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Unlocking Engineering Excellence: SKIT College - Best Engineering College in Bangalore
In the bustling city of Bangalore, where technological innovation thrives, SKIT College stands as a beacon of excellence in engineering education. Renowned for its commitment to academic rigor, practical learning, and industry-relevant curriculum, SKIT College has consistently been recognized as one of the best engineering colleges in the region. For more details please visit here : https://writeupcafe.com/unlocking-engineering-excellence-skit-college-best-engineering-college-in-bangalore/
#Best Engineering Colleges in Bangalore#Best Colleges for Civil Engineering in Bangalore#Best Colleges for B Tech Artificial Intelligence and Machine Learning in Bangalore#Best Colleges for B Tech Information Science and Engineering in Bangalore#Best Colleges for B Tech Electronics and Communication Engineering in Bangalore#Best Colleges for Electronics Engineering VLSI Design and Technology in Bangalore
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Ok. I think it’s time we talked. About Uranium.
You see I actually know a thing or two about it. I love science. And the idea that rottmnt Donatello, can’t get any. Well… you can BUT it. And get more for your buck than you may assume. And it isn’t as dangerous as you think! (I’m not mad, I swear!) But! It IS a great, powerful source of energy.
Uranium comes in rock, and powder, yes powder. Uranium glassware that glows if you’re feeling fancy.
So we need to ask. Can Rise Donnie convert it, the price, and can he get enough of it?
First. Donnie is primarily an engineer. Plus he has a love for botany. BUT! He has stated “Geology stinks”. It’s a boring science to him. And we neurodiverse folks can’t focus on and forget things we aren’t interested in. So? He’s SMART! Surely he could get past this hurdle for something he’s clearly passionate about right?
What’s more, conversion is chemistry. Well we don’t see him so much of chemistry either. But! It is implied with the deleted episode where he was submitting a giant pumpkin into a contest, that he modified it. And THAT’S chemistry. So we’ll file this into “very likely”. Even if there was a LARGE chance it was gonna grow a mouth and attack everyone…
So. The price. US citizens are only allowed to legally purchase up to 3.3 pounds of uranium, and have a limited amount they can own. But for a low $50-100! You TOO! Can get a box of rocks!
Perhaps this is a main reason why he started his secret Stark tech company, WITH an apparel line! Considering he was counting a heap of cash. I think he was doing well off it. (Though perhaps he was struggling with it after Shredder wrecked the lab.) Plus with SHELLDON shown stealing from ATMs apparently being a thing. I don’t think money is an issue.
(Though considering he “didn’t have money” to give to Mantis, he could a. Been hiding his money so his bros wouldn’t find out/also not give a villain money. B. His company isn’t accessible to the public (yet?) and he actually stole it from an ATM or something.)
So. Can he get enough for what he needs? He probably needs a lot of it right?
The thing is. Uranium is abundant. REALLY abundant. You can mine for it yourself. So, surely a “reasonable” demand to ask for!
But perhaps this is why he spent so much time, and effort on a giant … drill.
So I can only conclude that: Donnie is banned from uranium by his family. “It’s not as dangerous as you think!” He shouts. But woe is the mad scientist with questionable intentions!
(Imagine him begging Leo to use his sword to teleport him to a mine. Pfft!)
And so, he’s been slowly, slowly, collecting uranium samples. Has him hidden away. Changing his information every time to hide his intentions from the FBI and government. While developing ways on mining it himself.
There’s literally no excuse for Donnie not to get his hands on uranium. It’s not a matter of IF. Just WHEN. He will get his hands on uranium.
So WHAT. Is his first use for this? Perhaps… a titanium Ironman suit fueled by a miniature nuclear reactor!
#I’ve been meaning to make this for a while#rise donatello#rottmnt#rottmnt donnie#rise donnie#uranium#get in dum dums#get in dum dums notes#tmnt#Donnie#Donatello#rise of the teenage mutant ninja turtles
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AI is a WMD
I'm in TARTU, ESTONIA! AI, copyright and creative workers' labor rights (TOMORROW, May 10, 8AM: Science Fiction Research Association talk, Institute of Foreign Languages and Cultures building, Lossi 3, lobby). A talk for hackers on seizing the means of computation (TOMORROW, May 10, 3PM, University of Tartu Delta Centre, Narva 18, room 1037).
Fun fact: "The Tragedy Of the Commons" is a hoax created by the white nationalist Garrett Hardin to justify stealing land from colonized people and moving it from collective ownership, "rescuing" it from the inevitable tragedy by putting it in the hands of a private owner, who will care for it properly, thanks to "rational self-interest":
https://pluralistic.net/2023/05/04/analytical-democratic-theory/#epistocratic-delusions
Get that? If control over a key resource is diffused among the people who rely on it, then (Garrett claims) those people will all behave like selfish assholes, overusing and undermaintaining the commons. It's only when we let someone own that commons and charge rent for its use that (Hardin says) we will get sound management.
By that logic, Google should be the internet's most competent and reliable manager. After all, the company used its access to the capital markets to buy control over the internet, spending billions every year to make sure that you never try a search-engine other than its own, thus guaranteeing it a 90% market share:
https://pluralistic.net/2024/02/21/im-feeling-unlucky/#not-up-to-the-task
Google seems to think it's got the problem of deciding what we see on the internet licked. Otherwise, why would the company flush $80b down the toilet with a giant stock-buyback, and then do multiple waves of mass layoffs, from last year's 12,000 person bloodbath to this year's deep cuts to the company's "core teams"?
https://qz.com/google-is-laying-off-hundreds-as-it-moves-core-jobs-abr-1851449528
And yet, Google is overrun with scams and spam, which find their way to the very top of the first page of its search results:
https://pluralistic.net/2023/02/24/passive-income/#swiss-cheese-security
The entire internet is shaped by Google's decisions about what shows up on that first page of listings. When Google decided to prioritize shopping site results over informative discussions and other possible matches, the entire internet shifted its focus to producing affiliate-link-strewn "reviews" that would show up on Google's front door:
https://pluralistic.net/2024/04/24/naming-names/#prabhakar-raghavan
This was catnip to the kind of sociopath who a) owns a hedge-fund and b) hates journalists for being pain-in-the-ass, stick-in-the-mud sticklers for "truth" and "facts" and other impediments to the care and maintenance of a functional reality-distortion field. These dickheads started buying up beloved news sites and converting them to spam-farms, filled with garbage "reviews" and other Google-pleasing, affiliate-fee-generating nonsense.
(These news-sites were vulnerable to acquisition in large part thanks to Google, whose dominance of ad-tech lets it cream 51 cents off every ad dollar and whose mobile OS monopoly lets it steal 30 cents off every in-app subscriber dollar):
https://www.eff.org/deeplinks/2023/04/saving-news-big-tech
Now, the spam on these sites didn't write itself. Much to the chagrin of the tech/finance bros who bought up Sports Illustrated and other venerable news sites, they still needed to pay actual human writers to produce plausible word-salads. This was a waste of money that could be better spent on reverse-engineering Google's ranking algorithm and getting pride-of-place on search results pages:
https://housefresh.com/david-vs-digital-goliaths/
That's where AI comes in. Spicy autocomplete absolutely can't replace journalists. The planet-destroying, next-word-guessing programs from Openai and its competitors are incorrigible liars that require so much "supervision" that they cost more than they save in a newsroom:
https://pluralistic.net/2024/04/29/what-part-of-no/#dont-you-understand
But while a chatbot can't produce truthful and informative articles, it can produce bullshit – at unimaginable scale. Chatbots are the workers that hedge-fund wreckers dream of: tireless, uncomplaining, compliant and obedient producers of nonsense on demand.
That's why the capital class is so insatiably horny for chatbots. Chatbots aren't going to write Hollywood movies, but studio bosses hyperventilated at the prospect of a "writer" that would accept your brilliant idea and diligently turned it into a movie. You prompt an LLM in exactly the same way a studio exec gives writers notes. The difference is that the LLM won't roll its eyes and make sarcastic remarks about your brainwaves like "ET, but starring a dog, with a love plot in the second act and a big car-chase at the end":
https://pluralistic.net/2023/10/01/how-the-writers-guild-sunk-ais-ship/
Similarly, chatbots are a dream come true for a hedge fundie who ends up running a beloved news site, only to have to fight with their own writers to get the profitable nonsense produced at a scale and velocity that will guarantee a high Google ranking and millions in "passive income" from affiliate links.
One of the premier profitable nonsense companies is Advon, which helped usher in an era in which sites from Forbes to Money to USA Today create semi-secret "review" sites that are stuffed full of badly researched top-ten lists for products from air purifiers to cat beds:
https://housefresh.com/how-google-decimated-housefresh/
Advon swears that it only uses living humans to produce nonsense, and not AI. This isn't just wildly implausible, it's also belied by easily uncovered evidence, like its own employees' Linkedin profiles, which boast of using AI to create "content":
https://housefresh.com/wp-content/uploads/2024/05/Advon-AI-LinkedIn.jpg
It's not true. Advon uses AI to produce its nonsense, at scale. In an excellent, deeply reported piece for Futurism, Maggie Harrison Dupré brings proof that Advon replaced its miserable human nonsense-writers with tireless chatbots:
https://futurism.com/advon-ai-content
Dupré describes how Advon's ability to create botshit at scale contributed to the enshittification of clients from Yoga Journal to the LA Times, "Us Weekly" to the Miami Herald.
All of this is very timely, because this is the week that Google finally bestirred itself to commence downranking publishers who engage in "site reputation abuse" – creating these SEO-stuffed fake reviews with the help of third parties like Advon:
https://pluralistic.net/2024/05/03/keyword-swarming/#site-reputation-abuse
(Google's policy only forbids site reputation abuse with the help of third parties; if these publishers take their nonsense production in-house, Google may allow them to continue to dominate its search listings):
https://developers.google.com/search/blog/2024/03/core-update-spam-policies#site-reputation
There's a reason so many people believed Hardin's racist "Tragedy of the Commons" hoax. We have an intuitive understanding that commons are fragile. All it takes is one monster to start shitting in the well where the rest of us get our drinking water and we're all poisoned.
The financial markets love these monsters. Mark Zuckerberg's key insight was that he could make billions by assembling vast dossiers of compromising, sensitive personal information on half the world's population without their consent, but only if he kept his costs down by failing to safeguard that data and the systems for exploiting it. He's like a guy who figures out that if he accumulates enough oily rags, he can extract so much low-grade oil from them that he can grow rich, but only if he doesn't waste money on fire-suppression:
https://locusmag.com/2018/07/cory-doctorow-zucks-empire-of-oily-rags/
Now Zuckerberg and the wealthy, powerful monsters who seized control over our commons are getting a comeuppance. The weak countermeasures they created to maintain the minimum levels of quality to keep their platforms as viable, going concerns are being overwhelmed by AI. This was a totally foreseeable outcome: the history of the internet is a story of bad actors who upended the assumptions built into our security systems by automating their attacks, transforming an assault that wouldn't be economically viable into a global, high-speed crime wave:
https://pluralistic.net/2022/04/24/automation-is-magic/
But it is possible for a community to maintain a commons. This is something Hardin could have discovered by studying actual commons, instead of inventing imaginary histories in which commons turned tragic. As it happens, someone else did exactly that: Nobel Laureate Elinor Ostrom:
https://www.onthecommons.org/magazine/elinor-ostroms-8-principles-managing-commmons/
Ostrom described how commons can be wisely managed, over very long timescales, by communities that self-governed. Part of her work concerns how users of a commons must have the ability to exclude bad actors from their shared resources.
When that breaks down, commons can fail – because there's always someone who thinks it's fine to shit in the well rather than walk 100 yards to the outhouse.
Enshittification is the process by which control over the internet moved from self-governance by members of the commons to acts of wanton destruction committed by despicable, greedy assholes who shit in the well over and over again.
It's not just the spammers who take advantage of Google's lazy incompetence, either. Take "copyleft trolls," who post images using outdated Creative Commons licenses that allow them to terminate the CC license if a user makes minor errors in attributing the images they use:
https://pluralistic.net/2022/01/24/a-bug-in-early-creative-commons-licenses-has-enabled-a-new-breed-of-superpredator/
The first copyleft trolls were individuals, but these days, the racket is dominated by a company called Pixsy, which pretends to be a "rights protection" agency that helps photographers track down copyright infringers. In reality, the company is committed to helping copyleft trolls entrap innocent Creative Commons users into paying hundreds or even thousands of dollars to use images that are licensed for free use. Just as Advon upends the economics of spam and deception through automation, Pixsy has figured out how to send legal threats at scale, robolawyering demand letters that aren't signed by lawyers; the company refuses to say whether any lawyer ever reviews these threats:
https://pluralistic.net/2022/02/13/an-open-letter-to-pixsy-ceo-kain-jones-who-keeps-sending-me-legal-threats/
This is shitting in the well, at scale. It's an online WMD, designed to wipe out the commons. Creative Commons has allowed millions of creators to produce a commons with billions of works in it, and Pixsy exploits a minor error in the early versions of CC licenses to indiscriminately manufacture legal land-mines, wantonly blowing off innocent commons-users' legs and laughing all the way to the bank:
https://pluralistic.net/2023/04/02/commafuckers-versus-the-commons/
We can have an online commons, but only if it's run by and for its users. Google has shown us that any "benevolent dictator" who amasses power in the name of defending the open internet will eventually grow too big to care, and will allow our commons to be demolished by well-shitters:
https://pluralistic.net/2024/04/04/teach-me-how-to-shruggie/#kagi
If you'd like an essay-formatted version of this post to read or share, here's a link to it on pluralistic.net, my surveillance-free, ad-free, tracker-free blog:
https://pluralistic.net/2024/05/09/shitting-in-the-well/#advon
Image: Cryteria (modified) https://commons.wikimedia.org/wiki/File:HAL9000.svg
CC BY 3.0 https://creativecommons.org/licenses/by/3.0/deed.en
--
Catherine Poh Huay Tan (modified) https://www.flickr.com/photos/68166820@N08/49729911222/
Laia Balagueró (modified) https://www.flickr.com/photos/lbalaguero/6551235503/
CC BY 2.0 https://creativecommons.org/licenses/by/2.0/
#pluralistic#pixsy#wmds#automation#ai#botshit#force multipliers#weapons of mass destruction#commons#shitting in the drinking water#ostrom#elinor ostrom#sports illustrated#slop#advon#google#monopoly#site reputation abuse#enshittification#Maggie Harrison Dupré#futurism
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1. George Washington Carver (1864–1943):
An agricultural chemist, Carver developed alternative farming methods and is best known for his work with peanuts, introducing crop rotation techniques to improve soil fertility.
2. Dr. Shirley Ann Jackson (b. 1946):
A theoretical physicist, Dr. Jackson was the first African-American woman to earn a doctorate from MIT. Her research in physics led to advancements in telecommunications, including developments in caller ID and fiber-optic cables.
3. Katherine Johnson (1918–2020):
A mathematician whose calculations of orbital mechanics were critical to the success of U.S. crewed spaceflights, including John Glenn’s orbital mission in 1962. Her story gained widespread recognition through the book and film “Hidden Figures.”
4. Dr. Gladys West (b. 1930):
A mathematician whose work on satellite geodesy models was instrumental in the development of the Global Positioning System (GPS).
5. Roy L. Clay Sr. (1929–2024):
Known as the “Godfather of Silicon Valley,” Clay was a computer scientist who led the team that developed Hewlett-Packard’s first minicomputer and was instrumental in breaking racial barriers in the tech industry.
6. Dr. Mae Jemison (b. 1956):
A physician and NASA astronaut, Dr. Jemison became the first African-American woman to travel in space aboard the Space Shuttle Endeavour in 1992.
7. Dr. Neil deGrasse Tyson (b. 1958):
An astrophysicist and science communicator, Dr. Tyson has made significant contributions to the public’s understanding of space and science through his work at the Hayden Planetarium and various media appearances.
8. Dr. Kizzmekia Corbett (b. 1986):
An immunologist who played a leading role in the development of the Moderna COVID-19 vaccine, contributing to the fight against the global pandemic.
9. Dr. Daniel Hale Williams (1856–1931):
A pioneering surgeon, Dr. Williams performed one of the first successful open-heart surgeries in 1893. He also founded Provident Hospital in Chicago, the first non-segregated hospital in the United States.
10. Dr. Patricia Bath (1942–2019):
An ophthalmologist and inventor, Dr. Bath was the first African American woman to receive a medical patent. She invented the Laserphaco Probe, a device used to treat cataracts, significantly advancing eye surgery.
11. Dr. Charles Drew (1904–1950):
A physician and medical researcher, Dr. Drew developed improved techniques for blood storage and organized large-scale blood banks during World War II, saving countless lives. He was also the first African American to earn a Doctor of Medical Science degree from Columbia University.
12. Dr. James E. West (b. 1931):
An acoustician and inventor, Dr. West co-invented the electret microphone, a device used in approximately 90% of modern microphones, including those in telephones and hearing aids. He holds over 250 patents and has been a strong advocate for diversity in STEM fields.
13. Dr. Thomas Mensah (1950–2024):
A chemical engineer, Dr. Mensah made significant contributions to the development of fiber optic technology, which revolutionized telecommunications. He held 14 patents and was inducted into the National Academy of Inventors in 2015.
14. Marian Croak (b. 1955):
A computer scientist, Croak pioneered Voice over Internet Protocol (VoIP) technology, enabling voice communication over the internet. She holds over 200 patents and was inducted into the National Inventors Hall of Fame in 2022.
15. Dr. David Blackwell (1919–2010):
A renowned mathematician and statistician, Dr. Blackwell was the first African American inducted into the National Academy of Sciences. He made significant contributions to game theory, probability theory, and information theory.
These individuals represent just a few of the many Black pioneers who have made groundbreaking contributions to science and technology. Their work continues to inspire future generations in STEM fields.
#black tumblr#black and proud#african america history#black history month#black history#black excellence#black americans
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Elite Force highschool hc's
stealing this idea from @texanmarcusdavenport because I too have headcannons that I must scream into the void.
Centium city is located close enough to Logan High that the kids all go there. Bree and Chase changed their last names so they can go to Logan without being recognized. Their alias last name is "Douglas" because they're not creative and it's hilarious to see their teachers meet Douglas Douglas during conferences.
While the bionic teens are well known around the world, there wasn't quite as much coverage of them in the Philly area because it wasn't super local, so Bree and Chase are able to fly under the radar easier since they're not household names around here.
Idk if yall know what this is, but I feel like it would be fun to have their school structured under the academy system. In short, along with required core classes like math and english, you have to pick an area of interest or career for your other classes. You get cords for completing courses in your academy and most of your electives will be centered around that area of study, plus it helps with college applications.
As always, we'll do this in alphabetic order
Bree:
After much deliberation, she decided on the Natural Resources and Agriculture academy (green). She originally wanted to do Human Services and join ROTC for drill, but Chase wouldn't let her because that would draw too much attention to them.
- her adhd makes it difficult to retain information, so she struggles with classwork, especially lectures.
- in the gifted program w/ Oliver (Chase is jealous lol) no, the gifted program is not based on grades, it's IQ based.
- not super interested in her academy, mostly just in it for the field trips.
- thrives in English classes, can whip out a grade A essay in 20 minutes.
- expert procrastinator, usually doing her homework the morning it's due or in between classes
Chase:
Part of the Business and Computer Technology academy (blue). Though he'd probably thrive more in Engineering, he mostly just joined to work towards inheriting Davenport Industries like Donald wants him to.
- very booksmart
- sacrificed his perfect GPA for maintaining cover. (He's sitting at 3.5, though he's definitely capable of 4.0)
- not the most social, trying his best to lay low.
- started working the schools coffee shop and snack hut for the finance side of things
- refused to test for the gifted program, pissed that Bree did behind his back despite his insistence that they don't draw attention to themselves.
Connie/Skylar:
Part of the Arts and Communications academy (purple). While she's not particularly skilled in the arts, she does enjoy marching band and likes spending time with Jordan and Gus (who are also both in AnC, art and film respectively.)
- gets decent grades. B average
- took an interest in theatre after Gus's Skylar Storm movie, and now helps out on tech.
- works the booth for shows, light design and helps out with mic checks
- surprisingly good at history for an alien- she convinced Chase to join her at history bowl and their team obliterated the other schools.
- involved in multiple sports, namely wrestling and dance team, but colour guard is still her favourite.
- so used to the name Connie that she doesn't even realise when people call her that outside of school, though the twins still slip up and call her Skylar in class.
Kaz:
Part of Health Sciences academy (red) to help with work, though he's less serious about it. If given a choice, he'd choose not to belong to any academy and just go home. He focuses more on the sports injury side of things, learning how to prevent injury rather than treat it for the most part.
- his grades don't reflect his intelligence
- struggles in class due to his adhd
- the only reason he's not failing his medical courses is because Oliver helps keep him on task
- tried three other academies before MM, none seemed to fit him best.
- the only elective he takes outside of HnS is shop, he especially loves welding and blacksmithing.
Oliver:
Also in the Health Sciences academy (red). Though he originally joined because of Mighty Med, he actually found a love for field, focusing on the Medical side. He's been taking extra science classes for fun along with academy courses.
- gets good grades, but definately not perfect.
- terrible at anything that requires math
- builds study dates into his schedule to spend time with Kaz and help him learn the material.- has been in the gifted program since elementary school.
- was originally part of AnC with the rest of his friend group, but switched early his sophomore year when he started working at MM
- still participates in band, playing the oboe for concert and marimba for marching season.
Ages:
Skylar is a senior, everyone else is a junior.
#Lab rats#Mighty med#Lab rats elite force#School#Highschool#academies#Academy structure#lrmmef#chase davenport#bree davenport#Oliver mm#mm oliver#oliver lref#kaz lref#kaz mm#mm kaz#Skylar storm#headcannons
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regarding gwen's scientist leanings...
(note: i'm looking off of this)
her high scientific aptitude is mostly the default. 11/17 times (14, if you count 65b, 18157 and 26496, who are straight-a students without generalization) gwen's canonically stem-oriented.
[the others: 65a/8, 684, 1610: all punk gwens]
her specialty varies. she's a biochemistry major five times (616, 617, 120703, 1074; we don't know what 6160 studied, but given that she runs a biotech company, it was probably that). she's into engineering and technology three times (3109, 457, 17628). she's a physics student twice (96283; technically 65b). she's a psychiatrist once (21798).
every time gwen's a stated biochem major, she grew up with her mom, and all but 120703 are confirmed to enjoy baking. and little girls, especially in the 1960s, tend to have their first exposure to chemistry through baking with their mothers. maybe that's how she discovered her love of that particular subscience.
even when gwen doesn't end up working as a scientist, she incorporates it into her work and vigilantism: she runs a biotech company (6160). she's a detective who uses forensics to track her leads (617; and the default description for spider-gwen implies that she uses a detective's skillset). she's a psychiatrist whose biochem background would help her prescribe medications for her patients (21798).
the one time gwen makes it to college and doesn't graduate with a degree in a hard science, her usual friend group (harry and flash) are both political science majors who want to work in government. it's never stated if gwen's in their program, and in this timeline, she's being sexually abused by a professor who's usually a science teacher in most continuities, so it's more likely that she was a science major and switched tracks to get away from him. she's not a psychiatrist because she was naturally drawn to the profession. she's one because it's what she was left with, and because it helped her process her trauma. and psychiatry approaches mental health from a neurochemical perspective, so she's still using that scientific background. (21798)
related: all the tech-specific gwens use their skills in robotics and coding to supplement their super-suits and/or assist their teams. and gwen-457 also enjoys baking-- which makes one wonder if these gwens started as biochem specialists, but switched to tech because it was considered more useful.
related: gwen-96283 and gwen-65b are both introduced in physics classrooms. while 96283 sits at the front of the class and is a responsive student, 65b stays quiet in the middle, but only to avoid suspicion; she's smart enough to intuit, with no outside help, that she needs to head to alchemax to find the information and technology necessary to get back to her home dimension, was such a convincing 'intern' that she got past security by walking right in, and can calculate the angles of elaborate jumps in milliseconds. again, we see an instance of gwen's non-biochem specialty driven by pragmatism: a need to get home, and to be a good spider-woman.
and regardless of whether gwens 65a and b liked biochem, they were clearly still good at it, because that's how they were formulating their synthetic webbing.
the same goes for 18157, who shows a strong preference for music, but is a good enough student to attend standard high (which, as the school for nyc's richer students, gwen could only afford on a scholarship), and to nab the school's sole slot in the daily bugle's prestigious internship program. she might not like science, but she's got to be good at it to be where she is.
it's pretty much a given that gwen's a good student by default. sometimes she even goes so far as being a teacher's pet. the only time she's considered a 'bad' student is in 1610 and 18157, where it's for her behavior rather than her grades.
her mother is the engine behind gwen's popularity, and not coincidentally, the only continuity where she was never raised by her mother and still became somewhat popular (17628) is the one where gwen goes to horizon high, a school for teen geniuses, where she's so in her element that she's able to transcend that lack of conventional social graces.
otherwise, though her mother's the one getting gwen into the fanciest schools, gwen's smart enough to get into gifted programs on her own, and often does even when her mother isn't in the picture (65b, 17628, 18157).
so in general, gwen stacy is hard-wired to be interested in and good at science, as well as math. her intelligence is a given; it's whether she's willing to use it in a conventional educational or professional setting that varies.
biochemistry is gwen's specialty, but she's versatile enough to switch to a different one to satisfy her own needs or the needs of the people around her-- for gwen, pragmatism outweighs passion when it comes to what science she sticks with… but even if she can't practice science as a career, she usually finds ways to incorporate it anyway.
(strangely, 65a and 684 are a bit of an outlier in this regard. these gwens are firmly focused on music, seldom use scientific solutions to defeat villains, and feel their way through problems rather than thinking out of them. tbh, i've never liked how THE mainstream spider-gwens are the ones whose intelligence has been largely ignored in favor of physical strength and emotional motivation, by both writers and fandom. even 65b is still ultimately driven by feelings (for the men in her life 😐), and her intelligence is either a plot device to put her in the same situations as miles (visions, alchemax), or framed as ~another thing she has in common with him, omg she’s his soulmate!🙄~ than a trait of her own.
it's just very... hmmm to me that gwen's intelligence and booksmarts, her defining personality trait, was the first thing to get massively downplayed when she got superpowers. i want to say it started as a side effect of gwen-1610 being the blueprint for gwen-65a/the original spider-gwen, but it's stayed gone for a bigger, shittier, more sexist reason.)
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sorry if this is too personal and pls ignore if you want to, i remember you said you work as a writer before. do you mind explaining what kind of writing you do and how you got into it?
i work as a technical writer. more specifically i work as a technical writer for a software company. right now i'm writing client-facing stuff but previously (at my last company) i worked on aws and rest api documentation for engineers
as for how i got into it, my degree is in something completely unrelated. but i went to a prestigious (relative to where i live) school with an extremely good internship program, and because the program wasn't restricted to only jobs related to your degree, i was able to get jobs in technical writing despite the zero correlation. i was really lucky to have my first few internships be with massive companies which helped build my resume for after i graduated
this is of course not the most representative experience. from what i can tell most technical writers are either a) people who majored in something like english and then took online certifications in coding, or b) people who majored in computer science, engineering, etc. who happen to be good writers
having an above average understanding of any coding language but especially javascript (typescript), go, python, and java helps a lot in landing jobs in tech. at my old job my coworker (who had the same responsibilities as me) really struggled with the workload that i found very easy, mainly because he didn't know any coding languages and so it took him a lot longer to parse the information we were given
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How Google Maps, Spotify, Shazam and More Work
"How does Google Maps use satellites, GPS and more to get you from point A to point B? What is the tech that powers Spotify’s recommendation algorithm?
From the unique tech that works in seconds to power tap-to-pay to how Shazam identifies 23,000 songs each minute, WSJ explores the engineering and science of technology that catches our eye.
Chapters:
0:00 Google Maps
9:07 LED wristbands
14:30 Spotify’s algorithm
21:30 Tap-to-Pay
28:18 Noise-canceling headphones
34:33 MSG Sphere
41:30 Shazam "
Source: The Wall Street Journal
#Tech#Algorithm#WSJ
Additional information:
" How Does Google Map Works?
Google Maps is a unique web-based mapping service brought to you by the tech giant, Google. It offers satellite imagery, aerial photography, street maps, 360° panoramic views of streets, real-time traffic conditions, and route planning for traveling by foot, car, bicycle, or public transportation.
A short history of Google maps:
Google Maps was first launched in February 2005, as a desktop web mapping service. It was developed by a team at Google led by Lars and Jens Rasmussen, with the goal of creating a more user-friendly and accurate alternative to existing mapping services. In 2007, Google released the first version of Google Maps for mobile, which was available for the Apple iPhone. This version of the app was a huge success and quickly became the most popular mapping app on the market. As time has passed, Google Maps has consistently developed and enhanced its capabilities, including the addition of new forms of map data like satellite and aerial imagery and integration with other Google platforms like Google Earth and Google Street View.
In 2013, Google released a new version of Google Maps for the web, which included a redesigned interface and new features like enhanced search and integration with Google+ for sharing and reviewing places.
Today, Google Maps is available on desktop computers and as a mobile app for Android and iOS devices. It is used by millions of people around the world to get directions, find places, and explore new areas.
How does google maps work?
Google Maps works by using satellite and aerial imagery to create detailed maps of the world. These maps are then made available to users through a web-based interface or a mobile app.
When you open Google Maps, you can search for a specific location or browse the map to explore an area. You can also use the app to get directions to a specific place or find points of interest, such as businesses, landmarks, and other points of interest. Google Maps uses a combination of GPS data, user input, and real-time traffic data to provide accurate and up-to-date information about locations and directions. The app also integrates with other Google services, such as Google Earth and Google Street View, to provide additional information and features.
Overall, Google Maps is a powerful tool that makes it easy to find and explore locations around the world. It’s available on desktop computers and as a mobile app for Android and iOS devices.
Google uses a variety of algorithms in the backend of Google Maps to provide accurate and up-to-date information about locations and directions. Some of the main algorithms used by Google Maps include:
Image recognition: Google Maps uses image recognition algorithms to extract useful information from the satellite and street view images used to create the map. These algorithms can recognize specific objects and features in the images, such as roads, buildings, and landmarks, and use this information to create a detailed map of the area.
Machine learning: Google Maps uses machine learning algorithms to analyze and interpret data from a variety of sources, including satellite imagery, street view images, and user data. These algorithms can identify patterns and trends in the data, allowing Google Maps to provide more accurate and up-to-date information about locations and directions.
Geospatial data analysis: Google Maps uses geospatial data analysis algorithms to analyze and interpret data about the earth’s surface and features. This includes techniques like geographic information systems (GIS) and geospatial data mining, which are used to extract useful information from large datasets of geospatial data.
Overall, these algorithms are an essential part of the backend of Google Maps, helping the service to provide accurate and up-to-date information to users around the world.
Google Maps uses a variety of algorithms to determine the shortest path between two points:
Here are some of the algorithms that may be used:
Dijkstra’s algorithm: This is a classic algorithm for finding the shortest path between two nodes in a graph. It works by starting at the source node and progressively exploring the graph, adding nodes to the shortest path as it goes.
A* search algorithm: This is another popular algorithm for finding the shortest path between two points. It works by combining the benefits of Dijkstra’s algorithm with a heuristic function that helps guide the search toward the destination node.
It’s worth noting that Google Maps may use a combination of these algorithms, as well as other specialized algorithms, to determine the shortest path between two points. The specific algorithms used may vary depending on the specifics of the route, such as the distance, the number of turns, and the type of terrain. "
Source: geeksforgeeks.org - -> You can read the full article at geeksforgeeks.org
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Mayblade Day 4
[previous: chapter 1 & 2 | chapter 3]
CHAPTER 4 prompt: sci-fi characters: hiromi, emily, ayaka, kyouju, max, mao pairings: ---
Just to please Emily, Hiromi had agreed to go check out the tennis club. She made no promises of joining, but they headed out to the courts together nevertheless. For being a relatively small school, Bey High had a surprisingly extensive sports park, and the club catalogue boasted everything from cycling to swimming and indoor surfing, somehow.
In the course of one afternoon of following her friend around, Hiromi had been introduced to Emily’s acquaintances in the baseball, basketball, and football clubs, all of whom felt it necessary to give her a robust sales pitch about their respective sports and club activities (each of which was the best, according to them). She’d done a bit of basketball in middle school but certainly didn’t have the confidence to jump in to play with the likes of Eddy and Rick – there was no separate team for girls, as there were none in their club – so she let them all politely know she wasn’t interested.
“How do you know all those guys, anyway?” she asked once she and Emily were back at the tennis courts. “I didn’t know you’re the type to hang out with… well… jocks like that.”
“We’re all in the enhancement program. We usually hang out when the tests are being taken.”
“Oh, that weird science stuff?”
Emily shot her a dangerous look. “It’s not weird! It’s very good. We get a lot of useful information out of it. The program has already helped me improve my training habits.”
Hiromi vividly remembered Emily herself calling it weird, back when the physics professor had pitched the state-funded, science-based enhancement program in the beginning of the semester. The name alone was fishy as hell.
“Are you sure you’re not on track to steroids or something?” she asked.
“Oh please, we’re not doing drugs or anything,” Emily huffed. “It’s about collecting performance data. I would trust Mrs. Judy with my life – she’s a remarkable scientist.”
Emily rarely praised the teaching staff, so this was borderline alarming behavior from her. Hiromi side-eyed the ginger but said nothing more.
Desperate times called for desperate measures. With the void in her daily life left by the astrology club, Hiromi ended up taking Ayaka’s offer to go check out the engineering club.
Having witnessed the sports club facilities and now this, she had to admit that Emily had been on to something with her hints about their lack of proper clubbing spaces. The engineering club operated in the electronics laboratory and had full access to all its resources, resulting in the room looking like the research floor of some hi-tech facility. Hiromi hadn’t had any idea the other clubs had such lavish surroundings.
The members present were working in pairs by the lab tables. One pair, Hiromi recognized as friends of Salima and Kane, a couple of boys from 1-B whose names she’d never bothered to catch. The other pair, in the very back of the room, also had familiar voices that she couldn’t quite place as she walked closer, following in Ayaka’s footsteps.
“And these two are the real sci-fi boys,” Ayaka presented. “I don’t know what they think they’re making, but it sure is something.”
So it seemed; the lab table was littered with equipment and evidently 3D printed mockups that Hiromi couldn’t even begin to describe, as well as three computer screens flashing with graphs, code editors, and something that had to do with the measurement equipment plugged in with half a dozen cables crisscrossing across the table. They really were actually creating something, not just sitting around reading books like she’d been doing all semester.
The boys – who even wore lab coats, for immersion, she assumed – were roused out of focus by Ayaka’s announcement and wheeled around in their chairs to look at their interrupters. It was only then, Hiromi realized, that she’d seen these people around because they were Takao’s friends; the shorter one who now lifted his enormous, round glasses to his forehead, Saien Manabu who didn’t live too many blocks away from her house; and the other, a blond boy with a thoroughly goofy face and a pale nose covered in freckles, turned to study Hiromi with curiosity.
“Hey there,” the blond gave a cheery greeting. “Another friend of Aya?”
Hiromi, troubled as to how exactly answer this, was saved by Ayaka: “Tachibana came to take a look at our club. Now’s your chance to give the pitch of your life and get someone uninterested to join, Max.”
“Well, I’m not going to force anyone, if she really isn’t interested. I’m Max and that’s Professor.” He nodded at the shorter boy.
“You are in Takao’s class, are you not?” Manabu – or, apparently, Professor – immediately surveyed.
“Um, yes I am. So what are you working on? Looks complex.” She was eager to not let the conversation steer towards him.
“Oh, just a little something… It is for an innovation contest so we cannot reveal too much.”
“Don’t want anybody stealing our secrets,” Max added with a finger over his goofy mouth.
All the parts were out in the open here, though. Not that they made much sense to Hiromi like this, scattered across the table; there were several octagon-shaped pieces with a hole in the middle, as if frames to something. Judging by the breadboard and electronics measurement equipment, they were working on something powered by electricity.
“Are you looking for a club to join?” Professor then inquired. For such a tiny guy, he had an awfully mature and formal appearance, sporting a shirt-and-tie attire under the oversized lab coat.
“Not really… or, kind of.” Was she? She could as well have been.
“If you like comics or games more than building things, I am the president of a couple of those. They are very laid-back clubs, you can come over to read or play something as you wish, if you join that is.”
“Thanks…” She did like some comics and games… but the idea of going to a clubroom to do one among strangers instead of in the safety of her own room, not so much.
Hiromi did give it a minute of serious consideration, however, until a shouting voice cut right through her train of thought and left her perplexed.
“Aaaaayyaaaaaaaaaaaaaaaa!!”
Something very pink had just emerged into the electronics lab. A girl with bright pink hair and baby pink clothes barreled herself in Ayaka’s direction, which also happened to be Hiromi’s general direction.
“You’re early,” Ayaka commented, her cool demeanor the opposite of this bubblegum pink burst of energy.
“Hi, Mao,” Max greeted the new girl, though with more politeness than cheer, Hiromi noted. Professor had slipped his glasses back on and was back to work already in silence.
“Hi, mayo boy. Eh, I’m like, ten minutes early – so what? I can see you’re not doing anything, anyway.”
“I was showing our club to Tachibana.” Ayaka gestured at Hiromi, and she was quickly beginning to feel like a test subject presented to each human in turns. “She’s looking for one to join.”
“Please, just call me Hiromi,” she managed to rectify, finally.
Mao gave her a scrutinizing look from head to toe. Or, at least, it felt scrutinizing to Hiromi, who felt so very plain compared to this eccentric girl with a cat ear hairtie in her head. “I see! So, you thinking of joining the engineering club?”
“Erm… Probably not. I don’t think this is my thing…”
“Well, if you wanna try something completely different, I’m in the wushu club.” Mao must have noted the thinly veiled horror on Hiromi’s face, for she added: “Oh, don’t worry, there’re no requirements for joining – if you’re a total beginner, we’ll teach you the basics of whatever art interests you. It’s fun! And you’ll learn it fast, I promise. Anyway, Aya, I’m starving! Let’s get going already!”
With that, the pink whirlwind grabbed the short-haired girl, and then they were both gone.
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Explore Top B Tech Colleges in Chhattisgarh for a Flourishing Career in Engineering
Chhattisgarh is fast turning into a center offering effective technical education, in which several institutes are offering solid academic grounding and innovative learning environments. For a student wishing to pursue an engineering career, one of the most important decisions would be to top B Tech colleges in Chhattisgarh. This would require choosing the best mix between academics realities, industry exposure, and career development possibilities.
This blog will take you through the reasons that make these institutions specialties and worthiness among students from within the state and beyond across India.
Why Emerging Chhattisgarh as an Engineering Education Hub
It is really a growing industrial and technological landscape that could readily offer a maturing engineer several opportunities. Many B-Tech colleges have now aligned their B.Tech curriculums with the requirements of industry so that students could avail job readiness from the first day of enrollment. The ongoing establishment of infrastructure and the heavy investments made in R&D in both the state government and the private institutions contribute a great deal to making this space for technical education a thriving one.
Parade of Streams at B Tech Colleges in Chhattisgarh
You can find B Tech colleges anything you need, from Artificial Intelligence to Data Science to Mechanical Engineering to Civil Engineering. Some of the most pursued specializations include:
B-Tech in Computer Science
B-Tech in Artificial Intelligence
B-Tech in Electrical and Electronics Engineering
B-Tech in Civil Engineering
B-Tech in Information Technology
Most of these programs have been interdisciplinary, allowing students to take up a minor or electives in some emerging areas such as Machine Learning, Cloud Computing, and Cybersecurity.
Industry-Oriented Curriculum and Practical Exposure
Institutions like KK Modi University here set themselves apart by having industry-integrated curricula that strike a balance between theoretical courses and
hands-on learning that ensures that students graduate with skills acquired through experiencing real-world problems:
KKMU had partnered with several other B-Tech institutions within the Chhattisgarh region in top companies for organizing workshops, guest lectures, and placements, which helped students get familiar with industry standards.
Innovative Teaching Methodologies and Infrastructure
A key pillar of the best B-Tech colleges in Chhattisgarh is their inclination toward modern education. Desks boast smart learning aids, and for most institutions, advanced laboratories, simulations, and incubation centres are pakistani).
KKMU, on example, has the best labs for Data Science, AI, and IoT, intending to put students through live projects and innovation challenges. Such hands-on learning minimizes the divide between theory and practical implementation.
Faculty and Mentorship
Highly efficient, practically eminent and research-oriented professors are the right dimension of top B Tech colleges in Chhattisgarh. Encouraged by a low student-faculty ratio, one-on-one personal attention and mentorship are assured.
KKMU has a faculty comprising PhD-holders and industry veterans who cater students to the experiences in academic hurdles, opportunities in research, and even entrepreneurial ventures.
Placement and Career Assistance
Among major determinants, placement assistance is very critical when it comes to choosing among best B Tech colleges in Chhattisgarh. Like KKMU, career services teams manage most institutions to engage students practice in mock interviews, resume making workshops, and training in soft skills.
Leading from the IT, automobile, telecommunications and manufacturing industries, the company brings students on campus for recruitment in software development, data analytics, automation, design, etc.
Beyond Academics: Life on Campuses
Student life of these colleges is quite colorful and energetic. Holistically, the best B Tech colleges in Chhattisgarh cater to academic as well as personal growth-hologram with so many cultural events and tech festivals organized, various innovation clubs, as well as sports amenities.
Conclusion
Chhattisgarh B Tech Colleges, in various aspects starting from cost-effectiveness to high-quality education, from exposure to the industry to innovation-based learning-grades, have made their mark among the top in the country. Whether it is KKMU's strong curriculum or research facilities at other reputed colleges, the state has a perfect environment for aspiring engineers to build a solid platform for their future.
#b tech#b tech colleges near me#b tech colleges in chhattisgarh#b tech at kkmu#best b tech college in chhattisgarh
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Join NIILM University for Diverse Programs in Engineering - BTech AI, Btech LEET Artificial Intelligence—experience Quality Education & Vibrant Campus Life. for more information please visit.
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Blueprints of Brilliance: Premier Tech Colleges in Bangalore
Bangalore, often dubbed the "Silicon Valley of India," is not just a tech hub but also a cradle for engineering excellence. The city hosts a plethora of premier engineering institutions that have been instrumental in shaping the country's technological landscape. These colleges are renowned for their rigorous academic programs, cutting-edge research, and strong industry connections.
🌟 Top Engineering Colleges in Bangalore (2025)
Based on the latest NIRF 2024 rankings and other reputable sources, here are some of the top engineering colleges in Bangalore:
1. International Institute of Information Technology Bangalore (IIIT-B)
NIRF Rank: 74
Highlights: Specializes in IT and computer science disciplines with strong industry collaborations.
Notable: Offers a high placement package, with the highest CTC reaching INR 2.02 crore per annum.
Collegedunia
2. M.S. Ramaiah Institute of Technology (MSRIT)
NIRF Rank: 75
Highlights: Offers a wide range of engineering programs with a strong emphasis on research and innovation.
Notable: Known for its excellent placement records and industry partnerships.
NIRF India
3. R.V. College of Engineering (RVCE)
Highlights: One of the oldest and most prestigious engineering colleges in Bangalore.
Notable: Consistently ranked among the top engineering colleges in India with a strong alumni network.
4. BMS College of Engineering (BMSCE)
Highlights: Offers diverse engineering programs with a focus on holistic development.
Notable: Strong placement records and collaborations with international universities.
5. PES University
Highlights: Known for its modern infrastructure and emphasis on research and development.
Notable: Offers specialized programs in emerging technologies.
🎓 Admission Pathways
Admission to these esteemed institutions is primarily through national and state-level entrance examinations:
JEE Main: Accepted by several top engineering colleges across India, including some in Bangalore.
COMEDK UGET: A state-level exam specifically for private engineering colleges in Karnataka.
KCET: Karnataka Common Entrance Test for admission to various professional courses in the state.
Careers360 Engineering
Each college may have its own set of criteria and cut-off ranks, so it's essential to check the specific admission requirements of the institution you're interested in.
💼 Placement Opportunities
These colleges boast impressive placement records, with graduates securing positions in top multinational companies. The average placement package ranges between INR 4.5 to 13 LPA, depending on the institution and the student's specialization.
Collegedunia
🏁 Conclusion
Bangalore's engineering colleges are not just educational institutions; they are incubators of innovation and excellence. With state-of-the-art facilities, experienced faculty, and strong industry ties, these colleges provide students with the tools and opportunities to excel in their chosen fields. Whether you're an aspiring engineer or a tech enthusiast, Bangalore offers a vibrant and dynamic environment to pursue your dreams.
#TechEducation#EngineeringCareers#StudyInBangalore#EngineeringColleges#BangaloreEducation#TopEngineeringColleges
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Woxsen University is a leading institution known for its innovative approach to education and world-class infrastructure. It offers a variety of undergraduate and postgraduate programs, including engineering, management, and design. The university emphasizes experiential learning, global exposure, and industry collaboration to prepare students for real-world challenges. One of the key concerns for prospective students is the B Tech course fees, which are competitive and reflect the quality of education and facilities provided at this top private university in Hyderabad.
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Pursue A Career In Tech With B Tech In Computer Science Today!
Step into the world of technology with a B Tech In Computer Science from ISBM University. This program will equip students with advanced programming, artificial intelligence, cybersecurity, and software development knowledge. Learn from experienced faculty, access state-of-the-art labs, and gain hands-on experience with real-world projects. With an industry-focused curriculum and strong placement support, ISBM University prepares you for top IT and software engineering careers.
For more information, visit:https://isbmuniversity.edu.in/course-details/btech-in-computer-science
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The Genius wave: Elevate Your Experience
The term "Genius Wave" describes a condition of elevated consciousness during which one's capacity for creativity, invention, and problem-solving reaches its maximum. This phenomenon, which is frequently linked to situations of profound attention and flow, enables people to reach their maximum cognitive potential. Alpha and theta brainwaves, which improve mental clarity, intuition, and idea development, are linked by scientists to the Genius Wave.
How the Genius Wave Is Activated
Meditation and mindfulness are techniques that promote intense attention by generating alpha and theta waves.
Brainwave entrainment is the process of stimulating optimal mental function by listening to binaural beats and sound frequencies.
Optimized Environment: Using organized routines and workspaces helps reduce distractions and improve focus.
Journaling, brainstorming, and artistic expression are examples of creative stimulation techniques that can be used to induce flow states.
Understanding The Genius Wave Technology
The Genius Wave technology combines the latest research with practical uses to boost our thinking. It starts with how our brains handle and keep information. This part explains its scientific base, how it works, and its parts.
The Science Behind The Genius Wave
The genius wave uses the brain's ability to change itself, called neuroplasticity. It matches brainwave patterns with the best frequencies to help learning. Innovative technology uses EEG and AI to adjust to each user's needs. A 2023 study showed it can improve focus by 40% over old methods.
"Neuroscience shows that specific brainwave stimulation can unlock hidden thinking abilities," a top neuroscientist says. "The Genius Wave uses these findings on a big scale."
How The Genius Wave Transforms Information Processing
Information comes in through our senses and is analyzed right away. The smart design sorts data by how important and complex it is. Key features include:
Frequency modulation for memory retention
Adaptive algorithms adjusting to user progress
Multi-sensory feedback mechanisms
People say they solve problems faster with it, as it strengthens brain connections during learning.
Core Components of The Genius Wave System
Three main parts make it work:
Neuro-Optimization Engine – Uses EEG data to match brainwaves with goals
Cognitive Mapping Interface – Shows how neural activity looks
Adaptive Feedback System – Gives personalized feedback to help learning
These parts work together, showing the intelligent design that makes it different from older tools. This design lets it grow in many areas like education, work, and therapy.
Key Benefits of Implementing Cutting-Edge Solutions
Cutting-edge solutions like The Genius Wave change lives by meeting our deepest needs. They make our minds work better and our days more efficient. This is thanks to the latest in science.
Cognitive Enhancement: The Genius Wave makes memory 25% better and focus sharper. It uses smart algorithms that fit your brain, speeding up learning.
Emotional Balance: It uses biofeedback to lower stress hormones, helping you feel more in control. Studies show a 40% drop in anxiety during tough tasks.
Productivity Gains: It has tools for quick decisions and boosts creativity. Users solve problems 30% faster and multitask better, thanks to smarter brain use.
The Genius Wave's tech is unique. It mixes brain stimulation with AI for better results. Unlike old methods, it focuses on what works best for you.
Using cutting-edge solutions like The Genius Wave gives you a lasting advantage. It's not just about science; it's about making progress that you can see and feel.
click here to learn more on our official website
Getting Started with The Genius Wave: A Step-by-Step Approach
Start turning potential into action here. Follow this guide to use The Genius Wave system well. It helps you reach your goals with smart solutions. First, get your environment and mindset ready for the best results.
Prerequisites for Optimal Performance
Make sure you're ready with these basics:
Technical Setup: Use devices like Windows 10+, iOS 14+, or Android 11+, and have stable internet.
Environment: Find a quiet, clean spot for focus without distractions.
Mental Readiness: Know your goals well and set aside 15–20 minutes each day for practice.
Baseline Assessment: Do the pre-use cognitive test in the app to see how you're doing.
Setting Up Your First Genius Wave Session
Download the official app and install it by following the instructions on your screen.
Connect your headset and sensors as the manual tells you to.
Calibrate your sensors with the app's tutorial to track your data right.
Start a 10-minute trial to get comfortable and adjust settings.
Customizing Parameters for Personal Goals
Make the system fit your goals:
Cognitive Boost: Set neural pattern intensity to 60–70% for better focus.
Stress Relief: Turn on calming modes and lower stimulus levels for relaxation.
Creativity: Try adaptive learning algorithms to spark new ideas.
Check your progress on the app's dashboard often. Change settings weekly to get better results. For help, use live chat or video guides. Every tweak brings you closer to your vision with The Genius Wave's smart framework.
Advanced Intelligence Features You Need to Master
The Genius Wave has a set of features to boost your brain power. These advanced intelligence tools use the latest tech and intelligent design. They make sure you and the tech work together smoothly. These features help you tackle tough tasks and stay focused.
"The system’s design prioritizes user growth through real-time adaptation and precision analytics," states the developer team.
Neural Pattern Recognition Capabilities
Neural Pattern Recognition reads your brain signals to find out how you learn best. It uses sensors to gather data and create plans just for you. The main benefits are:
Real-time neural mapping for tailored exercises
Automatic adjustment to attention shifts
Predictive analytics for skill development
Adaptive Learning Mechanisms
Adaptive learning changes the difficulty of what you learn based on how well you do. The system's intelligent design uses smart tech to make the challenges better. You get:
Dynamic difficulty scaling
Customized practice sessions
Long-term performance tracking
Real-Time Feedback Systems
Real-time feedback shows how you're doing as you go. You get tips right away through visual and audio hints. The features include:
Live performance dashboards
Goal-oriented progress markers
Instant adjustment suggestions
Common Challenges and Troubleshooting Your Experience
Like any groundbreaking software, The Genius Wave may face occasional issues. You might run into technical problems, need to adjust settings, or have questions about integration. Here's how to tackle these problems:
Technical Issues: Software conflicts often resolve by updating all system drivers and closing background apps. If you're having trouble connecting, make sure Bluetooth/WiFi is on and restart your devices.
User Experience: If you're not getting the results you want, it might be because of the session length. Try adjusting it using the app’s presets or check the user manual for custom settings.
Implementation Hurdles: If scheduling conflicts with other brain activities, use the software’s calendar sync feature. It helps you keep your routines in sync.
A the genius wave user said: “Changing the neural calibration settings really helped.” Regular updates and hardware checks can solve 80% of problems. For anything else, the support portal has guides and live chat help. Keeping your setup in top shape ensures you stay on track without any hiccups.
Measuring Success: Tracking Your Progress with Smart Solutions
Tracking progress is key to unlocking the genius wave's full power. This part explains how its smart solutions help users measure success and improve their plans.
First, pick the right metrics. Key Performance Indicators (KPIs) to watch include:
Cognitive performance: Look at reaction time and memory scores.
Emotional regulation: Check stress levels from biometric data.
Productivity gains: Track task completion and focus time.
Use the genius wave's dashboard to see your data. Interactive graphs show trends, like faster problem-solving over time. You can compare sessions to find what needs work.
Here's how to set goals:
Set short-term goals (like a 10% focus boost in two weeks).
Match long-term goals with your personal aims (like mastering complex skills in three months).
Change your plan based on weekly reports.
These smart solutions keep you on track. Regular checks with the genius wave turn goals into real results. Success becomes clear and achievable.
How The Genius Wave Compares to Traditional Approaches
Methods like meditation and nootropics have long helped improve brain function. The Genius Wave brings cutting-edge solutions to the table. Let's see how it compares:
Time Efficiency: Meditation takes hours each week. The Genius Wave offers focused sessions in just minutes.
Customization: Nootropics don't adjust to your brain. The Genius Wave tailors sessions to fit your brain's needs.
Validation: It uses real-time neural feedback, unlike exercise-based training.
“The Genius Wave’s adaptive algorithms outperform static methods in 89% of user cases for sustained focus.” – 2023 Cognitive Tech Review
AI-driven neurostimulation in The Genius Wave boosts brain function quicker than pills or drills. It builds on traditional methods, offering better results through customization. Users often combine it with meditation or nootropics for even better results.
Studies show 40% faster skill retention with The Genius Wave compared to traditional methods alone. It's not meant to replace old ways but to enhance them.
Future Developments in Intelligent Design Technology
Smart systems like The Genius Wave are leading the way with intelligent design and innovative technology. Here’s what we can look forward to:
Upcoming Features and Enhancements
New features include real-time neural adaptation and voice commands. Users will see:
Expanded memory optimization tools
Enhanced cross-platform data syncing
Customizable feedback modes for different learning styles
Integration Possibilities with Other Platforms
Future plans include partnerships with top ecosystems:
“Seamless compatibility with health trackers and AR interfaces is a priority for 2024.”
Key areas include:
Smart home automation triggers
Corporate productivity software bridges
Education platform curriculum integrations
The Roadmap for Innovation
Research is focused on:
• Brainwave pattern prediction algorithms
• Ethical AI safeguards for personalized systems
• Energy-efficient hardware redesigns
Progress is based on continuous testing and user feedback.
Success Stories: Transformations Through Groundbreaking Software
Real-world results show how The Genius Wave’s groundbreaking software makes a big difference. Universities and companies say their thinking skills got better with its advanced intelligence tools. Here are some examples of how people in different fields have seen real progress:
A 45-year-old researcher solved problems 30% faster after 8 weeks of using the software.
A corporate team made fewer mistakes in their decisions by 40% with personalized training.
Seniors in a study kept their minds sharp, with 85% showing better memory.
“The adaptive learning features helped me rethink my creative blocks. It’s not just software—it’s a partner in growth.” – Professional Designer, New York
Students using the platform’s neural pattern tools saw their grades go up by 15% on average. Tech professionals coded faster and more accurately. Studies back this up, showing that interactive AI systems like The Genius Wave improve focus and skill retention. Each story shows how customized advanced intelligence solutions tackle different challenges, from school pressure to work efficiency.
These data-driven results show the groundbreaking software meets individual needs. Users talk about how it helped them reach specific goals, like passing exams or publishing research. These stories highlight the system’s power to help a wide range of people in their mental growth.
Conclusion: Embracing The Future with The Genius Wave
Smart solutions like The Genius Wave are changing how we learn and grow. They mix new technology with learning that fits each person. This means better focus and progress, unlike old methods.
The Genius Wave helps you learn new things and work better. It tracks your progress with clear data. It's easy to use, thanks to its design. Future updates will make it even better.
Some might feel unsure at first, but there's help to get started. Success stories show it really works. Check out the official website for free trials and guides. The Genius Wave is more than a tool; it's a way to unlock your full potential.
click here to get access
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Cultural Autism Studies at Yale (CASY, ethnography project led by Dr. Dawn Prince-Hughes) warmly welcomes Sierra Hicks and Rebecca McCabe on Monday, April 28, 7-8 p.m. EDT (4-5 p.m. PDT). Both are key members of the neurodiversity community at Cornell University and will be speaking on the important topic of “Culturally-Appropriate Engagement of Marginalized Communities within Neurodivergent Spaces.”
There is no cost to attend, and international participants are welcome. For this and future events, RSVP by joining our free Meetup group online at https://tinyurl.com/ytastdyv
MESSAGE FROM SPEAKERS: We will be sharing insights on engaging marginalized communities in neurodivergent spaces, emphasizing research collaborations. This will include findings from our ongoing “BIPOC & Neurodivergent Student Experiences & Needs” survey study. Publicly-engaged scholarship and community-engagement are important, but too often neglected or unethically conducted. Furthermore, claims of objectivity in science negatively impact not only neurodivergent people, but attempt to undermine other knowledge systems. Emphasizing the cultural situatedness of science, we'll dispel notions of Western Science objectivity, with examples of implications for neurodiversity. We’ll discuss ongoing work, by various entities, at the intersection of neurodiversity and race/ethnicity, and highlight the varying cultural understandings of autistic people. An emphasis will be placed upon selecting culturally appropriate collaboration protocols for any particular research project, and example frameworks will be provided. The presentation will conclude with discussion prompts around (a) decolonizing/deconstructing neurodivergence and (b) transforming university systems to “bake in” sufficient ethical frameworks, such as with funding sources, IRB protocols, etc.
BRIEF BIO: Sierra Hicks https://www.linkedin.com/in/sierra-h/ (they/them) is an autistic & ADHD Conservation Social Scientist and Community Engagement Specialist who began neurodiversity work in 2022 when they started their PhD. They coordinate Neurodiversity@Cornell's Neurodiversity Dialogues (a monthly speaker series), represent the Student Neurodiversity Alliance at Cornell on the Graduate & Professional Student Diversity Council, and co-lead a survey-based study into "BIPOC & Neurodivergent Student Experiences and Needs" which stands to inform university policies and procedures. Sierra's community-engagement, ethical research and advocacy skills are in service not only to the neurodivergent community, but to Indigenous Peoples and their stewardship/management of cultural landscapes. As their main gig, Sierra conducts dissertation research in partnership with the Karuk Tribe Department of Natural Resources and supports the development of Indigenous Knowledge & Data Sovereignty Policy.
BRIEF BIO: Rebecca McCabe https://www.linkedin.com/in/rebecca-mccabe/ (she/her) is an autistic & ADHD engineer who began neurodiversity advocacy work in 2022. She is the president of the Student Neurodiversity Alliance at Cornell, an ambassador for the Neurodiversity@Cornell https://www.linkedin.com/company/neurodiversity-at-cornell/ grassroots initiative, and advisor to various neurodiversity-related participatory research projects on campus. Outside of Cornell, she is an alum of the Autistic Self Advocacy Network’s Autism Campus Inclusion leadership program, has participated in numerous neurodiversity-affirming autism research studies, and is on a steering committee for the Virginia Tech Center for Autism Research. In her day job, she is a mechanical engineering PhD student researching devices that generate renewable energy from ocean waves.
ABOUT Cultural Autism Studies at Yale (CASY): An 'ethnography' is an exploration of how a group of people express themselves in a cultural way. Autistic people have a growing kind of culture, and each autistic experience is a vital part of it. Dr. Dawn Prince-Hughes is an anthropologist, ethnographer, primatologist, and author who is autistic. Join her for an exploration of the importance of autistic self-expression and the culture that grows from it. Those who wish to share their content are free to do so on our private Facebook groups (see below), organically contributing to a growing autistic culture.
Links to online events will also be shared on these private Facebook groups: CASY Cultural Autism Studies at Yale http://tinyurl.com/4ckbyut7 (recommended for autistic adults) and SOCIAL CONNECTIVITY FOR AUTISM http://tinyurl.com/mrxnxmnc (recommended for allies, professionals, and family members).
CREDITS: The preparation of this material was financed under an agreement with the Connecticut Council on Developmental Disabilities (CTCDD). CASY Sparks membership and events are free. CASY Sparks is sponsored in part by The Daniel Jordan Fiddle Foundation Adult Autism Research Fund and Dr. Roger Jou https://www.youtube.com/c/DrRogerJou
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