#Infrastructure Support Engineer Jobs | Explore Tumblr posts and blogs

help-alaa-family · 7 months ago

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The WAR On Gaza,Palestine Is A WAR Against Humanity, The Whole World & Nature.

A Dangerous WAR against children, the elderly, women, pets, trees, nature, infrastructure, air, water sources & food.

We are facing a real famine in Gaza Palestine. We have been forced to flee under the bombardment of planes & tanks from the north of Gaza to the south. The commercial crossings have been closed & aid has been cut off. There is no meat, chicken, milk or eggs in the markets. We register for international aid, but unfortunately nothing is given to us. So we found the best way is to donate to us through the GoFundMe website. Our account is verified & your help has reached us, but we still need urgently to reach the campaign goal to complete the amount required to travel from Gaza and start a new future and buy a small house to live in.

Even basic food supplies are running low & the cost of a 25 kg bag of flour has gone from £10 to £650. We have lost our jobs & our salaries have been cut. So please donate a little so we can survive & travel from Gaza.

Displaced From Our Home 7 Times & Now Living In A Tent That Lacks Of Life From More Than 400 Days. We Lost Everything.

⛔Pictures & Words Fail To Describe Our Situation🥹

Our Donation Link 🔗

Please 🔁Share/Reblog Our Story & If You Can Donate🙏🏻 Even A Little, It Means A Lot To Us 💌

gofund.me/cb8c05a3

Thank You ❤️🌹

My Account Was Verified & Listed #99

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batboyblog · 9 months ago

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Things the Biden-Harris Administration Did This Week #34

Sep 13-20 2024.

President Biden announced $1.3 billion in new funding for Historically Black Colleges and Universities. The Biden-Harris Administration has already invested a record breaking $17 billion in HBCUs since the President took office. HBCUs represent an important engine for making black professionals. 40% of all Black engineers, 50% of all Black teachers, 70% of all Black doctors and dentists, 80% of all Black judges, and the first black Vice-President, Kamala Harris, are HBCU graduates. HBCUs have also been proven to be far better at boosting the long term economic prospects of graduates than non-HBCU colleges. The bulk of the new funding will go directly to supporting students and helping them pay for college.

The Department of Transportation celebrated 60,000 infrastructure projects funding by the Biden-Harris Bipartisan Infrastructure Law. This landmark is a part of the Biden-Harris team's effort to address America's long neglected infrastructure. From major multi-state projects to small town railway crossings every project was lead by a local community in need not a make-work project dreamed up in Washington

The Department of Energy announced over 3 billion dollars to support the battery sector. The 25 projects across 14 states will help support over 12,000 jobs. Advanced battery technology is key to the shift to a carbon energy free economy. The move is meant to not only boost battery production but also shift it away from China and toward America.

Maine and Rhode Island both launched a partnership with the federal government to help save low income families money on their utility bills. The program offers low and moderate income households aid in updating wiring, switching to energy efficient appliances, and installing heat pumps.

The EPA announced $156 million to help bring solar power to low-income New Mexico residents. This is part of the Biden-Harris Administration’s "Solar for All" project aimed at helping low-income people afford the switch over to solar power. It's expected that 21,750 low-income households in New Mexico will benefit from the money. New Mexicans can expect to save over the next 20 years $311 million in energy costs.

The Department of The Interior announced the first ever leases for wind power in the Gulf of Maine. The leases for 8 areas off the coast of Massachusetts, New Hampshire, and Maine will be sold in late October. The Department believes that once developed the wind power from these leases could produce 13 gigawatts of clean offshore wind energy, enough to power 4.5 million homes. When added to the 15 gigawatts already approved by the Biden-Harris team it brings America close to Biden's 30 gigawatts of clean offshore wind power by 2030.

The Senate approved the appointment of Kevin Ritz to the Court of Appeals for the Sixth Circuit, which covers Kentucky, Michigan, Ohio, and Tennessee. The Senate also approved Mary Kay Costello and Michelle Williams Court to district court judgeships in Pennsylvania and California respectively. Costello is the 12th LGBT judge appointed by President Biden, making him the President to appoint the most LGBT people to the federal bench more than during Obama's 8 years. President Biden has also appointed more black women, such as Judge Court, to the bench than any other President. Judge Court also represents President Biden's move to appoint civil rights attorneys to the bench, Court worked for the ACLU in the mid-90s and was a civil rights expect at HUD in the early 2000s. This brings the total number of judges appointed by Biden to 212.

#Thanks Biden #Joe Biden #kamala harris #HBCU #infrastructure #climate change #green energy #wind power #judges

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srbachchan · 2 months ago

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DAY 6274

Jalsa, Mumbai Aopr 20, 2025 Sun 11:17 pm

🪔 ,

April 21 .. birthday greetings and happiness to Ef Mousumi Biswas .. and Ef Arijit Bhattacharya from Kolkata .. 🙏🏽❤️🚩.. the wishes from the Ef family continue with warmth .. and love 🌺

The AI debate became the topic of discussion on the dining table ad there were many potent points raised - bith positive and a little indifferent ..

The young acknowledged it with reason and able argument .. some of the mid elders disagreed mildly .. and the end was kind of neutral ..

Blessed be they of the next GEN .. their minds are sorted out well in advance .. and why not .. we shall not be around till time in advance , but they and their progeny shall .. as has been the norm through generations ...

The IPL is now the greatest attraction throughout the day .. particularly on the Sunday, for the two on the day .. and there is never a debate on that ..

🤣

.. and I am most appreciative to read the comments from the Ef on the topic of the day - AI .. appreciative because some of the reactions and texts are valid and interesting to know .. the aspect expressed in all has a legitimate argument and that is most healthy ..

I am happy that we could all react to the Blog contents in the manner they have done .. my gratitude .. such a joy to get different views , valid and meaningful ..

And it is not the end of the day or the debate .. some impressions of the Gen X and some from the just passed Gen .. and some that were never ever the Gen are interesting as well :

The Printing Press (15th Century)

Fear: Scribes, monks, and elites thought it would destroy the value of knowledge, lead to mass misinformation, and eliminate jobs. Reality: It democratized knowledge, spurred the Renaissance and Reformation, and created entirely new industries—publishing, journalism, and education.

⸻

Industrial Revolution (18th–19th Century)

Fear: Machines would replace all human labor. The Luddites famously destroyed machinery in protest. Reality: Some manual labor jobs were displaced, but the economy exploded with new roles in manufacturing, logistics, engineering, and management. Overall employment and productivity soared.

⸻

Automobiles (Early 20th Century)

Fear: People feared job losses for carriage makers, stable hands, and horseshoe smiths. Cities worried about traffic, accidents, and social decay. Reality: The car industry became one of the largest employers in the world. It reshaped economies, enabled suburbia, and created new sectors like travel, road infrastructure, and auto repair.

⸻

Personal Computers (1980s)

Fear: Office workers would be replaced by machines; people worried about becoming obsolete. Reality: Computers made work faster and created entire industries: IT, software development, cybersecurity, and tech support. It transformed how we live and work.

⸻

The Internet (1990s)

Fear: It would destroy jobs in retail, publishing, and communication. Some thought it would unravel social order. Reality: E-commerce, digital marketing, remote work, and the creator economy now thrive. It connected the world and opened new opportunities.

⸻

ATMs (1970s–80s)

Fear: Bank tellers would lose their jobs en masse. Reality: ATMs handled routine tasks, but banks actually hired more tellers for customer service roles as they opened more branches thanks to reduced transaction costs.

⸻

Robotics & Automation (Factory work, 20th century–today)

Fear: Mass unemployment in factories. Reality: While some jobs shifted or ended, others evolved—robot maintenance, programming, design. Productivity gains created new jobs elsewhere.

The fear is not for losing jobs. It is the compromise of intellectual property and use without compensation. This case is slightly different.

I think AI will only make humans smarter. If we use it to our advantage.

That’s been happening for the last 10 years anyway

Not something new

You can’t control that in this day and age

YouTube & User-Generated Content (mid-2000s onward)

Initial Fear: When YouTube exploded, many in the entertainment industry panicked. The fear was that copyrighted material—music, TV clips, movies—would be shared freely without compensation. Creators and rights holders worried their content would be pirated, devalued, and that they’d lose control over distribution.

What Actually Happened: YouTube evolved to protect IP and monetize it through systems like Content ID, which allows rights holders to:

Automatically detect when their content is used

Choose to block, track, or monetize that usage

Earn revenue from ads run on videos using their IP (even when others post it)

Instead of wiping out creators or studios, it became a massive revenue stream—especially for musicians, media companies, and creators. Entire business models emerged around fair use, remixes, and reactions—with compensation built in.

Key Shift: The system went from “piracy risk” to “profit partner,” by embracing tech that recognized and enforced IP rights at scale.

This lead to higher profits and more money for owners and content btw

You just have to restructure the compensation laws and rewrite contracts

It’s only going to benefit artists in the long run ��

Yes

They can IP it

That is the hope

It’s the spread of your content and material without you putting a penny towards it

Cannot blindly sign off everything in contracts anymore. Has to be a lot more specific.

Yes that’s for sure

“Automation hasn’t erased jobs—it’s changed where human effort goes.”

Another good one is “hard work beats talent when talent stops working hard”

Which has absolutely nothing to with AI right now but 🤣

These ladies and Gentlemen of the Ef jury are various conversational opinions on AI .. I am merely pasting them for a view and an opinion ..

And among all the brouhaha about AI .. we simply forgot the Sunday well wishers .. and so ..

my love and the length be of immense .. pardon

Amitabh Bachchan

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ayeforscotland · 11 months ago

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What is Dataflow? Part 2: Diagrams

This is the second part of a couple of posts about Dataflow, particularly why it's important for the world going forward and relating to the Crowd Strike IT disaster.

Read the first part here.

Before I get into this one today, I wanted to address a couple of things.

Firstly, Dataflow is something that nearly every single person can understand. You do NOT:

Need to have a degree in Computing Science

Need to work in IT

Need to be a data analyst / Spreadsheet master

If any of you see the word 'Data' and feel your eyes glazing over, try and snap out of it because, if you're anything like me, Dataflow is much more approachable as a concept.

Secondly, what do I mean by IT?

Traditionally in most of our media the all-encompassing 'IT department' handles everything to do with technology. But every business works differently and there are many job titles with lots of crossover.

For example, you can be an infrastructure engineer where your focus is on building and maintaining the IT infrastructure that connects your organisation internally and externally. This is a completely different role from an Application Portfolio Manager who is tasked with looking after the Applications used in business processes.

Both are technical people and come under the banner of 'IT' - but their roles are focused in different areas. So just bear that in mind!

Now that's out of the way, let's begin! This one will be a little bit deeper, and questions welcome!

An Intro to Diagrams

You probably do not need a history of why pictures are important to the human race but to cover our bases, ever since we put traced our hands on a cave wall we have been using pictures to communicate.

Jump forward in time and you have engineers like Leonardo Da Vinci drafting engineering schematics.

You get the idea, humans have been creating diagrams (Pictures) for thousands of years. Centuries of refinement and we have much more modern variations.

And there's one main reason why diagrams are important: They are a Common Language.

In this context, a Common Language helps bridge a language gap between disciplines as well as a linguistic gap. A Spanish electrician and a German electrician should be able to refer to the same diagram and understand each other, even if they don't know each other's language.

The reason they can do this is because they're are international standards which govern how electrical diagrams are created.

A Common Language for Digital?

Here's an image I've shown to clients from governments and institutions to global organisations.

Everything around us, from the products we use to the bridges we drive over and the buildings we live, work, enjoy and shop in had diagrams backing them.

You would not build a skyscraper without a structural engineering diagram, you would not build an extension on your house if an architect couldn't produce a blueprint.

Why is there not an equivalent for the Digital World and for Dataflow?

Where is the Digital Common Language?

This is the bit where the lightbulb goes on in a lot of people's heads. Because, as I mentioned in Part 1, the flow of data is the flow of information and knowledge. And the common mistake is that people think of dataflow, and only ever think about the technology.

Dataflow is the flow of information between People, Business Processes *and* Technology Assets.

It is not reserved to Technology specialists. When you look at the flow of data, you need to understand the People (Stakeholders) at the top, the processes that they perform (and the processes which use the data) and the technology assets that support that data.

The reason why this is important is because it puts the entire organisation in context.

It is something that modern businesses fail to do. They might have flow charts and network diagrams, and these are 'alright' in specific contexts, but they fall to pieces when they lack the context of the full organisation.

For example, here is a Network Diagram. It is probably of *some* value to technical personnel who work in infrastructure. Worth bearing in mind, some organisations don't even have something like this.

To be absolutely clear, this diagram will hold some value for some people within the organisation. I'm not saying it's completely useless. But for almost everyone else, it is entirely out of context, especially for any non-technical people.

So it doesn't help non-technical people understand why all of these assets are important, and it doesn't help infrastructure teams articulate the importance of any of these assets.

What happens if one of those switches or routers fails? What's the impact on the organisation? Who is affected? The diagram above does not answer those questions.

On the other side of the business we have process diagrams (aka workflow diagrams) which look like this.

Again we run into the same problem - This is maybe useful for some people working up at the process layer, but even then it doesn't provide context for the stakeholders involved (Are there multiple people/departments involved throughout) and it doesn't provide any context for technical personnel who are responsible for maintaining the technology that supports this process.

In short, nobody has the big picture because there is not a common language between Business & IT.

Conclusion

So what do we do? Well we need to have a Common Language between Business & IT. While we need people with cross-functional knowledge, we also need a common language (or common framework) for both sides of the organisation to actually understand each other.

Otherwise you get massively siloed departments completely winging their disaster recovery strategies when things like Crowd Strike goes down.

Senior Management will be asked questions about what needs to be prioritised and they won't have answers because they aren't thinking in terms of Dataflow.

It's not just 'We need to turn on everything again' - It's a question of priorities.

Thing is, there's a relatively simple way to do it, in a way that looking at any engineering diagram feels simple but actually has had decades/centuries of thought behind it. It almost feels like complete common sense.

I'll save it for Part 3 if you're interested in me continuing and I'll make a diagram of my blog.

The important thing is mapping out all the connections and dependencies, and there's not some magic button you press that does it all.

But rigorous engineering work is exactly that, you can't fudge it with a half-arsed attempt. You need to be proactive, instead of reacting whenever disaster strikes.

#AyeforScotland #crowd strike #Dataflow #diagrams #workflow

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cleoselene · 4 months ago

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Sharing this on behalf of a Marine Biologist friend, not my words.

Tumblr loves sea creatures, and this is important. Have a cool pic of an octopus before digging into this big post from someone who is in the trenches (but not the really deep ones like the Mariana):

"Hi all! I have a personal request for everyone!

I need you to write a letter/email. Please write your congressional representative in support of the value that your state (or state(s) you love) Sea Grant Program means to you personally. Please send a copy of your email/letter to your state Sea Grant director as well. I can tell you for a fact that these messages are critically important and do in fact make a difference.

If you do not want to write your representatives, please still write your Sea Grant directors.

Unsure about what/who the Sea Grant Programs are? The Sea Grant Programs were created specifically to connect science between local, state, and national needs. Sea Grants make sure up-to-date science is informing decisions made in our home states and regions. Each of the State programs conducts marine and coastal research, education, and outreach tailored to their regional needs. If you’ve ever been to the beach and seen rip current education signs, seen disaster readiness material, enjoyed a coastal natural area, enjoyed fishing, ate local seafood, have a military installation near you, and much more, you’ve been positively impacted by your state’s Sea Grant Program.

Economic Benefits: Sea Grant programs provide direct economic benefits contributing to job creation, industry resilience, and sustainable economic growth.

• Works with local businesses, tourism operators, and maritime industries to enhance profitability and ensure longevity of businesses.

• Supports jobs in fisheries, marine engineering, coastal construction, and tourism through workforce development, training programs, and fellowships.

• Provides technical assistance to commercial fishers, shipbuilders, and port workers, including development of new and innovative technology that improves entire industries.

Fisheries & Aquaculture: Sea Grant programs support seafood production and sustainable fisheries management to ensure the health of marine ecosystems and economies.

• Offers training on best practices for commercial and recreational fishers.

• Helps reduce bycatch and overfishing through gear modifications and conservation efforts.

• Advances shellfish farming techniques (e.g., oysters, mussels, clams) to boost seafood production while improving water quality.

• Provides resources to help small-scale aquaculture businesses thrive.

• Monitors seafood safety and waterborne diseases to protect public health.

• Conducts research on invasive species like zebra mussels, lionfish, and green crabs; and, develops early detection and removal strategies to prevent ecological and economic harm.

Public Safety & Community Resilience: Coastal communities face unique challenges, from hurricanes and flooding to rising sea levels and water pollution. Sea Grant programs work to keep people safe through risk mitigation, education, and emergency preparedness.

• Helps communities create hurricane evacuation plans and build disaster-resilient infrastructure.

• Provides flood mapping and modeling to predict storm surges and coastal erosion.

• Develops tools like real-time weather alerts and emergency response strategies.

• Monitors pollution levels in oceans, rivers, and lakes to ensure safe drinking water.

• Identifies and mitigates harmful algal blooms (like red tide) that threaten human and marine life.

• Leads efforts to reduce plastic pollution in oceans, including microplastics research.

• Runs community beach cleanups and educational programs on waste reduction.

• Helps coastal communities upgrade ports, harbors, and public infrastructure to withstand extreme weather.

• Promotes nature-based solutions (e.g., living shorelines) to prevent coastal erosion and property damage.

• Partners with local governments to design smarter zoning laws for flood-prone areas.

Military Readiness & National Security: Sea Grant programs help ensure the safety and effectiveness of naval operations, coastal military installations, and maritime security.

Protecting Naval Bases & Infrastructure

• Assists military installations in climate resilience planning to prepare for sea-level rise and extreme weather.

• Works on coastal erosion control to protect bases and training grounds.

• Supports advancements in sonar, remote sensing, and underwater drones for naval and marine research.

• Provides oceanographic data crucial for submarine navigation and surveillance.

Education & Workforce Development: Sea Grant invests in the next generation of scientists, engineers, and marine professionals.

• Supports STEM (Science, Technology, Engineering, and Math) education focused on marine science.

• Provides internships and fellowships for students pursuing marine research careers.

• Runs public engagement programs to promote environmental stewardship.

• Helps local governments understand disaster preparedness, flood management, and coastal zoning laws.

State & Regional Sea Grant Programs

East Coast and Caribbean

• Connecticut Sea Grant – University of Connecticut, Director: Sylvain De Guise ([email protected])

• Delaware Sea Grant – University of Delaware Director: Joanna York ([email protected])

• Georgia Sea Grant Director: Mark Risse ([email protected])

• Maine Sea Grant – University of Maine, Director: Gayle Zydlewski ([email protected])

• Maryland Sea Grant – University of Maryland Director: Fredrika Moser ([email protected])

• Massachusetts Institute of Technology Sea Grant – Director: Michael Triantafyllou ([email protected])

• (Massachusetts) Woods Hole Oceanographic Institute Sea Grant – Director: Matthew Charette ([email protected])

• New Hampshire Sea Grant – University of New Hampshire Director: Erik Chapman ([email protected])

• New Jersey Sea Grant Consortium

• New York Sea Grant – Cornell University & SUNY Director: Rebecca Shuford ([email protected])

• North Carolina Sea Grant – NC State University Director: Susan White ([email protected])

• Pennsylvania Sea Grant – Director: Sarah Whitney ([email protected])

• Puerto Rico Sea Grant – Director: Ruperto Chaparro Serrano ([email protected])

• Rhode Island Sea Grant – University of Rhode Island Director: Tracey Dalton ([email protected])

• South Carolina Sea Grant Consortium Director: Susan Lovelace ([email protected])

• Virginia Sea Grant – Virginia Institute of Marine Science Director: Troy Hartley ([email protected])

Great Lakes Region

• Illinois-Indiana Sea Grant – University of Illinois & Purdue University Director: Tomas Höök ([email protected])

• Michigan Sea Grant – University of Michigan & Michigan State University Director: Silvia Newell ([email protected])

• Minnesota Sea Grant – University of Minnesota Director: John Downing ([email protected])

• New York Sea Grant – Cornell University & SUNY Director: Rebecca Shuford ([email protected])

• Ohio Sea Grant – Ohio State University Director: Christopher Winslow ([email protected])

• Pennsylvania Sea Grant – Director: Sarah Whitney ([email protected])

• Wisconsin Sea Grant – University of Wisconsin Director: Christy Remucal (Interim Director) ([email protected])

Gulf of Mexico

• Florida Sea Grant – University of Florida Director: Sherry Larkin ([email protected])

• Louisiana Sea Grant – Louisiana State University Director: Julie Lively ([email protected])

• Mississippi-Alabama Sea Grant Consortium Director: LaDon Swann ([email protected])

• Texas Sea Grant – Texas A&M University Interim Director: Laura Picariello ([email protected])

West Coast and Pacific

• California Sea Grant – Scripps Institution of Oceanography, UC San Diego Director: Shauna Oh ([email protected])

• University of Southern California Sea Grant – Director: Karla Heidelberg ([email protected])

• Oregon Sea Grant – Oregon State University Director: Karina Nielsen ([email protected])

• Washington Sea Grant – University of Washington Director: Kate Litle (Interim Director) ([email protected])

• Alaska Sea Grant – University of Alaska Fairbanks Director: Ginny Eckert ([email protected])

• Hawai‘i Sea Grant – University of Hawai‘i at Mānoa Director: Darren Lerner ([email protected])

• Guam Sea Grant – University of Guam Director: Austin Shelton ([email protected])

Please, if you love the sea critters, do this!! You know this website owes so much to the crabs.

#oceans #nature #marine biology #save our seas #signal boost

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just-an-emily-existing · 4 days ago

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The Mad Bomber

So on the mainland, Bluebell was always a troublemaker, quickly making a name for herself as "The Mad Bomber". She was an engine with a twisted sense of humor and an unhealthy obsession with explosions. Her antics, involving derailed trains, trucks and coaches and strategically placed (and often malfunctioning) fireworks, had earned her a one-way ticket to Sodor. The hope was that the peaceful atmosphere and guidance of Sir Topham Hatt and his engines would "fix" her.

Bluebell arrived at Knapford station one cold winter morning, her paint slightly scorched and a glint of manic energy in her eyes. Thomas, ever the optimist, was chosen to show her around and get her settled in. "Welcome to Sodor!" he chirped, puffing cheerfully at her. Bluebell just stared at him, a disturbing smile playing on her face. "Charming," she muttered, "A perfect canvas for… improvement."

Sir Topham Hatt, oblivious to the impending chaos, assigned Bluebell simple tasks: shunting trucks, delivering milk, the most boring jobs imaginable. Bluebell, however, saw only opportunity. She observed the island's infrastructure, the bridge supports, the gas stations supplying the towns. Her mind buzzed with calculations, plots, and the delightful orchestration of controlled destruction.

At first, she was subtle. A slightly overloaded coal truck here, a misdirected signal there, leading to minor delays and comical near-misses. Gordon fumed when his express was diverted into a siding filled with nasty garbage trucks. Henry coughed uncontrollably after a suspiciously smoky batch of coal found its way into his firebox. They blamed clumsiness, accident, anything but the deliberate sabotage of a rogue engine.

But Bluebell grew bolder, her 'improvements' becoming more dangerous and risky. She replaced the sand in Oliver's sandboxes with sugar, causing a sweet disaster on Gordon's Hill. She asked the signalmen to change the points switches, telling them a rouge train was barreling toward them, sending Donald and Douglas' trucks careening off the tracks, narrowly missing the main depot. The engines started to suspect something, to see the pattern in the chaos.

Thomas, determined to help Bluebell, tried to reason with her. "Why are you doing this?" he asked, his words filled with concern. "Sodor is a good place. We're a family here. You could be a part of this family!"

Bluebell only laughed, a high-pitched, unsettling cackle. "Family? What lovey-dovey nonsense! Sodor is soooooo boring. It just needs… a little excitement. A little… boom." She giggled like a schoolgirl. "Think of it, Thomas! A symphony of explosions, a ballet of fire all dancing and singing together like a wonderful choir! I’ll make Sodor… unforgettable!"

Thomas was terrified of what he was hearing, why would anyone want to destroy the island? "You're... You're sick in the smokebox!" Bluebell only smirked. "Yes yes, call me whatever you need to to sleep at night." As she puffed away, Thomas sat there, bewildered and terrified for the days ahead...

The climax came on a busy summer day. Thomas, having overheard Bluebell muttering about the viaduct and a suspiciously large crate of "firecrackers," raced to warn Sir Topham Hatt. The Fat Controller, realizing the gravity of the situation, ordered all engines to evacuate the area and order authorities to surround the bridge.

Bluebell, ignoring the sirens and frantic whistles, was already on the bridge, the crate of "firecrackers" (clearly something far more potent) open. She cackled as she lit the fuse.

Thomas screamed, "Bluebell, stop! You'll destroy the whole town!"

But it was too late. The fuse was hissing, sparks flying. As Thomas raced away from her, Bluebell gave him a wild, triumphant grin. "Enjoy the show Tommy-boy!!" she shrieked.

Then, a deafening explosion ripped through the air. The viaduct groaned, rocks flew in every direction, and collapsed into the river below. Smoke billowed, obscuring everything. When the dust settled, Bluebell was gone.

Search parties scoured the river, the surrounding woods, everywhere. But there was no trace of Bluebell. No wreckage, no remains, nothing. The Fat Controller declared her lost, presumed destroyed in the explosion.

But Thomas wasn't so sure. He couldn't shake the feeling that Bluebell had planned it all, that the explosion was a carefully staged escape. He remembered her final grin, a look of cunning, not despair.

And so, Bluebell, the Mad Bomber, vanished from Sodor. Some engines whispered that they saw a glimpse of her wicked smile in the shadows, or heard a distant, unsettling laugh carried on the wind. But she was never seen again, leaving behind a legacy of fear, chaos, and the unsettling mystery of her supposed suicide. The engines of Sodor were forever haunted by the question: had they truly rid themselves of the Mad Bomber, or was she still out there, somewhere, planning her next spectacular… improvement?

#I'm thinking the final explosion happens right before s2 ep 15 of ttte #that explains why the viaduct is being repaired #Better late than never is the episode #ttte #thomas the tank engine #thomas and friends #ttte humanized #ttte human au #ttte the mad bomber #Ttte bluebell

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deusvervewrites · 1 year ago

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Paradise of the Strong: Given the fact that the average person today severely underestimates how much modern society is dependent on infrastructure and that constant maintenance is necessary for a company to work(looking at you Boeing, paying the shareholders but not the engineers), it's not surprising that the "Bright makes Lights" and "The Strongest shall Lead" crowds frequently forgets about the sheer amount of people that ensures that the water pipes aren't leaking, electricity is flowing, and that the garbage is removed.

No man is an army after all. How many times have people forget about the support people and NCOs to ensure that supply lines are ensured and that a single soldier needs a lot of support to do his job? While a single person can be the idea, they are not the foundations that would ensure that the job is done after all.

There's that one XKCD about internet stability being held up by individual hobbyists. The MLA is really a whole organization of Elon Musks, huh

#asks #paradise of the strong au

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asyncmeow · 2 years ago

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Its New Weapon

this is my first time doing any kind of creative writing uhhh... ever,, it's probably gonna be bad? but still, here you all go

The pilot had spent its morning jacked into the simulation rig, practicing its skills for today: the day its new toy arrived. It and its handler had been waiting over a year for this. A month ago, it got the neural interface connector installed at the top of its spinal cord. Anyone could do it - with this particular pilot, it only required a drill, a soldering iron, and a steady hand to install. After all, if it only takes an hour to do, why not do it?  Once the new mech got here, though, they would spend the rest of the day unboxing it, as well as installing the equipment outside to recharge and refuel it. Thankfully for them, this was a lower-end model, with less support infrastructure required to use it. The pilot and handler didn’t need a lot of firepower - but they needed more than the bows, arrows, guns, and otits weapons they had until now. They had quite a few enemies, and defending their territory was getting tiring, but the pilot had done a good job so far, and this was its reward.

The new mech got here around noon. The handler called the pilot through the neural link, where it ended its training for the day to start getting everything put together. The mech came as a set of seven boxes, one for each limb and the head, as well as the torso which housed critical components, with the final box being the charger.

The two spent the rest of the day assembling it, with some mild difficulty from using unfamiliar equipment in the process to hoist the upper parts of the body where they needed to be. Finally, they connected everything up to the pad, and issued a command to run a self-test. This would take about a few hours, so the two had dinner.

Eventually they heard the beeping from the built-in computer on the mech’s pad - the self-test had passed. The pilot climbed into the cockpit of the mech, sat in the chair, and connected the mech to its neural interface port. It had sweat beading on its forehead, shaking a bit. it had done this plenty of times in its room, in simulations, but everyone always told its the real thing would feel different. Those were just glorified game engines, you don’t have to worry as much about silly things like “camera resolution” or “motor speed limitations”, and although the simulations tried to be realistic, you could only get so close.

The pilot reached its hand over to the key, let out a deep breath, and turned the cold piece of metal. It immediately started getting feedback over the link cable as each system started up. It got log data intruding its thoughts from the on-board computer. Sensor readouts started to take over its senses. First was temperature, the simplest of the sensors. The pilot immediately started to feel colder from the late December snow, as its vision got replaced by the mech’s camera feeds, in square-shaped sections starting in its peripheral vision. It started to hear everything happening outside - birds chirping and flying away as they start to hear the high-frequency power circuitry in the machine, a nearby river, even a tree nearly a quarter mile away. Its sense of smell and taste turned to nothing - this lower-end model did not have those sensors. The pilot noticed how this was a very distinct feeling from not smelling or tasting anything, this was a unique feeling to it - the lack of the senses entirely, compared to the senses being present with no input.

Finally, the systems were almost done starting up. Now that its vision had been fully replaced with the machine’s own, it started to see diagnostic information in its peripheral vision - perfectly readable, but out of the way. As this was the first time booting the mech up, it prompted the pilot to do a few things to know how to interpret the data returning from the link cable. It moved each of its joints, one by one, the mech slowly moving in unison. First its fingers, moving back to its wrists, elbows, and eventually motion for its entire arm was one-to-one with the mech.

After doing the same for the legs, it took a few small steps, its handler following along at a fairly small distance, only about ten or twenty feet, just in case anything happened. They slowly got far enough away to test how well the weaponry on the machine worked. Selecting the light machine gun, the pilot cautiously focused on a point far in the distance, blinked, and… a second later, there was a hole there. The new weapon was effortless to use, making the pilot hopeful that this would make defending the two much easier than it had been in the past.

The pilot reached its left hand out, grabbing a tree and pulling it out of the ground. Realizing how heavy it was - the weight displayed on the HUD as “2 TONS”, capital letters and all - and how effortless it was surprised it. it threw the tree as far as it could, reached its right hand toward it, and focused on the tree. Before it knew it, the gun had fired, leaving several holes in the tree at the peak of the arc from throwing it.

It was now becoming close to midnight, the sun having set long ago. The two made their way back toward their home, getting more tired the later it went. After walking for about half an hour, they returned, and the pilot stepped on to the pad, disengaging the neural link between the pilot and machine automatically.

Its vision got replaced with its own again, seeming as unfamiliar to it now as the machine’s vision did not too long ago. It felt the heat of the cockpit, a drastic change from the cold of the outside, feeling the snow landing on it. The odd quietness of the cockpit, isolated from all sounds of both the mech and the outside, to reduce possible interference.

The pilot took the key and stepped out of the cockpit, climbing down the ladder next to the pad. As it stepped off the ladder, the handler - the witch - hugged the doll tight, gently petting its hair, whispering in its ear, “I hope you enjoyed your Christmas present.”

#empty spaces #dollposting #combat doll #mechposting

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rudrakshasmarthomes · 7 days ago

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Dholera SIR: India’s Next Industrial Hub with Expressway

In a significant update shared during the Gujarat Assembly, Minister of State Jagdish Vishwakarma confirmed that the 109-km long Ahmedabad-Dholera Expressway, being developed by the Central Government, is set for completion by May 2025. This high-speed corridor is not just a road — it’s a lifeline that will power the region’s economic engine for decades to come.

What sets this expressway apart is its eco-conscious construction strategy. In an innovative move, the project will utilize 35 lakh cubic meters of recycled waste for embankment construction. As a result, 29 acres from Ahmedabad’s massive 80-acre waste dump will be cleared. Additionally, around 173.82 lakh cubic meters of fly ash sourced from various thermal power plants will be repurposed for the build — making this one of the

greenest highway initiatives in the country. Adding to its sustainability goals, a lush green belt is planned on either side of the expressway, covering 97.19 hectares with over 97,000 trees. To protect local wildlife, a dedicated wildlife crossing (4.5m x 7m) will also be constructed, showcasing a perfect balance between infrastructure and ecology.

Designed for speed and scalability, the expressway will initially handle 25,000 vehicles daily, with a top speed of 120 km/h. Future-ready provisions have been made to scale up the four-lane expressway to twelve lanes as traffic demand grows. A cloverleaf interchange, modeled after the one at Adalaj, will enhance local accessibility.

Linking directly to the upcoming Dholera International Airport, a 9.56 km Greenfield link road will be built at an estimated cost of ₹550.49 crore, offering seamless access between the expressway and the airport. Zooming out to the broader vision, the minister detailed developments in the Dholera Special Investment Region (SIR) — a world-class Greenfield Industrial Smart City being developed across 920 sq. km in Ahmedabad district. In its first phase, development activities are focused on 153 sq. km, and the momentum is already visible.

Several marquee industries have already set up shop in Dholera:

ReNew Power has launched a solar cell and module manufacturing plant.

Tata Power has commissioned a 300 MW solar project.

Polycab is building an advanced electronics manufacturing unit.

Tata Semiconductor Manufacturing Pvt. Ltd. is spearheading India’s first commercial semiconductor fabrication facility right here.

Looking ahead, Dholera SIR is expected to create over 8 lakh jobs, positioning it as one of the largest industrial employment hubs in the nation. To support this massive industrial ecosystem, the government is working on key connectivity projects including:

A freight rail link from Bhimnath to Dholera SIR

The Ahmedabad-Dholera Expressway

The upcoming Ahmedabad-Dholera Metro Rail

And a dedicated freight corridor to streamline cargo movement

With world-class infrastructure, sustainable practices, and powerhouse industries anchoring its growth, Dholera…

#dholera sir #dholera smart city #dholera smart city project #plots in dholera sir #dholera smart city plot booking #dholera sir investment #rudraksha smart homes #writers #real estate #tumblr

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tonguetyd · 1 year ago

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literally annoyed that all coastal states (including my dumb glove shaped state) aren't 90% hydro/wind

i might not be an engineer but i am with you there

*drags soapbox out and jumps on top*

DO YOU KNOW HOW INFURIATING IT IS TO HAVE EVERYONE SAY “ELECTRIFY EVERYTHING” KNOWING FULL GODDAMN WELL THAT THE GRID 1) CANNOT SUPPORT IT AND 2) IS DRASTICALLY NOT BASED ON RENEWABLE ENERGY?!?!?!

Don’t get me wrong I love electric cars, I love heat pump systems, I love buildings and homes that can say they are fossil fuel free! Really! I do!

But it means FUCK ALL when you have!!!! Said electricity!!!! Sourced by fossil fuels!!!! I said this in my tags on the other post but New York City! Was operating on *COAL*!!!!! Up until like 5 years ago.

WE ARE SITTING IN THE MIDDLE OF A RIVER.

Not to mention the ocean which like. You ever been to the beach?! You know what there’s a whole hell of a lot of at the beach? Wind!!!!!!!! And yet we have literal campaigns saying “save our oceans! Say no to wind power!”

Idk bruh I feel like the fish are gonna be less happy in a boiling ocean than needing to swim around a giant turbine but. I’m not a fuckin fish so.

NOT TO MENTION (I am fully waving my hands around like a crazy person because this is the main thing that gets me going)

THE ELECTRICAL GRID OF THE UNITED STATES HAS NOT BEEN UPDATED ON LARGE SCALE LEVELS SINCE IT WAS BUILT IN THE 1950s AND 60s.

It is not DESIGNED to handle every building in the city of [random map location] Chicago being off of gas and completely electrified. It’s not!!! The plants cannot handle it as now!

So not only do we not have renewable sources because somebody in Iowa doesn’t want to replace their corn field with a solar field/a rich Long Islander doesn’t want to replace their ocean view with a wind turbine! We also are actively encouraging people to put MORE of a strain on the grid with NO FUCKING SOLUTION TO MEET THAT DEMAND!

I used to deal with this *all* the time in my old job when I was working with smaller building - they ALWAYS needed an electrical upgrade from the street and like. The utility only has so many wires going to that building. And it’s not planning on bringing in more for the most part!

(I am now vibrating with rage) and THEN you have the fuckin AI bros! Who have their data centers in the middle of nowhere because that’s a great place to have a lot of servers that you need right? Yeah sure, you know what those places don’t have? ELECTRICAL INFRASTRUCTURE TO SUPPORT THE STUPID AMOUNT OF POWER AI NEEDS!!!!!!!

Now the obvious solution is that the AI bros of Google and Microsoft and whoever the fuck just use their BILLIONS OF FUCKING DOLLARS IN PROFIT to be good neighbors and upgrade the fucking systems because truly what is the downside to that everybody fucking wins!

But what do I know. I’m just friendly neighborhood engineer.

*hops down from soapbox*

#Kate I’m so sorry #you did not realize that you touched on one of my top three major soapbox points #but the state of the grid and lack of renewables in the year 2024 is truly something I could scream about for hours #and ask Reina!!!#I HAVE!!!#😅#friendly neighborhood engineer #answered asks #hookedhobbies #long post

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ashoss · 1 year ago

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okay i was gonna reply on my ask that you answered, but this was getting long, so i'm moving it here lmao

since there's not a lot of info on cardea/her kids' powers in PJO, i feel you could totally get creative with it! just depends on how literal or metaphorical you want to take it. because you're so right, there are hinges EVERYWHERE. a hinge is "a mechanical bearing that connects two solid objects, typically allowing only a limited angle of rotation between them." that's so common! doors, infrastructure, hell, even ordinary things like a piano or the lid of a tic tac box. or you could go more metaphorical like @wateroflifefrommountains was saying and have it be applied more broadly to anything considered a "door" or "connector".

i saw on the pjo wiki that children of cardea are shown to be skilled engineers, and although i don't know where they got that, i think you could extrapolate. you know what else has hinges aside from doors? windows. bridges. freeways. buildings. i say we give her not only engineering skill, but some minor architectural manipulation. imagine some villain messes with a bridge in gotham, and steph is able to lock the hinges in place and buy the batfam a couple extra minutes to evacuate. she can't hold it for long because she can't support the weight of an entire bridge, she's locking hinges into place, but it gives the batfam the precious extra minute or two they needed.

no locks to pick and smashing a window would be too messy? no problem, guess who's on the job.

if you go more general and want to say she has control of any kind of "connector", then i think we could throw in minor technokinesis too. i only say minor because i don't think she'd be able to fully control the technology or immediately understand how it works, but i think she'd be able to sense the connections in machinery and mess with them (turning them off and on, messing around with how they connect so they don't function properly, etc).

cardea was a protector of the home against evil spirits, so maybe steph is a walking vibe check LMAO

while these are all kinda random, i think it works well with steph because she's unpredictable and spontaneous when she fights! she goes with her gut, using whatever she's got around her. imagine some goon is chasing after her and she just smacks them in the face with a door to get away. it's so looney tunes-esque, but it works!

(oh my god this ended up so long, i am so sorry a;slkdjfa;ljkfa as you can tell, i am a devout follower of the yap temple. i will shut up now)

(pss never apologize for the length of ur asks i love when you guys yap lolol)

to be honest i really love cardea kid stephanie now. at least going through the wiki, she only has one canon kid (named claudia - i think its in one of the other minor books that rick came out with). cardea would probably have the closest relationship with any of her kids, she hates when the gods ignore their children, so she would probably try and communicate and visit with stephanie.

i feel like powers like this would probably be overlooked, she probably is unaware that she HAD any powers- just the general demigod criteria. with cardea being one of the gods who tries to visit her children, i think it would be interesting to have cardea show stephanie her powers, walk her through it.

her also being the closest with their godly parent would also be a really fun characteristic to explore- are the other kids jealous? do they wish they had a closer relationship with their parent? (aslkdj just so much potential for angst)

i do really love all of the powers you went through! amazing takes as always. i think hinges are incredibly overlooked- if she had control over hinges it would honestly have a ton of potential.

#steph brown #the bat pjo au #ashbox

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bbdulucknow · 2 months ago

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How Civil Engineering Courses Are Evolving with New Technology

Civil engineering is no longer just about bricks, cement, and bridges. It has become one of the most future-focused fields today. If you are planning to study civil engineering, you must understand how the course has evolved. The best civil engineering colleges are now offering much more than classroom learning.

You now study with technology, not just about it. And this shift is shaping your career in ways that were never possible before.

Technology is Changing the Civil Engineering Classroom

In the past, civil engineering courses relied on heavy theory and basic field training. Today, you learn through software, simulations, and smart labs. At universities like BBDU in Lucknow, classrooms are powered by tools like AutoCAD, Revit, STAAD Pro, and BIM.

These tools help you visualize structures, test designs, and even simulate natural forces.

You work on 3D modeling tools

You test designs virtually before real-world execution

You understand smart city layouts and green construction methods

This means your learning is hands-on, job-ready, and tech-driven.

You Learn What the Industry Actually Uses

Most construction and infrastructure companies now depend on digital tools to plan, design, and execute projects. This is why modern B.Tech Civil Engineering courses include:

Building Information Modelling (BIM)

Geographic Information Systems (GIS)

Remote Sensing Technology

Drones for land surveying

IoT sensors in smart infrastructure

Courses in colleges like BBDU include these topics in the curriculum. You do not just learn civil engineering. You learn the tools that companies expect you to know from day one.

The future of Civil Engineering is Data-Driven

You might not think of civil engineering as a data-heavy field. But now, big data is used to monitor structural health, traffic flow, and resource planning. Many universities have added data analysis and AI basics to help you understand how smart infrastructure works.

By learning how to handle real-time data from buildings or roads, you become more skilled and more employable.

Real-world exposure is Now Part of the Course

Good civil engineering colleges in Uttar Pradesh understand that you need industry exposure. Colleges like BBDU offer:

Internships with construction firms and government bodies

Industry guest lectures and site visits

Capstone projects linked to real problems

You are not just attending lectures. You are solving real-world construction challenges while still in college.

Why Choose BBDU for Civil Engineering?

In Lucknow, BBDU is one of the few private universities offering a modern civil engineering course with world-class infrastructure. You learn in smart labs, access tools used by top firms, and receive career counseling throughout the program.

Here’s what makes BBDU a smart choice:

Advanced labs and smart classrooms

Training in AutoCAD, STAAD Pro, BIM

Live projects and on-site construction learning

Career cell and placement support

Affordable fees and scholarships for deserving students

Civil Engineering is Still One of the Most Stable Careers

Reports show that India will spend over ₹100 lakh crores on infrastructure in the next few years. Roads, smart cities, renewable power plants, metros – all need civil engineers. And companies prefer students trained in construction technology, digital tools, and real-world planning.

So, if you're thinking about joining a course, look at how it prepares you for tomorrow.

The future of civil engineering is digital, and your education should be too. Choose a program that keeps up with the times. Choose a university that helps you build more than just buildings – it helps you build your future.

Apply now at BBDU – one of the most future-focused civil engineering colleges in Uttar Pradesh.

#Civil Engineering Courses #Engineering College #BBDU

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dreaminginthedeepsouth · 11 months ago

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deAdder

* * * *

LETTERS FROM AN AMERICAN

August 11, 2024

Heather Cox Richardson

Aug 12, 2024

Vice President Kamala Harris’s choice of Minnesota governor Tim Walz to be her running mate seems to cement the emergence of a new Democratic Party.

When he took office in January 2021, President Joe Biden was clear that he intended to launch a new era in America, overturning the neoliberalism of the previous forty years and replacing it with a proven system in which the government would work to protect the ability of ordinary Americans to prosper. Neoliberalism relied on markets to shape society, and its supporters promised it would be so much more efficient than government regulation that it would create a booming economy that would help everyone. Instead, the slashing of government regulation and social safety systems had enabled the rise of wealthy oligarchs in the U.S. and around the globe. Those oligarchs, in turn, dominated poor populations, whose members looked at the concentration of wealth and power in the hands of a few people and gave up on democracy.

Biden recognized that defending democracy in the United States, and thus abroad, required defending economic fairness. He reached back to the precedent set by Democratic president Franklin Delano Roosevelt in 1933 and followed by presidents of both parties from then until Ronald Reagan took office in 1981. Biden’s speeches often come back to a promise to help the parents who “have lain awake at night staring at the ceiling, wondering how they will make rent, send their kids to college, retire, or pay for medication.” He vowed “to finally rebuild a strong middle class and grow our economy from the middle out and bottom up, giving hardworking families across the country a little more breathing room.”

Like his predecessors, he set out to invest in ordinary Americans. Under his administration, Democrats passed landmark legislation like the American Rescue Plan that rebuilt the economy after the devastating effects of the coronavirus pandemic; the Bipartisan Infrastructure Law that is rebuilding our roads, bridges, ports, and airports, as well as investing in rural broadband; the CHIPS and Science Act that rebuilt American manufacturing at the same time it invested in scientific research; and the Inflation Reduction Act, which, among other things, invested in addressing climate change. Under his direction, the government worked to stop or break up monopolies and to protect the rights of workers and consumers.

Like the policies of that earlier era, his economic policies were based on the idea that making sure ordinary people made decent wages and were protected from predatory employers and industrialists would create a powerful engine for the economy. The system had worked in the past, and it sure worked during the Biden administration, which saw the United States economy grow faster in the wake of the pandemic than that of any other developed economy. Under Biden, the economy added almost 16 million jobs, wages rose faster than inflation, and workers saw record low unemployment rates.

While Biden worked hard to make his administration reflect the demographics of the nation, tapping more women than men as advisors and nominating more Black women and racial minorities to federal judicial positions than any previous president, it was Vice President Kamala Harris who emphasized the right of all Americans to be treated equally before the law.

She was the first member of the administration to travel to Tennessee in support of the Tennessee Three after the Republican-dominated state legislature expelled two Black Democratic lawmakers for protesting in favor of gun safety legislation and failed by a single vote to expel their white colleague. She has highlighted the vital work historically Black colleges and universities have done for their students and for the United States. And she has criss-crossed the country to support women’s rights, especially the right to reproductive healthcare, in the two years since the Supreme Court, packed with religious extremists by Trump, overturned the 1973 Roe v. Wade decision.

To the forming Democratic coalition, Harris brought an emphasis on equal rights before the law that drew from the civil rights movements that stretched throughout our history and flowered after 1950. Harris has told the story of how her parents, Dr. Shyamala Gopalan, who hailed from India, and Donald J. Harris, from Jamaica, met as graduate students at the University of California, Berkeley and bonded over a shared interest in civil rights. “My parents marched and shouted in the Civil Rights Movement of the 1960s,” Harris wrote in 2020. “It’s because of them and the folks who also took to the streets to fight for justice that I am where I am.”

To these traditionally Democratic mindsets, Governor Walz brings something quite different: midwestern Progressivism. Walz is a leader in the Minnesota Democratic-Farmer-Labor Party, which formed after World War II, but the reform impulse in the Midwest reaches all the way back to the years immediately after the Civil War and in its origins is associated with the Republican, rather than the Democratic, Party. While Biden’s approach to government focuses on economic justice and Harris’s focuses on individual rights, Walz’s focuses on the government’s responsibility to protect communities from extremists. That stance sweeps in economic fairness and individual rights but extends beyond them to recall an older vision of the nature of government itself.

The Republican Party’s roots were in the Midwest, where ordinary people were determined to stop wealthy southern oligarchs from taking over control of the United States government. That determination continued after the war when people in the Midwest were horrified to see industrial leaders step into the place that wealthy enslavers had held before the war. Their opposition was based not in economics alone, but rather in their larger worldview. And because they were Republicans by heritage, they constructed their opposition to the rise of industrial oligarchs as a more expansive vision of democracy.

In the early 1870s the Granger movement, based in an organization originally formed by Oliver H. Kelley of Minnesota and other officials in the Department of Agriculture to combat the isolation of farm life, began to organize farmers against the railroad monopolies that were sucking farmers’ profits. The Grangers called for the government to work for communities rather than the railroad barons, demanding business regulation. In the 1870s, Minnesota, Iowa, Wisconsin, and Illinois passed the so-called Granger Laws, which regulated railroads and grain elevator operators. (When such a measure was proposed in California, railroad baron Leland Stanford called it “pure communism” and hired former Republican congressman Roscoe Conkling to fight it by arguing that corporations were “persons” under the Fourteenth Amendment.)

Robert La Follette grew up on a farm near Madison, Wisconsin, during the early days of the Grangers and absorbed their concern that rich men were taking over the nation and undermining democracy. One of his mentors warned: “Money is taking the field as an organized power. Which shall rule—wealth or man; which shall lead—money or intellect; who shall fill public stations—educated and patriotic free men, or the feudal serfs of corporate capital?”

In the wake of the Civil War, La Follette could not embrace the Democrats. Instead, he and people like him brought this approach to government to a Republican Party that at the time was dominated by industrialists. Wisconsin voters sent La Follette to Congress in 1884 when he was just 29, and when party bosses dumped him in 1890, he turned directly to the people, demanding they take the state back from the party machine. They elected him governor in 1900.

As governor, La Follette advanced what became known as the “Wisconsin Idea,” adopted and advanced by Republican President Theodore Roosevelt. As Roosevelt noted in a book explaining the system, Wisconsin was “literally a laboratory for wise experimental legislation aiming to secure the social and political betterment of the people as a whole.” La Follette called on professors from the University of Wisconsin, state legislators, and state officials to craft measures to meet the needs of the state’s people. “All through the Union we need to learn the Wisconsin lesson,” Roosevelt wrote.

In the late twentieth century, the Republican Party had moved far away from Roosevelt when it embraced neoliberalism. As it did so, Republicans ditched the Wisconsin Idea: Wisconsin governor Scott Walker tried to do so explicitly by changing the mission of the University of Wisconsin system from a “search for truth” to “improve the human condition” to a demand that the university “meet the state’s workforce needs.”

While Republicans abandoned the party’s foundational principles, Democratic governors have been governing on them. Now vice-presidential nominee Walz demonstrates that those community principles are joining the Democrats’ commitment to economic fairness and civil rights to create a new, national program for democracy.

It certainly seems like the birth of a new era in American history. At a Harris-Walz rally in Arizona on Friday, Mayor John Giles of Mesa, Arizona, who describes himself as a lifelong Republican, said: “I do not recognize my party. The Republican Party has been taken over by extremists that are committed to forcing people in the center of the political spectrum out of the party. I have something to say to those of us who are in the political middle: You don’t owe a damn thing to that political party…. [Y]ou don’t owe anything to a party that is out of touch and is hell-bent on taking our country backward. And by all means, you owe no displaced loyalty to a candidate that is morally and ethically bankrupt…. [I]n the spirit of the great Senator John McCain, please join me in putting country over party and stopping Donald Trump, and protecting the rule of law, protecting our Constitution, and protecting the democracy of this great country. That is why I’m standing with Vice President Harris and Governor Walz.”

Vice President Harris put it differently. Speaking to a United Auto Workers local in Wayne, Michigan, on Thursday, she explained what she and Walz have in common.

“A whole lot,” she said. “You know, we grew up the same way. We grew up in a community of people, you know—I mean, he grew up… in Nebraska; me, Oakland, California—seemingly worlds apart. But the same people raised us: good people; hard-working people; people who had pride in their hard work; you know, people who had pride in knowing that we were a community of people who looked out for each other—you know, raised by a community of folks who understood that the true measure of the strength of a leader is not based on who you beat down. It’s based on who you lift up.”

—

LETTERS FROM AN AMERICAN

HEATHER COX RICHARDSON

#Letters from an american #Heather Cox Richardson #American History #political history #Joe Biden #for the people #democracy #civil rights #economic opportunity

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nandinish27 · 2 months ago

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Best Courses to Study in Australia for Indian Students with High ROI.

Why Australia is a Top Study Abroad Destination in 2025

Australia continues to rank among the top destinations for Indian students seeking world-class education, global career opportunities, and a multicultural lifestyle. With over 100,000 Indian students currently studying in Australia, the trend is fueled by high employability, quality institutions, and welcoming immigration policies. This blog provides a complete study guide in Australia for Indian students, focusing on the top courses offering the highest return on investment (ROI) in 2025.

Top Reasons to Study in Australia for Indian Students

Globally ranked universities like the University of Melbourne, ANU, and UNSW

Post-study work visas for up to 4 years

Pathways to Permanent Residency (PR)

Industry-relevant, skill-based courses

High graduate employability

Scholarships and financial support for Indian students

High ROI Courses for Indian Students in Australia

1. Information Technology and Computer Science

Why It’s Worth It:

Booming tech industry in cities like Sydney and Melbourne

Strong demand for software developers, AI specialists, and cybersecurity analysts

Excellent PR pathways via the Skilled Occupation List (SOL)

Career Opportunities:

Software Developer

Cloud Engineer

Cybersecurity Analyst

Average Salary: AUD 70,000 – 120,000

2. Engineering (Civil, Mechanical, Electrical, Mining)

Why It’s Worth It:

High demand for engineers in infrastructure, renewable energy, and mining

PR-friendly occupations

Hands-on, accredited programs (Engineers Australia recognition)

Career Paths:

Civil Engineer

Structural Engineer

Renewable Energy Consultant

Average Salary: AUD 75,000 – 130,000

3. Health Sciences & Nursing

Why It’s Worth It:

Acute shortage of skilled healthcare workers

Strong employment growth projected until 2030

Offers direct PR routes for nursing graduates

Career Opportunities:

Registered Nurse

Public Health Officer

Physiotherapist

Average Salary: AUD 65,000 – 110,000

4. Business Analytics and Data Science

Why It’s Worth It:

High demand across sectors (banking, retail, healthcare)

Versatile career paths with global appeal

STEM classification supports extended post-study work visa

Career Options:

Data Analyst

Business Intelligence Consultant

Data Scientist

Average Salary: AUD 85,000 – 130,000

5. Accounting and Finance

Why It’s Worth It:

Consistent job demand across Australia

Accredited courses (CPA Australia, CA ANZ)

Opens doors to roles in multinational firms

Career Opportunities:

Chartered Accountant

Financial Analyst

Auditor

Average Salary: AUD 70,000 – 115,000

6. Education and Teaching

Why It’s Worth It:

Australia’s school system seeks qualified teachers, especially in regional areas

Included in the Medium and Long-term Strategic Skills List (MLTSSL)

Roles After Graduation:

Primary School Teacher

Early Childhood Educator

Secondary School Teacher

Average Salary: AUD 65,000 – 100,000

7. Architecture and Construction Management

Why It’s Worth It:

Australia’s urban expansion and infrastructure projects

Recognized qualifications with global applicability

Popular Careers:

Architect

Project Manager

Construction Estimator

Average Salary: AUD 70,000 – 120,000

Cost of Education in Australia (2025)

Course Type

Average Annual Tuition (AUD)

UG Courses

20,000 – 45,000

PG Courses

22,000 – 50,000

MBA

40,000 – 80,000

Scholarships Available for Indian Students

Australia Awards Scholarships – Fully funded by the Australian government

Destination Australia Scholarships – Regional study scholarships worth AUD 15,000

University-Specific Grants – E.g., Monash International Merit Scholarship, University of Sydney International Scholarships

Post-Study Work Rights and PR Pathways

Australia allows international students to work up to 20 hours per week during semesters and full-time during breaks. Graduates can apply for a Temporary Graduate visa (subclass 485), offering work rights for 2–4 years depending on qualification and location.

PR Pathways via:

General Skilled Migration (GSM)

Employer-Sponsored Visas

Regional Migration Programs

How Eduvisor Can Help You Study in Australia

Navigating the Australian education system, choosing the right course, and applying for visas can be overwhelming. That’s where Eduvisor, a trusted study abroad consultant in India, steps in. Eduvisor offers personalized counseling, university shortlisting, scholarship assistance, SOP writing, and complete visa support — tailored for Indian students planning to study in Australia.

Final Thoughts

Choosing a high-ROI course in Australia is more than just picking a subject — it’s about aligning your passion with global trends. With the right guidance and planning, Australia can be your gateway to a successful international career. Use this study guide in Australia for Indian students as your blueprint for 2025 and beyond.

Ready to begin your journey? Let Eduvisor turn your study abroad dream into reality.

FAQs

Q1. What are the most affordable courses to study in Australia? A: Vocational Education & Training (VET) courses, TAFE programs, and regional university degrees are often more budget-friendly.

Q2. Is PR easy after studying in Australia? A: Courses on the SOL and MLTSSL lists (like IT, Nursing, Engineering) make it easier to qualify for PR.

Q3. How do I find scholarships to study in Australia? A: Government sites, university portals, and expert consultants like Eduvisor can help you explore scholarships based on merit, need, and region.

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1americanconservative · 2 months ago

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🇺🇸🇺🇸🇺🇸 WINNING BIGLY!!! 🇺🇸🇺🇸🇺🇸 Nvidia has announced plans to build AI supercomputers in Texas and invest up to $500 billion in AI production within the United States.

Barron’s reports that AI powerhouse Nvidia has commissioned over a million square feet of manufacturing space in Arizona and Texas to build and test its Blackwell chips and AI supercomputers. This marks the first time that Nvidia will be producing its cutting-edge AI technology entirely within the United States.

Nvidia’s Blackwell chips have already started production at TSMC’s chip plants in Phoenix, Arizona. Meanwhile, the company is constructing supercomputer manufacturing plants in partnership with Foxconn in Houston and Wistron in Dallas. Mass production at these facilities is expected to ramp up within the next 12-15 months.

The manufacturing of Nvidia’s AI chips and supercomputers for American AI factories is projected to generate hundreds of thousands of jobs and drive trillions of dollars in economic security in the decades ahead. Nvidia founder and CEO Jensen Huang stated, “The engines of the world’s AI infrastructure are being built in the United States for the first time. Adding American manufacturing helps us better meet the incredible and growing demand for AI chips and supercomputers, strengthens our supply chain and boosts our resiliency.”

The AI chip and supercomputer supply chain is highly complex, requiring the most advanced manufacturing, packaging, assembly, and testing technologies. To support this endeavor, Nvidia is collaborating with Amkor and SPIL for packaging and testing operations in Arizona.

Over the next four years, Nvidia plans to produce up to half a trillion dollars worth of AI infrastructure in the United States through its partnerships with TSMC, Foxconn, Wistron, Amkor, and SPIL. These industry-leading companies are deepening their ties with the most powerful company in the AI space, expanding their global footprint while strengthening supply chain resilience.

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govindhtech · 2 months ago

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Google Cloud’s BigQuery Autonomous Data To AI Platform

BigQuery automates data analysis, transformation, and insight generation using AI. AI and natural language interaction simplify difficult operations.

The fast-paced world needs data access and a real-time data activation flywheel. Artificial intelligence that integrates directly into the data environment and works with intelligent agents is emerging. These catalysts open doors and enable self-directed, rapid action, which is vital for success. This flywheel uses Google's Data & AI Cloud to activate data in real time. BigQuery has five times more organisations than the two leading cloud providers that just offer data science and data warehousing solutions due to this emphasis.

Examples of top companies:

With BigQuery, Radisson Hotel Group enhanced campaign productivity by 50% and revenue by over 20% by fine-tuning the Gemini model.

By connecting over 170 data sources with BigQuery, Gordon Food Service established a scalable, modern, AI-ready data architecture. This improved real-time response to critical business demands, enabled complete analytics, boosted client usage of their ordering systems, and offered staff rapid insights while cutting costs and boosting market share.

J.B. Hunt is revolutionising logistics for shippers and carriers by integrating Databricks into BigQuery.

General Mills saves over $100 million using BigQuery and Vertex AI to give workers secure access to LLMs for structured and unstructured data searches.

Google Cloud is unveiling many new features with its autonomous data to AI platform powered by BigQuery and Looker, a unified, trustworthy, and conversational BI platform:

New assistive and agentic experiences based on your trusted data and available through BigQuery and Looker will make data scientists, data engineers, analysts, and business users' jobs simpler and faster.

Advanced analytics and data science acceleration: Along with seamless integration with real-time and open-source technologies, BigQuery AI-assisted notebooks improve data science workflows and BigQuery AI Query Engine provides fresh insights.

Autonomous data foundation: BigQuery can collect, manage, and orchestrate any data with its new autonomous features, which include native support for unstructured data processing and open data formats like Iceberg.

Look at each change in detail.

User-specific agents

It believes everyone should have AI. BigQuery and Looker made AI-powered helpful experiences generally available, but Google Cloud now offers specialised agents for all data chores, such as:

Data engineering agents integrated with BigQuery pipelines help create data pipelines, convert and enhance data, discover anomalies, and automate metadata development. These agents provide trustworthy data and replace time-consuming and repetitive tasks, enhancing data team productivity. Data engineers traditionally spend hours cleaning, processing, and confirming data.

The data science agent in Google's Colab notebook enables model development at every step. Scalable training, intelligent model selection, automated feature engineering, and faster iteration are possible. This agent lets data science teams focus on complex methods rather than data and infrastructure.

Looker conversational analytics lets everyone utilise natural language with data. Expanded capabilities provided with DeepMind let all users understand the agent's actions and easily resolve misconceptions by undertaking advanced analysis and explaining its logic. Looker's semantic layer boosts accuracy by two-thirds. The agent understands business language like “revenue” and “segments” and can compute metrics in real time, ensuring trustworthy, accurate, and relevant results. An API for conversational analytics is also being introduced to help developers integrate it into processes and apps.

In the BigQuery autonomous data to AI platform, Google Cloud introduced the BigQuery knowledge engine to power assistive and agentic experiences. It models data associations, suggests business vocabulary words, and creates metadata instantaneously using Gemini's table descriptions, query histories, and schema connections. This knowledge engine grounds AI and agents in business context, enabling semantic search across BigQuery and AI-powered data insights.

All customers may access Gemini-powered agentic and assistive experiences in BigQuery and Looker without add-ons in the existing price model tiers!

Accelerating data science and advanced analytics

BigQuery autonomous data to AI platform is revolutionising data science and analytics by enabling new AI-driven data science experiences and engines to manage complex data and provide real-time analytics.

First, AI improves BigQuery notebooks. It adds intelligent SQL cells to your notebook that can merge data sources, comprehend data context, and make code-writing suggestions. It also uses native exploratory analysis and visualisation capabilities for data exploration and peer collaboration. Data scientists can also schedule analyses and update insights. Google Cloud also lets you construct laptop-driven, dynamic, user-friendly, interactive data apps to share insights across the organisation.

This enhanced notebook experience is complemented by the BigQuery AI query engine for AI-driven analytics. This engine lets data scientists easily manage organised and unstructured data and add real-world context—not simply retrieve it. BigQuery AI co-processes SQL and Gemini, adding runtime verbal comprehension, reasoning skills, and real-world knowledge. Their new engine processes unstructured photographs and matches them to your product catalogue. This engine supports several use cases, including model enhancement, sophisticated segmentation, and new insights.

Additionally, it provides users with the most cloud-optimized open-source environment. Google Cloud for Apache Kafka enables real-time data pipelines for event sourcing, model scoring, communications, and analytics in BigQuery for serverless Apache Spark execution. Customers have almost doubled their serverless Spark use in the last year, and Google Cloud has upgraded this engine to handle data 2.7 times faster.

BigQuery lets data scientists utilise SQL, Spark, or foundation models on Google's serverless and scalable architecture to innovate faster without the challenges of traditional infrastructure.

An independent data foundation throughout data lifetime

An independent data foundation created for modern data complexity supports its advanced analytics engines and specialised agents. BigQuery is transforming the environment by making unstructured data first-class citizens. New platform features, such as orchestration for a variety of data workloads, autonomous and invisible governance, and open formats for flexibility, ensure that your data is always ready for data science or artificial intelligence issues. It does this while giving the best cost and decreasing operational overhead.

For many companies, unstructured data is their biggest untapped potential. Even while structured data provides analytical avenues, unique ideas in text, audio, video, and photographs are often underutilised and discovered in siloed systems. BigQuery instantly tackles this issue by making unstructured data a first-class citizen using multimodal tables (preview), which integrate structured data with rich, complex data types for unified querying and storage.

Google Cloud's expanded BigQuery governance enables data stewards and professionals a single perspective to manage discovery, classification, curation, quality, usage, and sharing, including automatic cataloguing and metadata production, to efficiently manage this large data estate. BigQuery continuous queries use SQL to analyse and act on streaming data regardless of format, ensuring timely insights from all your data streams.

Customers utilise Google's AI models in BigQuery for multimodal analysis 16 times more than last year, driven by advanced support for structured and unstructured multimodal data. BigQuery with Vertex AI are 8–16 times cheaper than independent data warehouse and AI solutions.

Google Cloud maintains open ecology. BigQuery tables for Apache Iceberg combine BigQuery's performance and integrated capabilities with the flexibility of an open data lakehouse to link Iceberg data to SQL, Spark, AI, and third-party engines in an open and interoperable fashion. This service provides adaptive and autonomous table management, high-performance streaming, auto-AI-generated insights, practically infinite serverless scalability, and improved governance. Cloud storage enables fail-safe features and centralised fine-grained access control management in their managed solution.

Finaly, AI platform autonomous data optimises. Scaling resources, managing workloads, and ensuring cost-effectiveness are its competencies. The new BigQuery spend commit unifies spending throughout BigQuery platform and allows flexibility in shifting spend across streaming, governance, data processing engines, and more, making purchase easier.

Start your data and AI adventure with BigQuery data migration. Google Cloud wants to know how you innovate with data.

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