imperative to mention that the different builds of Vestals mentioned are very uncommon. Due to the popularity of gene editing in Vestal society, an average Vestal would display a combination of traits from different builds: Technological advancements has lead to a higher standard of living, allowing more diverse and unique builds based on an individual Vestal's aesthetic or functional preference.
(1) Tank - Certain Vestals have strong, stocky builds with unwilted wider primary limbs. These Vestals grow a tough armor around most of their bodies, giving them more protection from injuries and heat loss. These Vestals are usually found in colder environments, where the Vestals are well suited for staying warm, the wider primary limbs able to travel icy or delicate terrain. Symbiotic fauna is not as efficient due to limited access to the sun, resulting in very slow metabolism and requiring many T-Vestals to use their powerful secondary limbs to kill prey. T-Vestals with access to medics or gene editing tools usually opt for more efficient fauna implantation surgery (FIS), where spores of fauna from drier/sunnier areas are implanted into the Vestal's skin.
(2) Runner - In the parts of Vestar that are open plain, R-Vestals have developed to run from predators. They usually come with a sharper face shape and shorter neck, and the outside of their skin is smooth to avoid drag when running. The fauna of an R-Vestal is the most efficient, so much so that most R-Vestals are able to live without additional UV supplements. The primary limbs of an R-Vestal are pointed and delicate, meaning limb injuries are very common due to the amount of force concentrated into a tiny point.
(3) Hunter - In areas of high canopy cover and low light, H-Vestals have evolved to a life of running, similarly to the R-Vestal, but instead of fleeing, H-Vestals primarily get their food source from other animals. Using their serrated primarily limbs, R-Vestals are able to climb up rocks and large flora, while also using them to spear their prey. H-Vestals usually develop more than two secondary limbs, and are able to communicate with them silently during hunts. Their secondary limbs are also noticeably sharper for maximum skewering hunting. The fauna of H-Vestals are the least effective, which is why so much of the ancient H-Vestal's diet is other fauna.
(4) Sleeper - With the highest surface area of fauna on their bodies, S-Vestals were found in the tiny pockets of Vestar that enjoyed high amount of sunlight all year round. Archeological records show that this build of Vestal almost never reproduced, possibly because of a much longer than average lifespan; almost triple that of the average T-Vestal. This is thanks to the high amount of fauna found on the Vestal's body, which increases energy production. Paired with a habitat with very little predators, S-Vestals derived their name from the society of prehistoric Vestals not doing much except enjoying their days.
ADDITIONAL NOTES
[1] Although current Vestal gene editing technology allows for the removal of the vestigial limb, the influence of the existing royal families, who choose to keep the vestigial limb, has made this body part a sort of fashion statement. There are certain modifications and shapes of the limb that can go in and out of style, and this is usually affected by the appearance of royalty or, in lesser cases, celebrities. fuck Zenoheld! -D
[2] It is currently unclear how Vestals reproduce. Young Vestals are extremely rare. Interviews with Vestals show that they are confused with the idea of sexual reproduction, and it seems like they hatch from egg-like sacs produced by a single progenitor. Current hypothesis is asexual reproduction in combination with changes to genetic information brought on by natural mutation/gene editing/environmental factors/diet.
Vestals also don't believe in marriage. - Ace
#bakugan#bakugan new vestroia#bruh i've been working on this for way too long#but i'm (mostly) happy with the final result#now i finally get to start designing the vestals YAYYY#the original plan was to do worldbuilding by writing about vestal society but i realize that i'd never get that done in a timely manner#bakugan worldbuilding
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Author Spotlight: Louisa Vidal
Starting out November strong with a guest post from Louisa Vidal, author of club read Trash Planet Confidential! Read on to see why Vidal appreciates genre fiction.
The Joys of Getting Goofy with Genre
Genre fiction can be easily dismissed by those immune to its charms. But any fan knows that it’s often a method used to examine the biggest issues in the world and find a fresh angle on them. Science fiction itself has an impossibly rich canon of visionaries like Octavia Butler, Ursula K. le Guin, Anna Kavan, and Nicola Griffith, here to shock, educate, and inspire us. It can also be an excuse for intense silliness: make pretty girls green, stick a rubber mask on a dog and make it an alien, go for a joy ride in an asteroid shower.
When I got the prompt from Space Fruit Press that their 2023 queer romance anthology was going to be sci-fi themed, I’d like to tell you I immediately sprung into researching astrophysics and extra-terrestrial biology. Being well-read in the sciences is hot, right? But while I don’t mind a dilly-dally with quantum theory now and then, I knew what I really wanted to write about: Space Lawyers.
In the Venn diagram of my love of science fiction and legal dramas, the overlap is the procedural stuff. This is the backbone of Star Trek - the detail of people just doing their jobs, or trying to, while their colleagues drive them crazy by letting tribbles on board or ripping open a portal into another dimension. This is not a million light years away from the crime TV and film (I’m old enough to have lived through the John Grisham adaptation era), where the storyline may have involved murder, corruption, or the Mafia, - the core of the action is also workplace drama.
For my story, Trash Planet Confidential, I made a stack of my favourite legal eagle tropes - class differences, enemies joining together for a noble cause, archive-digging - then stuck them on a rocket and propelled them into outer space. The world-building came easy once I knew I was writing about main characters from very different socio-economic backgrounds, who were also both ambitious lawyers; that one of them was also bright green was a pleasing aesthetic addition, and making her politically powerful was a reclamation of the Sexy Green Alien Space Slave cliché.
As a reader of queer romance, I glory in the subversive power of a happy ending. In science fiction, the world the creator shapes is only lightly bound by the laws of physics, and in the fantasy of legal dramas, lawyers can fight on the side of good and win. For all that quantum physics can provide solace, so too can lesbian sex scenes. Having the freedom to have fun is a part of romance that queer women and femmes deserve, too.
- Louisa Vidal (Goodreads) Trash Planet Confidential
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Religion, spirituality, and atheism
So I don't think I've ever spoken about my personal beliefs on my blog.
I am not a religious person. I was not raised in a religious home, my parents are not religious either, and neither is my sister. As a Middle Eastern woman I'm not a fan of religious indoctrination because, let's face it, it is harmful to people like me. I love being free, independent, and comfortable in my own skin and don't want to be stuck and controlled by a theocratic society that robs these liberties away from me.
While I don't believe in the Abrahamic God, nor do I follow any Abrahamic faiths, I'm not an atheist. We cannot confidently say, as people who barely explored the full Universe and have only been living on a single planet, that we have all the answers to a "higher, divine power" which exists beyond our perceived dimension.
It's also easy to believe there is no God, because with all the distressing events happening in the world, how can you believe in an altruistic, caring higher power who is seemingly allowing all these atrocities to happen? I feel this every now and then.
I've never been spiritual. As a person from the West, I feel really weird practicing spirituality because I feel like I'm "appropriating" someone else's culture which is heavily focused on such beliefs, particularly south Asian cultures as seen with aspects of Hinduism and Buddhism that a lot of Westerners have "adopted". I don't want to feel like I'm doing that, but I also want a spiritual presence in my life because I want to believe there is something more powerful than I am that will guide me in the right direction in life.
I'm also a scientist, but I'm not a snobby know-it-all. So I can confidently say I know a lot about science, particularly human biology, but I'm definitely not an expert in anything that can potentially explain the existence of a higher power. Quantum physics can possibly do that, but that is beyond my scientific scope because I'm a cell biologist and not a physicist. As scientists we know a lot about the world, but are still tapping into the unknown just like anyone else is.
So overall I want to be more spiritual with a scientific slant, where I don't feel like I'm stealing someone else's culture and I don't have to be religious.
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hey, it's me, dumping more of my spidersona sketches
and look! two guys from her universe!
gonna infodump below for anybody who wants to know what they're about
Marie Stacy-Parker: Nueva York's one and only Spiderwoman (my Spidersona). After growing up in a life surrounded by crime and getting her life straightened out by her Aunt Maya, the chief of police, she went to college to study medicine. During a college party, a group of students announced that if anyone ate one of the spiders they had collected they would get $100. Not one to step away from a challenge, or money, Marie ate a spider and was promptly bitten when it was on its way down. She didn't think anything of it until she kept sticking to her blankets, and the walls, and the ceiling. Marie would go down to the science department and meet Pedro Parker, who confessed to splicing spider DNA together, though it was only an experiment and was expected to fail. Marie would go on to hone her spider skills, saving the city multiple times, including Pedro. The two fell in love and dated for a few years before getting married. And yes, she did tell him that she was Spiderwoman, eventually. They even have a baby, or rather, Marie has a baby. Benny Stacy, per Pedro's request. A year later, her Aunt dies in an accident, and life becomes harder for her and her tiny family, until a futuristic stranger from another dimension literally drops into her apartment.
Pedro Parker: Marie's husband, they first met in college after her spider bite incident, he was studying biology and helped create the radioactive spider that gave her spider powers. After graduation he went to work for Alchemax up until his unfortunate death. His best friend is Miguel A. O'Hara
Miguel A. O'Hara: This variant of Miguel is vastly different from the 2099 version. He's a very meek man. Easily pushed around and taken advantage of in his early 20s. Although he studied quantum physics in college, Miguel developed a side project with Pedro while they worked together at Alchemax: creating a mechanical suit with appendages that could be controlled telepathically. Pedro was originally supposed to be the one to test the suit, but one thing got in the way: his wedding. Left to test the device alone: Miguel took it upon himself to be the test subject. The suit melded with his flesh, ingrained itself in his spine, almost like a parasite. The suit spoke to him like a second brain, enabling his deepest desires and feeding into his doubts. One day the suit told him to confess his hidden love to Pedro, he was running out of time and his best friend had a baby on the way. But before he could even entertain the thought, Pedro died. He didn't know who to blame, Spiderwoman for not being around to save him, or himself for helping Pedro pursue his wife.
#all if their backgrounds are still in development but marie's so far is the most done. she's also been arrested 10 times#i have so much more universe lore id like to talk about but its not all fleshed out yet#maybe ill draw pedro's face soon#if you read my lore i love you btw#spidersona oc#atsv oc#my ocs#my art#marie stacy-parker
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PROJECT HALF-A FIELD TEAM THETA
Masterpost.
For authorized personnel only. Detailed information on assignees for Mission GZ-001.
FIELD TEAM THETA DOSSIER
Agent L Former military operative, specialization in combat. Skills Hand-to-Specter-Combat- trained in close-quarters combat. Tactical Planning- demonstrates strategic thinking in the field. Ectoplasmic Threat Assessment- trained in identifying and neutralizing various ectoplasmic entities efficiently. History Agent L has a distinguished record in military special operations, having led Security Team Delta as the security detail for the Ghost Portal. Her combat expertise and leadership skills were instrumental in securing the chamber and responding to encounters against ectoplasmic entities. Primary duty is ensuring the safety and effectiveness of Field Team Theta. Agent M Experienced pilot and engineer. Skills Aerial Navigation- expertise in small aircraft. Engineering- proficient in maintaining and repairing ecto-technology. Anomalous Technology Integration- specialized knowledge in adapting both traditional and ecto-technologies. History Agent M has a proven track record in designing and integrating advanced technology. Notably, he reverse-engineered a piece of spectral technology dropped by the entity known as Skulker during a previous encounter. This achievement showcases his ability to understand and adapt foreign technology, contributing significantly to the advancements in our spectral research initiatives and phaser development. Agent N Cryptographer, linguist specializing in dead and lost languages.SkillsLanguage Proficiency- fluent in various dead and occult languages. Cryptanalysis- expertise in deciphering and translating codes and messages. Occult Expertise- in-depth knowledge of rituals and artifacts. History Agent N's multifaceted background includes significant contributions as a cryptographer in her earlier career. Notably, she played a pivotal role in discovering the lost city [REDACTED], showcasing her skills in mapping and exploration. Prior to joining Field Team Theta, she worked for The Vatican, where she focused on deciphering ancient occult texts for their demonologists. Agent O Specialist in ecto-biology and first aid. Skills Ecto-Biology- proficient in the study and analysis of ectoplasmic entities, understanding their physiology and behavior. Field Research- expertise in conducting on-site biological assessments in challenging environments. First Aid- trained in providing medical support during field missions. History Agent O's diverse background includes significant contributions to deep-sea biology, where he worked with a small team confined to ocean depths, studying unknown life forms. His experience in challenging and confined environments prepared him for the unique challenges of spectral exploration. After the creation of the Fenton Thermos, Agent O was involved in the research and capture of their first specimen, contributing significantly to the development of standards for ectoplasmic entity classification. His expertise in spectral biology and field research was instrumental in understanding the unique characteristics of the captured entity, laying the foundation for the classification protocols used by Field Team Theta. Agent P Quantum physicist with a focus on time-space and dimensional phenomena. Skills Quantum Mechanics- proficient in understanding the requirements to manipulate time-space and dimensional phenomena. Energy Resonance Analysis- capable of detecting and interpreting fluctuations in spectral energies. Interdimensional Field Theory- specialized knowledge in navigating and operating within interdimensional spaces. History Agent P's groundbreaking work in establishing the limitations within the fabric of space-time proved integral to supporting the Drs. Fenton in their work on creating the Ghost Portal. Fueled by an unbridled passion for unraveling the mysteries of the spectral dimension, Agent P developed a radar system capable of warning agents when an entity was about to breach the Ghost Portal.
See attached reports for more information. GHOST INVESTIGATION WARD QUARTERLY REPORT 002 FIELD TEAM THETA PSYCH EVAL
#project halfa#dp fanfic#dp au#danny phantom#danny phantom au#H.A.L.F.A. = Hybrid Apparitional Life Form Agent#field team theta#giw#ghost investigation ward
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Good morning Mimi!
How do you think a sparkling with parents of different dimensions would be? In starblitz crossover you said that Tfp starscream is popular among tfa decepticons,sooo...👀
That's a good question, but tbh unless we wanna get into quantum physics and determine whether or not longterm existence in an alternate dimension would be lethal, or if it's even possible for two bots that previously existed on different wavelengths to reproduce, I'm gonna say not that different? They'd likely just be a normal baby, assuming that their parents' biology is compatible enough to reproduce in the first place
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137.5⁰ seed spiral approx
2d surface of 270⁰/2 = 135⁰ almost a golden ratio of the sunflower.
EW
Hexagonical
Quantum gravity expression is a 6+ 1 dimensional shape parabolic/hyperbolic surface expression with the addition of a ⁰⁰⁰ 《》¹¹¹ recurring fractal of time with each feild acting as a 2d surface to the next.
A terressact toras with super gravitational mirroring
Also the dirac
(by means of a hyperbolic tangent)
So quantum mechanics is also included via protons neutions neutrino and quarks electons
Quantum gravity expression as this shape
With a implicit dimension of time ⁰⁰⁰<1d
That why it fits with a Penrose but only if you put in a ⁰⁰⁰d <1d
Linking to ccc because when ⁰⁰⁰《》¹¹¹ dimensions are fulfilled then the ¹¹¹ = 0 and the cycling fractals onwards into 3d space mirrored by gravity into 6d super gravity GpH and 》¹¹1 this would act like a surface between Q points.
Which geometrically matchs with enstein (E=mc² EFE) DeM ratios and Freyman diagrams Maxwell Susskind Greene flop transformation with matter anti matter pairings with coalition's to the standard model and explains why there's only an up/down/electron mix and why it resolves in 4 forces with Mtheory. With a closed recirculating loop with conservation of energy from GpH to quantum states and hyperbolic supergravity in an overall toras/tesseract
These recirculating points of time entanglement create stable vector feilds in time.
The proofs from nature and biological systems with further ramifications in Quantum biology and neurological structures with emergent behaviour.
So with time dilation of 4.8L~ recurring a quatum recirculation probably can be mapped linking action at a distance through Q points.
Yeah?
6/8/10 dimensional hyperbolic fractal +1
A fractal trying to resolve itself.
A tesseract that moves in a circle with a phi ratio simple
High pressure to low pressure
Quantum to Gph which then repressurised
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Welcome to the Future: Carabiners, Woks, and the Evolution of Humanity
In a world where human evolution has transcended biology, the humble carabiner has become the cornerstone of survival. No longer just a tool for climbers, it is now the key to unlocking the next stage of our species. The Quantum Carabiner 5000 is the first piece of technology designed not just to hold weight but to interact with the fabric of space-time itself. Attach it to your belt, and it will harmonize with the quantum strings of the universe, allowing you to glide through dimensions with the grace of a dancer and the precision of a master craftsman. The evolution of humanity is not in our genes anymore, but in the tools we wield.
As society moves beyond the mundane and into a multiversal existence, woks—yes, the age-old cooking pans—have undergone their own radical transformation. The Hyper-Wok isn’t just for stir-frying your favorite meal anymore. Utilizing advanced nano-alloys and fusion technology, it now serves as a personal energy generator and force field emitter. Imagine deflecting asteroids, repelling harmful radiation, and cooking the best noodles of your life, all in one compact device! The wok is the ultimate symbol of human adaptability, its evolution a testament to our ability to repurpose even the most basic tools into advanced survival gear.
Purple is no longer just a color—it’s a frequency. Our brains have evolved to perceive purples beyond the visible spectrum, thanks to new genetic enhancements. But it’s not just about seeing purple; it's about living purple. With the Purpled Initiative, humans now communicate through wavelengths embedded in purples unseen to the naked eye, bypassing traditional speech and thought. This is the new language of the evolved human, where information transfer happens instantly and effortlessly, allowing us to operate on a higher cognitive plane. The message is simple: the future is here, and evolution is no longer something that happens to us—it's something we actively shape.
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The Fabric of Time
There are a variety of opinions when it comes to the understanding of time. The majority of people view the concept of time as present, past and the future. But, physicists are in agreement that the Universe is an enormous swath of spacetime, with heavy objects that are bent around it. The Theory of Eternalism The philosophical concept of eternality is that time is an equal dimension as space. This means that the future events are already happening in the past, and that both past and present time are equally real. Philosophers in the past have debated over whether the topological aspects of time are part of the ontology. Others, like presentism and B-theoretic eternityists, are not in agreement. Eternalism solves this issue by examining the past and future as directions, not states of being. This means that making truths for the past and future is not as difficult as it could be, as all time positions exist evenly. It is also a reason why we experience time how we do because all points in the universe share the same topological characteristics. The explanation does not address issues concerning the order of events and the differences between them from one frame into another. This is a topic that is worthy of further discussion. The Theory of Presentism Presentism is a fad theory which holds that only events that are present. Presentists typically say that it is the natural, common sense view of time. They have a lot of issues in this perspective.
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How do they prove the veracity of something similar Marie Curie was a real person. What If she was alive at the moment in the same way that you and the Taj Mahal do? Presentists are having a difficult time finding truth-tellers who can speak the truth about the past. The issue with positing entities outside of time is that they can be transformed into. A better option is to view each new time as a unique universe. This is often called the growing block theory of time. It can solve some issues that exist with different theories of time but still leaves others unaddressed. Presentists also subscribe to a view of the universe that is incompatible with special relativity. The Theory of Singularity Computer scientists have adopted the concept of singularity from physics to describe a hypothetical point when technology, particularly artificial intelligent (AI) is expected to reach an unimaginable level of intelligence and capabilities. The term is also utilized by futurists like Ray Kurzweil, who believes it will happen in 2045. In general, physicists refer to "singularity" as any point in which current knowledge of a physical system fails or is unable to be explained. A singularity could be described as the black holes' center, which is a point that has infinite density and gravity. Singularity theory is based upon bifurcation theory. This theory explains how phase portraits of families of dynamical systems change qualitatively when the parameters of the family differ. The bifurcation concept has been beneficial in comprehending and forecasting complex phenomena in diverse fields such as biology, computer science and engineering. The Theory of Multiple Universes In the most thorough models of the cosmos the universe is multiverse with no beginning nor end. These universes differ in key natural elements, like the laws of physics and the characteristics of dark matter or black holes, compared to our own observed universe. These universes can be arranged in a logical order or arrangement, such as a sequence of Big Crunches followed by Big Bounces. They could be part of an infinite-length multiverse that is cyclic. The Many-Worlds interpretation of Quantum Mechanics is among the most fascinating versions of theories about multiverses. This theory suggests that every moment a decision is made that multiple timelines are branched off from each other, sometimes producing wildly different outcomes. Scientists who believe in this theory believe that versions of you are living the lives of other people, but your current reality is the only one discernible to us. Some of these other universes are expected to contain tunnels known as wormholes. They can connect two points of curved space-time. Video embeds anchors:
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The Atlas of Worldly Wisdom
ReadingList
The different stages below include chronological suggested readings that will help in understanding and appreciating important ideas and perspectives. Some of these super ideas have been mentioned in The Atlas of Worldly Wisdom, and others serve to build on certain themes.
The assumption is that between half an hour to one hour per day can be dedicated to this project
thisis where the expected timeline for each stage comes
The different readings and suggestions are included in tabular form in the last page of this document. They have been categorized into the different spirals and the different stages. To get the complete information about any of the books, check the ‘References’ document.
Stage1: Basics-I– 10Books–~ 4months
SixThinking Hats (De Bono)
TheLessons of History (Durant)
The7 Habits of Highly Effective People (Covey)
TheMind Map Book (Buzan)
What theNumbers Say (Niederman)
TheArt of War (Sun Tzu)
Think-GrowModules : Personalities & Behavior 1
Think-GrowModules : Succeed
Think-GrowModules : Win-Win
ChooseOne :
Howto Win Friends and Influence People (Carnegie)
Oneof [ Brain Power or Verbal Intelligence ] (Both by Buzan)
1 For the Think-Grow Modules, check out the ‘Apps List’ Document, or go to: ahijazi.website
Stage2: Basics-II– 10Books–~ 4months
Howto think like Leonardo Da Vinci (Gelb)
Thinkingin Systems (Meadows)
ChooseOne :
AtomicHabits (Clear) or Tiny Habits (Fogg)
ThePsychology of Money (Housel)
Peak(Ericsson)
Think-GrowModules : The Better Brain Library
NakedStatistics (Wheelan)
ChooseOne:
TheRichest Man in Babylon (Clason)
CashflowQuadrant (Kiyosaki)
Think-GrowModules : Lead
ChooseOne:
Buildinga Second Brain (Forte)
NetWork (Anklam)
Stage3: Insights&Synthesis–10 Books– 4to5 months
Fuzzyon the Dark Side (Hijazi)
TheNew Leaders (Goleman)
TheArt of Worldly Wisdom (Gracian)
TheArt of Thinking Clearly (Dobelli)
The80/20 Principle (Koch)
Creativity, (Catmull)
Emotional Intelligence(Goleman)
ChooseOne :
Freakonomics(Levitt)
TheGreat Mental Models-I (Parrish)
OneSmall Step : The Kaizen Way (Maurer)
Theone left/not chosen from 10 [Stage 2]
Stage 4 (Mastery & Further) and Stage 5 (Cultured : Beyond) include a total of 16 books, but these will (probably) take significantly longer to finish than those in Stages 1 to 3.
I believe that going forward, personal tastes and preferences can play a bigger role. These are landmark books that will expand your knowledge and awareness into key fields and to include important super ideas. Choose the ones you prefer, but try to keep moving between the categories of the Triple-Spiral (Awareness, Intent, Creativeness).
As you read the books in this category, many ideas for further readings will come up. The path should get progressively more interesting as you advance and customize it further with more personally-relevant choices.
Stage4: Mastery& Further –10Books –4to5months
GiftsDiffering (Meyer-Briggs)
ChooseOne:
GoodStrategy Bad Strategy (Rumelt)
Steal Likean Artist (Kleon)
TheBed of Procrustes (Taleb)
Fooledby Randomness (Taleb)
Skinin the Game (Taleb)
ChooseOne:
ScientificRevolutions (Kuhn)
Theone left/not chosen from 8 [Stage 3]
Bookof your choice on Design Thinking & Creativity
Bookof your choice on the Philosophy of Science
Bookof your choice from cognitive science
Bookof your choice from Popular Science (Evolutionary Biology or Quantum Physics)
Next you can go through the list of books I’ve included in the ‘Cultured: Beyond’ category, and keep growing your knowledge and understanding of the world and yourself.
This reading list is a work-in-progress. It will keep changing and will be updated regularly (I hope).
On the following page you can see the suggested readings as a table, categorized by level and dimension.
Good Luck!
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Given humanity's current understanding of quantum mechanics, how long does Gallifrey think it would take for humanity to build a somewhat functional TARDIS? (or, given humanity's current level of technological advancement, how long would it take for humanity to reach a similar level to Gallifrey in its prime in terms of technological advancement?)
How long until the Earth might reach the technological age of Gallifrey?
🌌 Quantum Mechanics
From Gallifrey's view, humanity's current grasp of quantum mechanics is like an infant taking its first doddery steps. Quantum understanding lays the groundwork for manipulating reality's very fabric, a cornerstone in TARDIS technology, but Earth is only scratching the surface of quantum theory, technology, and ethical application.
🛠️ Journey to a TARDIS
Creating a device like a TARDIS needs leaps in science and philosophy far beyond Earth's present capabilities. Gallifrey took around 10.5 million years to get from the first Gallifreyan to a functioning TARDIS.
Here's a checklist for Earth to work its way down:
Quantum Mastery and Unification: It'll take a few centuries to harmonise quantum mechanics with general relativity, laying down the theoretical framework for higher-dimensional manipulation.
Manipulating Space-Time: Several thousand years might pass before Earth can develop technologies capable of significant space-time manipulation, like traversable wormholes or warp drives.
Find a Power Source: This technology requires near-infinite energy sources that run on zero-point energy. Seeing as Earth is still breaking apart rocks and arguing about the liquid that comes out, this is a while away yet.
Understanding and Accessing Higher Dimensions: Transitioning from three-dimensional beings to entities that can perceive and interact with additional dimensions, including time, need evolutionary changes in humans or advanced cybernetic augmentation that could take hundreds of years to develop.
Consciousness-Technology Symbiosis: Achieving a symbiotic relationship between consciousness and machines, essential for TARDIS-like functionality, needs advancements in neuroscience, AI, and materials science.
You've Got Time Travel: Once all this has been achieved, you have time travel. But, I don't think it was mentioned how many more years it might take to use it responsibly. After all, could you really imagine the power of time travel solely in the hands of the elite? ...
... Oh, wait a minute.
Related:
Could a human become a Time Lord?: Quick look at how a human could become a Time Lord.
How does artron energy exposure affect humans?: Dangers and benefits of artron exposure for humans.
Factoid: What happens when a human spends a lot of time with a Time Lord?
Hope that helped! 😃
More content ... →📫Got a question? | 📚Complete list of Q+A and factoids →😆Jokes |🩻Biology |🗨️Language |🕰️Throwbacks |🤓Facts →🫀Gallifreyan Anatomy and Physiology Guide (pending) →⚕️Gallifreyan Emergency Medicine Guides →📝Source list (WIP) →📜Masterpost If you're finding your happy place in this part of the internet, feel free to buy a coffee to help keep our exhausted human conscious. She works full-time in medicine and is so very tired 😴
#doctor who#gil#gallifrey institute for learning#dr who#dw eu#gallifrey#dw meta#gallifreyans#ask answered#whoniverse
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Nanotechnology: Exploring the World of Nanoscale Materials
In the vast realm of science and technology, there is a field that delves into the tiniest of particles and unlocks a whole new dimension of possibilities. This field is nanotechnology, and it focuses on manipulating and controlling matter at the nanoscale. With the ability to engineer materials and devices at such a minuscule level, nanotechnology holds immense promise for revolutionizing various industries and transforming our daily lives.
At its core, nanotechnology involves working with materials and structures that are typically between 1 and 100 nanometers in size. To put that into perspective, a nanometer is one billionth of a meter, or roughly 100,000 times smaller than the width of a human hair. At this scale, the rules of classical physics start to give way to quantum mechanics, leading to unique properties and behaviors that can be harnessed for numerous applications.
One of the most remarkable aspects of nanotechnology is its interdisciplinary nature. It combines principles from physics, chemistry, biology, and engineering to create a holistic approach to problem-solving. Researchers in this field employ cutting-edge techniques and tools to observe, manipulate, and characterize nanoscale materials. These techniques include scanning probe microscopy, electron microscopy, and molecular self-assembly, among others.
One area where nanotechnology has made significant strides is in materials science. By manipulating materials at the atomic and molecular level, scientists can create substances with enhanced properties and functionalities. For example, nanoparticles can be engineered to exhibit improved strength, conductivity, or reactivity compared to their bulk counterparts. This opens up a wide range of possibilities for developing advanced materials for applications in electronics, energy storage, medicine, and more.
In the field of electronics, nanotechnology has enabled the continued miniaturization of devices, leading to smaller, faster, and more efficient electronic components. Nanoscale transistors and circuits have become the building blocks of modern computing, powering devices like smartphones, tablets, and laptops. Furthermore, nanomaterials such as graphene have shown remarkable properties for flexible and transparent electronics, paving the way for innovative wearable technologies and foldable displays.
Energy is another area where nanotechnology holds great promise. Researchers are exploring nanomaterials for more efficient solar cells, capable of converting sunlight into electricity with unprecedented efficiency. Nanotechnology also plays a crucial role in energy storage, as nanomaterials can enhance the performance and lifespan of batteries and supercapacitors. By improving energy conversion and storage technologies, nanotechnology contributes to the development of sustainable energy solutions.
Nanomedicine is yet another exciting field that harnesses the power of nanotechnology. Nanoparticles can be engineered to deliver drugs directly to targeted cells in the body, increasing the efficacy of treatments while minimizing side effects. Nanoscale sensors can monitor physiological parameters and detect diseases at early stages, allowing for timely interventions. Additionally, nanomaterials can be used for tissue engineering, creating artificial scaffolds that promote cell growth and regeneration.
However, with great potential comes great responsibility. The field of nanotechnology also raises concerns about the environmental and health impacts of nanomaterials. As nanoparticles become more prevalent in consumer products, it is crucial to assess their safety and understand their interactions with living organisms. Responsible development and regulation are paramount to ensure the ethical and sustainable implementation of nanotechnology.
To fully realize the potential of nanotechnology, ongoing research and collaboration are crucial. Scientists, engineers, policymakers, and ethicists must work together to address challenges and explore new avenues of discovery. International collaborations and knowledge sharing are vital in advancing the field and overcoming barriers.
Education and public awareness also play a significant role in the responsible development and acceptance of nanotechnology. By disseminating accurate information about its benefits, risks, and ethical considerations, we can foster informed discussions and shape public opinion. Encouraging young minds to pursue careers in nanotechnology will ensure a steady stream of talent and fresh ideas for future innovations.
In addition to its technological advancements, nanotechnology has also inspired awe and wonder in the scientific community and the general public. The ability to manipulate matter at such a minuscule scale brings us closer to understanding the fundamental building blocks of our world. It challenges our perception of reality and expands the boundaries of what is possible.
As we continue to explore the world of nanoscale materials, we must remain mindful of the ethical implications and long-term consequences. With responsible research, regulation, and public engagement, nanotechnology can be harnessed as a force for good, driving progress and improving lives across the globe.
The field of nanotechnology continues to evolve rapidly, pushing the boundaries of what is possible. Researchers are constantly exploring new avenues and developing novel techniques to manipulate and utilize nanoscale materials. One area of ongoing research is the development of self-assembling nanostructures, where materials have the ability to organize themselves into complex patterns and structures. This remarkable phenomenon holds great promise for creating advanced nanodevices and materials with precise control and functionality.
Another exciting direction in nanotechnology research is the integration of nanoscale materials with biological systems. This emerging field, known as nanobiotechnology, aims to harness the unique properties of nanomaterials to revolutionize healthcare and diagnostics. For instance, nanoparticles can be used as contrast agents for improved medical imaging, enabling early detection of diseases such as cancer. Nanotechnology also plays a vital role in the development of targeted drug delivery systems, allowing for precise and controlled release of therapeutic agents.
Furthermore, the field of nanotechnology is making significant contributions to environmental sustainability. Nanomaterials are being explored for various applications in environmental remediation, such as the removal of pollutants from water and air. Additionally, nanotechnology is enabling the development of highly efficient catalysts for renewable energy production, such as hydrogen fuel cells and photovoltaic devices. By harnessing the unique properties of nanomaterials, we can address pressing environmental challenges and pave the way for a more sustainable future.
The potential impact of nanotechnology is not limited to scientific and technological advancements alone. It also has profound implications for society and the economy. As nanotechnology continues to mature, it is expected to drive innovation and create new industries and job opportunities. The development and commercialization of nanoscale materials and devices have the potential to transform sectors such as electronics, healthcare, energy, and manufacturing. Governments and industries around the world are investing in nanotechnology research and development to stay at the forefront of this rapidly evolving field.
However, as with any transformative technology, there are ethical and societal considerations that need to be addressed. Responsible governance and regulation are necessary to ensure the safe and ethical use of nanotechnology. This includes careful assessment of potential risks, protection of workers and consumers, and the establishment of guidelines for responsible research and development. Open dialogue and engagement with the public are also essential to address concerns and foster trust in the field of nanotechnology.
In conclusion, nanotechnology opens up a vast world of opportunities by exploring the realm of nanoscale materials. Through interdisciplinary collaboration and cutting-edge research, we can manipulate matter at the atomic and molecular level to create advanced materials, revolutionize electronics, enhance energy solutions, and revolutionize medicine. However, responsible development, ethical considerations, and public engagement are crucial to ensure the safe and sustainable implementation of nanotechnology. By embracing the potential of nanotechnology while being mindful of its impact, we can shape a future where the nanoscale unlocks a world of innovation and benefits for all.
FAQ’s?
1. What is nanotechnology?
Nanotechnology is a field of science and technology that involves manipulating and controlling matter at the nanoscale, typically between 1 and 100 nanometers. It involves working with materials and structures at the atomic and molecular level to create new properties and functionalities.
2. What are the applications of nanotechnology?
Nanotechnology has a wide range of applications across various industries. It is used in electronics for miniaturization and improved performance of devices. It has applications in medicine for targeted drug delivery, diagnostics, and tissue engineering. Nanotechnology also contributes to advancements in energy storage and generation, environmental remediation, and materials science.
3. How does nanotechnology benefit society?
Nanotechnology has the potential to revolutionize many aspects of society. It can lead to the development of more efficient electronics, advancements in healthcare with improved diagnostics and targeted treatments, sustainable energy solutions, and cleaner environments through pollution control. Nanotechnology also has the potential to create new industries and job opportunities, driving economic growth.
4. Are there any risks associated with nanotechnology?
As with any emerging technology, there are potential risks associated with nanotechnology. The effects of certain nanomaterials on human health and the environment are still being studied. It is important to conduct thorough research to understand the safety and potential risks of nanomaterials and ensure responsible use and disposal.
5. How is nanotechnology regulated?
Regulation of nanotechnology varies across different countries. Some jurisdictions have specific regulations in place for the production, use, and disposal of nanomaterials. Regulatory agencies work to ensure the safety and responsible development of nanotechnology. It is important to have a coordinated effort between scientists, policymakers, and regulatory bodies to address any potential risks and establish guidelines for safe use.
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painting by lou, at her altar. she sent this to me and i couldn't stop looking at it. i. set it as my phone background. metamorphosis, fracturing, butterflies, she said i am the butterfly.
thinking about reiki as concentrated loving awareness. i practised reiki on cam last night, it felt like a shared meditation. thought is energy, intention is energy, action is denser energy, everything is energy. through my own consistent daily practice of depth, i increase my sensitivity to and expand my capacity to hold this energy. the reiki principles are simple and so beautiful—just for today, do not be angry, do not. worry, be humble, be honest, be compassionate to yourself and others.
desire to shave off my hair / change my hair. could i make the decision not to pick beauty and still love myself. could i find beauty in the courage to face my neuroses and background programming? what places of my mind can only be accessed when I remove my hair?
there's a deep and growing desire for growth, the more I learn and explore and get excited, the stronger this urge to grow is. Matias talking about the tree starting off as a seed and in the darkness it seeks minerals that it uses to grow its roots before shooting up through the ground. I was thinking about how I'm not enjoying some of the work i'm doing at the moment, how it feels so heavy in my body when those emails about it come through. while i was journaling I thought about the heavy work feeling. I thought about whatever dimension it is that understands that it can influence the other dimensions, and I thought about responsibility, and how can responsibility be used as a means for creativity. I thought about Blu taking over the $12,000 / month lease and how that quickly prompted her to figure it out, to create. grow up to show up. what responsibility can i be taking to live a life that makes my body fell light and full, not dense and empty. I messaged sarah about taking weekly journaling classes at the studio until i leave for germany. the energetic planting of a seed.
the dimensions are not places but perspectives.
Klee Irwin Unified Theory Klee Irwin - Are We in a Simulation
“It is remarkable that mind enters into our awareness of nature on two separate levels. At the highest level, the level of human consciousness, our minds are somehow directly aware of the complicated flow of electrical and chemical patterns in our brains. At the lowest level, the level of single atoms and electrons, the mind of an observer is again involved in the description of events. Between lies the level of molecular biology, where mechanical models are adequate and mind appears to be irrelevant. But I, as a physicist, cannot help suspecting that there is a logical connection between the two ways in which mind appears in my universe. I cannot help thinking that our awareness of our own brains has something to do with the process which we call "observation" in atomic physics. That is to say, I think our consciousness is not just a passive epiphenomenon carried along by the chemical events in our brains, but is an active agent forcing the molecular complexes to make choices between one quantum state and another. In other words, mind is already inherent in every electron, and the processes of human consciousness differ only in degree but not in kind from the processes of choice between quantum states which we call "chance" when they are made by electrons.” - Freeman Dyson
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Future Computer: Proficiency Redefined
In today's rapidly advancing technological era, the future of computing holds tantalizing possibilities. From quantum computing to artificial intelligence, the world of tomorrow will be vastly different from what we know today. Join me on this exciting journey as we delve into the world of future computers and explore how they will reshape our lives.
Quantum Computing: Unleashing the Power of the Unseen
Quantum computing – the holy grail of computation – is set to revolutionize the way we process information. Harnessing the weird properties of quantum mechanics, these supercomputers will be able to calculate complex problems at a mind-boggling speed. Forget about waiting for hours or days for your calculations to finish – with quantum computers, results will be obtained in mere seconds. Be prepared to witness scientific breakthroughs that were once inconceivable, as these computers unlock the secrets of medicine, cryptography, and more.
Artificial Intelligence: A Mind of Its Own
Imagine computers that can not only mimic but also surpass human intelligence. Artificial Intelligence (AI) is already making waves in fields such as healthcare, finance, and transportation, but the future will see unprecedented advancements in this realm. From self-driving cars to personalized medical treatments, AI will become an indispensable part of our lives. These intelligent machines will not only follow our commands but also learn and make decisions independently, making them true partners in our quest for a better future.
Augmented Reality: Blurring the Lines of Possibility
The future of computing extends beyond traditional screens and keyboards – it's time to embrace a new dimension with Augmented Reality (AR). AR overlays computer-generated content onto our physical world, blurring the line between reality and imagination. Imagine stepping into a world where your surroundings come alive with virtual creatures, information, and interactive experiences. From gaming to education to telecommunication, AR will revolutionize our daily experiences and bring about a new era of exploration and creativity.
Biocomputing: Merging Man and Machine
The convergence of biology and technology is no longer the stuff of sci-fi movies – it's becoming a reality. Biocomputing, the field that merges biological systems with computers, has the potential to transform healthcare as we know it. Imagine tiny computers implanted in our bodies, monitoring our health in real-time, and delivering personalized treatments. With biocomputing, the future holds the promise of longer, healthier lives and a deeper understanding of our own bodies.
Conclusion
As we peer into the future of computing, one thing becomes clear – our world is on the brink of a technological revolution. From quantum computing to artificial intelligence, augmented reality to biocomputing, the possibilities are endless. Brace yourself for a future where proficiency is redefined, where computer power knows no bounds, and where the unimaginable becomes a reality. Let us embrace this brave new world, where the only limit is our own imagination. if you're a tech geek you would also appreciate our other blogs such as SSD for desktop , LED computer, Desktop Without Cpu also there are some news article written on AI Supercomputer , Silicon valley Research centre
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