Data Science is the Career of the Future because it offers exciting opportunities to analyze complex data, gain valuable insights, and make data-driven decisions. BML Munjal University's program provides comprehensive training in data science, preparing students for in-demand roles in various industries. For more information, please visit the university's official blog.

Your Guide to B.Tech in Computer Science & Engineering Colleges

In today's technology-driven world, pursuing a B.Tech in Computer Science and Engineering (CSE) has become a popular choice among students aspiring for a bright future. The demand for skilled professionals in areas like Artificial Intelligence, Machine Learning, Data Science, and Cloud Computing has made computer science engineering colleges crucial in shaping tomorrow's innovators. Saraswati College of Engineering (SCOE), a leader in engineering education, provides students with a perfect platform to build a successful career in this evolving field.

Whether you're passionate about coding, software development, or the latest advancements in AI, pursuing a B.Tech in Computer Science and Engineering at SCOE can open doors to endless opportunities.

Why Choose B.Tech in Computer Science and Engineering?

Choosing a B.Tech in Computer Science and Engineering isn't just about learning to code; it's about mastering problem-solving, logical thinking, and the ability to work with cutting-edge technologies. The course offers a robust foundation that combines theoretical knowledge with practical skills, enabling students to excel in the tech industry.

At SCOE, the computer science engineering courses are designed to meet industry standards and keep up with the rapidly evolving tech landscape. With its AICTE Approved, NAAC Accredited With Grade-"A+" credentials, the college provides quality education in a nurturing environment. SCOE's curriculum goes beyond textbooks, focusing on hands-on learning through projects, labs, workshops, and internships. This approach ensures that students graduate not only with a degree but with the skills needed to thrive in their careers.

The Role of Computer Science Engineering Colleges in Career Development

The role of computer science engineering colleges like SCOE is not limited to classroom teaching. These institutions play a crucial role in shaping students' futures by providing the necessary infrastructure, faculty expertise, and placement opportunities. SCOE, established in 2004, is recognized as one of the top engineering colleges in Navi Mumbai. It boasts a strong placement record, with companies like Goldman Sachs, Cisco, and Microsoft offering lucrative job opportunities to its graduates.

The computer science engineering courses at SCOE are structured to provide a blend of technical and soft skills. From the basics of computer programming to advanced topics like Artificial Intelligence and Data Science, students at SCOE are trained to be industry-ready. The faculty at SCOE comprises experienced professionals who not only impart theoretical knowledge but also mentor students for real-world challenges.

Highlights of the B.Tech in Computer Science and Engineering Program at SCOE

Comprehensive Curriculum: The B.Tech in Computer Science and Engineering program at SCOE covers all major areas, including programming languages, algorithms, data structures, computer networks, operating systems, AI, and Machine Learning. This ensures that students receive a well-rounded education, preparing them for various roles in the tech industry.

Industry-Relevant Learning: SCOE’s focus is on creating professionals who can immediately contribute to the tech industry. The college regularly collaborates with industry leaders to update its curriculum, ensuring students learn the latest technologies and trends in computer science engineering.

State-of-the-Art Infrastructure: SCOE is equipped with modern laboratories, computer centers, and research facilities, providing students with the tools they need to gain practical experience. The institution’s infrastructure fosters innovation, helping students work on cutting-edge projects and ideas during their B.Tech in Computer Science and Engineering.

Practical Exposure: One of the key benefits of studying at SCOE is the emphasis on practical learning. Students participate in hands-on projects, internships, and industry visits, giving them real-world exposure to how technology is applied in various sectors.

Placement Support: SCOE has a dedicated placement cell that works tirelessly to ensure students secure internships and job offers from top companies. The B.Tech in Computer Science and Engineering program boasts a strong placement record, with top tech companies visiting the campus every year. The highest on-campus placement offer for the academic year 2022-23 was an impressive 22 LPA from Goldman Sachs, reflecting the college’s commitment to student success.

Personal Growth: Beyond academics, SCOE encourages students to participate in extracurricular activities, coding competitions, and tech fests. These activities enhance their learning experience, promote teamwork, and help students build a well-rounded personality that is essential in today’s competitive job market.

What Makes SCOE Stand Out?

With so many computer science engineering colleges to choose from, why should you consider SCOE for your B.Tech in Computer Science and Engineering? Here are a few factors that make SCOE a top choice for students:

Experienced Faculty: SCOE prides itself on having a team of highly qualified and experienced faculty members. The faculty’s approach to teaching is both theoretical and practical, ensuring students are equipped to tackle real-world challenges.

Strong Industry Connections: The college maintains strong relationships with leading tech companies, ensuring that students have access to internship opportunities and campus recruitment drives. This gives SCOE graduates a competitive edge in the job market.

Holistic Development: SCOE believes in the holistic development of students. In addition to academic learning, the college offers opportunities for personal growth through various student clubs, sports activities, and cultural events.

Supportive Learning Environment: SCOE provides a nurturing environment where students can focus on their academic and personal growth. The campus is equipped with modern facilities, including spacious classrooms, labs, a library, and a recreation center.

Career Opportunities After B.Tech in Computer Science and Engineering from SCOE

Graduates with a B.Tech in Computer Science and Engineering from SCOE are well-prepared to take on various roles in the tech industry. Some of the most common career paths for CSE graduates include:

Software Engineer: Developing software applications, web development, and mobile app development are some of the key responsibilities of software engineers. This role requires strong programming skills and a deep understanding of software design.

Data Scientist: With the rise of big data, data scientists are in high demand. CSE graduates with knowledge of data science can work on data analysis, machine learning models, and predictive analytics.

AI Engineer: Artificial Intelligence is revolutionizing various industries, and AI engineers are at the forefront of this change. SCOE’s curriculum includes AI and Machine Learning, preparing students for roles in this cutting-edge field.

System Administrator: Maintaining and managing computer systems and networks is a crucial role in any organization. CSE graduates can work as system administrators, ensuring the smooth functioning of IT infrastructure.

Cybersecurity Specialist: With the growing threat of cyberattacks, cybersecurity specialists are essential in protecting an organization’s digital assets. CSE graduates can pursue careers in cybersecurity, safeguarding sensitive information from hackers.

Conclusion: Why B.Tech in Computer Science and Engineering at SCOE is the Right Choice

Choosing the right college is crucial for a successful career in B.Tech in Computer Science and Engineering. Saraswati College of Engineering (SCOE) stands out as one of the best computer science engineering colleges in Navi Mumbai. With its industry-aligned curriculum, state-of-the-art infrastructure, and excellent placement record, SCOE offers students the perfect environment to build a successful career in computer science.

Whether you're interested in AI, data science, software development, or any other field in computer science, SCOE provides the knowledge, skills, and opportunities you need to succeed. With a strong focus on hands-on learning and personal growth, SCOE ensures that students graduate not only as engineers but as professionals ready to take on the challenges of the tech world.

If you're ready to embark on an exciting journey in the world of technology, consider pursuing your B.Tech in Computer Science and Engineering at SCOE—a college where your future takes shape.

BTech CSE: Your Gateway to High-Demand Tech Careers

Apply now for admission and avail the Early Bird Offer

In the digital age, a BTech in Computer Science & Engineering (CSE) is one of the most sought-after degrees, offering unmatched career opportunities across industries. From software development to artificial intelligence, the possibilities are endless for CSE graduates.

Top Job Opportunities for BTech CSE Graduates

Software Developer: Design and develop innovative applications and systems.

Data Scientist: Analyze big data to drive business decisions.

Cybersecurity Analyst: Safeguard organizations from digital threats.

AI/ML Engineer: Lead the way in artificial intelligence and machine learning.

Cloud Architect: Build and maintain cloud-based infrastructure for global organizations.

Why Choose Brainware University for BTech CSE?

Brainware University provides a cutting-edge curriculum, hands-on training, and access to industry-leading tools. Our dedicated placement cell ensures you’re job-ready, connecting you with top recruiters in tech.

👉 Early Bird Offer: Don’t wait! Enroll now and take the first step toward a high-paying, future-ready career in CSE.

Your journey to becoming a tech leader starts here!

Ho bisogno del vostro aiuto, quindi vi chiedo un cortese reblog, e se volete, aiutarmi su altre piattaforme al di fuori di Tumblr, dove ve pare, tutto il materiale riportato qui è pubblico. Please, I need your help to "spread the word", so thank you in advance for your kind reblog, even on other platforms, you can share with no restrictions.

Hi,

SAP, my company, is searching for students that are willing to get a Bachelor in Computer Science, called VT/STAR, Vocational Training. I'm adding here all the details and the links, but let me recap why it's a great thing for you.

The Bachelor is a 3-years program and you get paid while you study!!! First year, 1.300 EUR per month, then 1.450, and finally 1.600 EUR.

You have full access to all SAP facilities in the Campus, like the canteen, the sport gym and many other social places, with no costs on your side.

The Vocational Program is intended to hire young people, so once you complete your Bachelor, you pass the exams, the chances are quite high to be hired in SAP and start your career there.

The whole program is paid 100% by SAP. In detail:

this is not for German students, this is for any EU non-German student that is willing to start a Bachelor program intended to hire a future developer/data scientist/AI expert. For any EU citizen, this Bachelor program has no costs on your side, you just come and start.

for any non-EU citizen, you're charged for a one-time-only 1.500 EUR entry fee, and that's it.

Just to be transparent, the company does not cover any costs due to the relocation to Walldorf, Germany, those are on you.

The Bachelor start on September, 1st, every year, you need to go through an interview and pass an entry test, there's no deadline for your application, but if you apply once the program has already started and you pass it, you'll be in the line for the next year automatically.

You can read all the details in the link below, I'm just rephrasing two of the points you'll read there.

Excellent written and spoken English => no, you just need the English required to study a STEM discipline, we don't need any future Shakespeare, you don't need to bring any English certification, you'll prove your knowledge at the interview, that's it. No German language is required!

Programming skills in at least one programming language => you don't need to be a senior, you don't need to be an expert, you just need to have some basic knowledge about what coding means, what is OOP, and some other basic computer programming concepts. If you have ever written a simple program on your own, I mean, something on the educational level, chances are that you can fit the program.

Here you can find all the information you need:

And here you can apply for it:

In case you need any other detail or you have more questions, please write me a message.

Good luck! :)

Excerpt from this Conservation Works blog on Substack:

Michael Soulé, the founder of conservation biology, used to say that one of the most important pieces of advice he got as a young scientist was “when in doubt, count.” Monitoring — counting or otherwise measuring organisms in the same place over time — is the foundation of conservation biology, and in many ways it’s the foundation of conservation, too. Unless someone counts how many lizards, salmon, ferns, or species of butterflies live in a certain place, and repeats the count at regular intervals, that group of organisms can decline or even die out unnoticed. Before an organism can be conserved, it has to be counted.

But what’s the point of counting organisms that seem doomed to extinction? That’s the question tropical biologist Peter Edmunds addresses in a recent BioScience essay titled “Why keep monitoring coral reefs?”

For nearly four decades, Edmunds has been monitoring coral reefs at two locations in the U.S. Virgin Islands, using annual photographs to measure changes in the relative extent of coral and algae. He started the project in 1987, less than a year before the first known Caribbean-wide coral bleaching event; since then, coral extent at one of his sites has shrunk by 92 percent and at the other by 52 percent. Both reefs used to be dominated by boulder star coral, a large, stony species that provides structure to Caribbean reefs and protects the region’s coastlines from erosion. Now, they are dominated by fast-growing “weedy” corals and algae. Given that climate change continues to drive up water temperatures and increase the frequency and intensity of hurricanes, writes Edmunds, “the prospects for community recovery are bleak.”

Yet he argues that monitoring matters, and will continue to matter. The series of photographs Edmunds and his colleagues have accumulated, for instance, suggests that acute disturbances such as hurricanes and major bleaching events cause less damage over time than the everyday stress of rising water temperatures. Moreover, as he writes drily, “the past is an imperfect predictor of the future, ensuring that old data can never fully take the place of new information.” Even a grievously altered system such as the Virgin Islands reefs will continue to change in different ways for different reasons, and understanding those changes will be essential to protecting the life that persists — both at sea and on land.

I was reminded of Edmunds’ argument earlier this month, when I attended the Greater Yellowstone Ecosystem Biennial Scientific Conference, held this year in Big Sky, Montana. One of the speakers was Tom Olliff, an ecologist who, like Edmunds, has dedicated himself to one ecosystem: he spent 32 years living and working in Yellowstone National Park, eventually directing its Science and Resource Management Division.

Olliff noted the remarkable changes in and around Yellowstone during the course of his career, including the reintroduction of wolves, the recovery of grizzly bears, the boom in visitor numbers, and the excruciating and still-growing development pressure on private lands. He called on his listeners, who included many colleagues and friends, to undertake “audacious acts of conservation,” projects that take a long time to realize and may face determined opposition.

Olliff named some headline-grabbing audacious acts, like wolf reintroduction and dam removal. But he ended his talk with a quieter example. In his current position as a regional research manager for the National Park Service, he has been working with wildlife biologist Don Swann on the long-term monitoring of saguaro cacti in the Sonoran Desert of Arizona and Mexico. Though adult saguaros are still common, young saguaros are struggling to survive as temperatures rise. How long should scientists plan to monitor the population? Four decades from now, a report on the saguaro population might be as grim as Edmunds’ assessment of the Virgin Islands reefs.

Business as an undergraduate degree

I'm a double major student doing both Chinese and Business, but I rarely if ever post about the business side of my degree so I decided to share my experience which could be interesting or useful to anyone pondering doing a business related degree.

An undergrad "business" degree comes in various forms. There's the usual Business Studies/Management/Administration, but there are also more specialized degrees such as Accounting, Marketing, Finance which can be taken with business e.g. Business and Finance BA, or just on their own e.g. BSc Accounting. There are also other non-business combos such as law, languages, science subjects and even medicine.

A business course usually covers a wide range of modules relating to business so you can pick different units e.g. accounting, investing, coporate finance, spanish business, business law modules, which can give you a more rounded background.

However, the fact that it doesn't exactly focus on just one area can make it too broad and general, which in terms of future career perspectives is concerning. That's why many of my coursemates have a dual degree or a specialization as while a general business degree does cover a lot, it still remains too general e.g. Business and Economics, or Business and Finance. Then again, some accounting students are concerned that the market is too saturated and that the use of AI may affect their future career prospects, so who even knows how things will play out?

Focusing on developing specific hard skills such as SQL, SEO, securing internships and gaining experience, taking extra courses or projects to showcase your skills is something a lot of my peers do and not just within my business cohort. Currently a lot of firms place a heavy emphasis on experience (the "entry" level jobs for grads asking for 2-5 years of experience are just maddening), so you can have first years scrambling for internships and applying and networking from day 1.

Quite a lot of my coursemates are planning on doing a masters in a more specialized area e.g. Marketing, Finance, Data Analysis to become more specialized immediately after graduation but honestly? I am all for further education and continously learning and developing yourself, but the fact that many degrees just aren't sufficient or competitive enough for an entry-level job anymore is genuinely concerning.

The takeaway? If you're going to study business, then I recommend doing a dual degree or Business plus a specialization. My personal experience is limited to europe, but having a solid amount of skills in general, is a good thing.

Python for Beginners: Launch Your Tech Career with Coding Skills

Are you ready to launch your tech career but don’t know where to start? Learning Python is one of the best ways to break into the world of technology—even if you have zero coding experience.

In this guide, we’ll explore how Python for beginners can be your gateway to a rewarding career in software development, data science, automation, and more.

Why Python Is the Perfect Language for Beginners

Python has become the go-to programming language for beginners and professionals alike—and for good reason:

Simple syntax: Python reads like plain English, making it easy to learn.

High demand: Industries spanning the spectrum are actively seeking Python developers to fuel their technological advancements.

Versatile applications: Python's versatility shines as it powers everything from crafting websites to driving artificial intelligence and dissecting data.

Whether you want to become a software developer, data analyst, or AI engineer, Python lays the foundation.

What Can You Do With Python?

Python is not just a beginner language—it’s a career-building tool. Here are just a few career paths where Python is essential:

Web Development: Frameworks like Django and Flask make it easy to build powerful web applications. You can even enroll in a Python Course in Kochi to gain hands-on experience with real-world web projects.

Data Science & Analytics: For professionals tackling data analysis and visualization, the Python ecosystem, featuring powerhouses like Pandas, NumPy, and Matplotlib, sets the benchmark.

Machine Learning & AI: Spearheading advancements in artificial intelligence development, Python boasts powerful tools such as TensorFlow and scikit-learn.

Automation & Scripting: Simple yet effective Python scripts offer a pathway to amplified efficiency by automating routine workflows.

Cybersecurity & Networking: The application of Python is expanding into crucial domains such as ethical hacking, penetration testing, and the automation of network processes.

How to Get Started with Python

Starting your Python journey doesn't require a computer science degree. Success hinges on a focused commitment combined with a thoughtfully structured educational approach.

Step 1: Install Python

Download and install Python from python.org. It's free and available for all platforms.

Step 2: Choose an IDE

Use beginner-friendly tools like Thonny, PyCharm, or VS Code to write your code.

Step 3: Learn the Basics

Focus on:

Variables and data types

Conditional statements

Loops

Functions

Lists and dictionaries

If you prefer guided learning, a reputable Python Institute in Kochi can offer structured programs and mentorship to help you grasp core concepts efficiently.

Step 4: Build Projects

Learning by doing is key. Start small:

Build a calculator

Automate file organization

Create a to-do list app

As your skills grow, you can tackle more complex projects like data dashboards or web apps.

How Python Skills Can Boost Your Career

Adding Python to your resume instantly opens up new opportunities. Here's how it helps:

Higher employability: Python is one of the top 3 most in-demand programming languages.

Better salaries: Python developers earn competitive salaries across the globe.

Remote job opportunities: Many Python-related jobs are available remotely, offering flexibility.

Even if you're not aiming to be a full-time developer, Python skills can enhance careers in marketing, finance, research, and product management.

If you're serious about starting a career in tech, learning Python is the smartest first step you can take. It’s beginner-friendly, powerful, and widely used across industries.

Whether you're a student, job switcher, or just curious about programming, Python for beginners can unlock countless career opportunities. Invest time in learning today—and start building the future you want in tech.

Globally recognized as a premier educational hub, DataMites Institute delivers in-depth training programs across the pivotal fields of data science, artificial intelligence, and machine learning. They provide expert-led courses designed for both beginners and professionals aiming to boost their careers.

Python Modules Explained - Different Types and Functions - Python Tutorial

News of the Day 6/11/25: AI

Paywall free.

More seriously, from the NY Times:

"For Some Recent Graduates, the A.I. Job Apocalypse May Already Be Here" (Paywall Free)

You can see hints of this in the economic data. Unemployment for recent college graduates has jumped to an unusually high 5.8 percent in recent months, and the Federal Reserve Bank of New York recently warned that the employment situation for these workers had “deteriorated noticeably.” Oxford Economics, a research firm that studies labor markets, found that unemployment for recent graduates was heavily concentrated in technical fields like finance and computer science, where A.I. has made faster gains. [...] Using A.I. to automate white-collar jobs has been a dream among executives for years. (I heard them fantasizing about it in Davos back in 2019.) But until recently, the technology simply wasn’t good enough. You could use A.I. to automate some routine back-office tasks — and many companies did — but when it came to the more complex and technical parts of many jobs, A.I. couldn’t hold a candle to humans. That is starting to change, especially in fields, such as software engineering, where there are clear markers of success and failure. (Such as: Does the code work or not?) In these fields, A.I. systems can be trained using a trial-and-error process known as reinforcement learning to perform complex sequences of actions on their own. Eventually, they can become competent at carrying out tasks that would take human workers hours or days to complete.

I've been hearing my whole life how automation was coming for all our jobs. First it was giant robots replacing big burly men on factory assembly lines. Now it seems to be increasingly sophisticated bits of code coming after paper-movers like me. I'm not sure we're there yet, quite, but the NYT piece does make a compelling argument that we're getting close.

The real question is, why is this a bad thing? And the obvious answer is people need to support themselves, and every job cut is one less person who can do that. But what I really mean is, if we can get the outputs we need to live well with one less person having to put in a day's work to get there, what does it say about us that we haven't worked out a way to make that a good thing?

Put another way, how come we haven't worked out a better way to share resources and get everyone what they need to thrive when we honestly don't need as much labor-hours for them to "earn" it as we once did?

I don't have the solution, but if some enterprising progressive politician wants to get on that, they could do worse. I keep hearing how Democrats need bold new ideas directed to helping the working class.

More on the Coming AI-Job-Pocalypse

I’m a LinkedIn Executive. I See the Bottom Rung of the Career Ladder Breaking. (X)

Paul Krugman: “What Deindustrialization Can Teach Us About The Effects of AI on Workers” (X)

How AI agents are transforming work—and why human talent still matters (X)

AI agents will do programmers' grunt work (X)

At Amazon, Some Coders Say Their Jobs Have Begun to Resemble Warehouse Work (X)

Why Esther Perel is going all in on saving the American workforce in the age of AI

Junior analysts, beware: Your coveted and cushy entry-level Wall Street jobs may soon be eliminated by AI (X)

The biggest barrier to AI adoption in the business world isn’t tech – it’s user confidence  (X)

Experts predicted that artificial intelligence would steal radiology jobs. But at the Mayo Clinic, the technology has been more friend than foe. (X)

AI Will Devastate the Future of Work. But Only If We Let It (X)

AI in the workplace is nearly 3 times more likely to take a woman’s job as a man’s, UN report finds (X)

Klarna CEO predicts AI-driven job displacement will cause a recession (X)

& on AI Generally

19th-century Catholic teachings, 21st-century tech: How concerns about AI guided Pope Leo’s choice of name (X)

Will the Humanities Survive Artificial Intelligence? (X)

Two Paths for A.I. (X)

The Danger of Outsourcing Our Brains: Counting on AI to learn for us makes humans boring, awkward, and gullible. (X)

AI Is a Weapon Pointed at America. Our Best Defense Is Education. (X)

The Trump administration has asked artificial intelligence publishers to rebalance what it considers to be 'ideological bias' around actions like protecting minorities and banning hateful content. (X)

What is Google even for anymore? (X)

AI can spontaneously develop human-like communication, study finds

AI Didn’t Invent Desire, But It’s Rewiring Human Sex And Intimacy (X)

Mark Zuckerberg Wants AI to Solve America’s Loneliness Crisis. It Won’t. (X)

The growing environmental impact of AI data centers’ energy demands

Tesla Is Launching Robotaxis in Austin. Safety Advocates Are Concerned (X)

The One Big Beautiful Bill Act would ban states from regulating AI (X)

& on the Job-Pocalypse & Other Labor-Related Shenanigans Generally, Too

What Unions Face With Trump EOs (X)

AI may be exposing jobseekers to discrimination. Here’s how we could better protect them (X)

Jamie Dimon says he’s not against remote workers—but they ‘will not tell JPMorgan what to do’  (X)

Direct-selling schemes are considered fringe businesses, but their values have bled into the national economy. (X)

Are you "functionally unemployed"? Here's what the unemployment rate doesn't show. (X)

Being monitored at work? A new report calls for tougher workplace surveillance controls  (X)

Josh Hawley and the Republican Effort to Love Labor (X)

Karl Marx’s American Boom (X)

Hiring slows in U.S. amid uncertainty over Trump’s trade wars

Vanishing immigration is the ‘real story’ for the economy and a bigger supply shock than tariffs, analyst says (X)

Why Actuarial Science Is One of the Most In-Demand Careers in Finance

In today’s world of financial uncertainty, rising risks, and complex markets, businesses are constantly searching for professionals who can help them manage risk, forecast outcomes, and make informed decisions. This is where actuaries come in. Actuarial Science is one of the fastest-growing and most respected careers in finance.

If you enjoy mathematics, statistics, and analytical problem-solving, and are considering a career in finance, then a B.Sc in Actuarial Science might be the perfect path for you. Here's why this field is gaining so much popularity and why students are actively looking for the best B.Sc Actuarial Science colleges in India.

What is Actuarial Science?

Actuarial Science is a discipline that applies mathematics, probability, statistics, and financial theory to study uncertain future events, particularly in the areas of insurance, pensions, finance, and investments.

Actuaries use data to estimate the financial impact of risk and help organisations plan for the future. They assess everything from life insurance premiums to investment strategies and corporate risk management.

Why demand for actuaries is rising

Increasing need for risk management

In today's financial environment, companies face risks from market changes, natural disasters, economic shifts, and even pandemics. Actuaries help businesses prepare for such risks by offering data-driven strategies.

Growing insurance and finance sectors

With the rise of health insurance, life insurance, and pension plans in India, there is a growing demand for professionals who can manage large data sets and calculate risk accurately. Actuarial Science plays a key role in these areas.

A global shortage of professionals

Actuaries are in short supply not just in India but around the world. This makes qualified professionals highly sought after in countries like the United States, the UK, Canada, and Australia.

Benefits of choosing actuarial science as a career

High earning potential: Actuaries are among the best-paid professionals in finance. Salaries rise significantly with experience and certifications.

Job security: The field is highly specialised, making actuaries valuable to companies.

Diverse industry options: You can work in insurance, banking, consulting, government, healthcare, and investment firms.

Global recognition: Actuarial qualifications are accepted worldwide, offering great international mobility.

Challenging and rewarding work: Every day brings new problems to solve, making the work intellectually stimulating and meaningful.

Skills you will develop during your degree

A B.Sc in Actuarial Science equips students with both technical and practical skills, including:

Mathematical modelling and statistical analysis

Risk assessment and financial planning

Business forecasting and trend analysis

Use of software tools such as Excel, R, and Python

Understanding of insurance products and investment strategies

These skills prepare students for actuarial exams and roles in the real world.

Importance of choosing the right college

To succeed in this career, it is important to study at one of the leading B.Sc Actuarial Science colleges in India. A good college will offer:

Strong academic curriculum aligned with actuarial bodies like IAI or IFoA

Faculty with real-world experience

Support for actuarial exam preparation

Internship and placement opportunities

Access to actuarial software and data analytics tools

Choosing the right institution ensures that students receive the guidance and exposure needed to launch a successful career.

Why DY Patil University is a smart choice

If you are planning to pursue a B.Sc in Actuarial Science, DY Patil University, Navi Mumbai, offers a well-structured program that prepares students for the actuarial profession with a balance of academic learning and practical experience.

Highlights include:

Faculty with industry and academic expertise

Training for actuarial certification exams

Guest lectures by finance and insurance professionals

Internship support and placement guidance

Access to the latest financial and statistical tools

DY Patil University provides students with the environment and support needed to build a strong career in one of the most respected and rewarding fields in finance.

Final thoughts

Actuarial Science is not just about numbers. It is about making decisions that shape the future of businesses, families, and economies. As industries grow more data-driven and risk-aware, the need for skilled actuaries continues to rise.

If you are looking for a career that is analytical, impactful, and globally relevant, then studying at one of the top B.Sc Actuarial Science colleges in India like DY Patil University, Navi Mumbai, could be your perfect first step.

How AI is Changing Jobs: The Rise of Automation and How to Stay Ahead in 2025

AI and Jobs

Artificial Intelligence (AI) is everywhere. From self-checkout kiosks to AI-powered chatbots handling customer service, it’s changing the way businesses operate. While AI is making things faster and more efficient, it’s also making some jobs disappear. If you’re wondering how this affects you and what you can do about it, keep reading — because the future is already here.

The AI Boom: How It’s Reshaping the Workplace

AI is not just a buzzword anymore; it’s the backbone of modern business. Companies are using AI for automation, decision-making, and customer interactions. But what does that mean for jobs?

AI is Taking Over Repetitive Tasks

Gone are the days when data entry, basic accounting, and customer support relied solely on humans. AI tools like ChatGPT, Jasper, and Midjourney are doing tasks that once required an entire team. This means fewer jobs in these sectors, but also new opportunities elsewhere.

Companies are Hiring Fewer People

With AI handling routine work, businesses don’t need as many employees as before. Hiring freezes, downsizing, and increased automation are making it tougher to land a new job.

AI-Related Jobs are on the Rise

On the flip side, there’s massive demand for AI engineers, data scientists, and automation specialists. Companies need people who can build, maintain, and optimize AI tools.

Trending AI Skills Employers Want:

Machine Learning & Deep Learning

Prompt Engineering

AI-Powered Marketing & SEO

AI in Cybersecurity

Data Science & Analytics

Click Here to Know more

The Decline of Traditional Job Offers

AI is shaking up industries, and some job roles are disappearing faster than expected. Here’s why new job offers are on the decline:

AI-Driven Cost Cutting

Businesses are using AI to reduce operational costs. Instead of hiring new employees, they’re investing in AI-powered solutions that automate tasks at a fraction of the cost.

The Gig Economy is Replacing Full-Time Jobs

Instead of hiring full-time staff, companies are outsourcing work to freelancers and gig workers. This means fewer stable job opportunities but more chances for independent workers.

Economic Uncertainty

The global economy is unpredictable, and businesses are cautious about hiring. With AI improving efficiency, companies are choosing to scale down their workforce.

Click Here to Know more

Preparing for an AI-Driven Future

Feeling worried? Don’t be. AI isn’t just taking jobs — it’s also creating new ones. The key is to stay ahead by learning the right skills and adapting to the changing landscape.

1. Learn AI and Data Analytics

The best way to future-proof your career is to understand AI. Free courses on platforms like Coursera, Udemy, and Khan Academy can get you started.

2. Develop Soft Skills AI Can’t Replace

AI is great at automation, but it lacks emotional intelligence, creativity, and critical thinking. Strengthening these skills can give you an edge.

3. Embrace Remote & Freelance Work

With traditional jobs shrinking, freelancing is a great way to stay flexible. Sites like Upwork, Fiverr, and Toptal have booming demand for AI-related skills.

4. Use AI to Your Advantage

Instead of fearing AI, learn how to use it. AI-powered tools like ChatGPT, Jasper, and Canva can help boost productivity and creativity.

5. Never Stop Learning

Technology evolves fast. Stay updated with new AI trends, attend webinars, and keep improving your skills.

Click Here to Know more

Final Thoughts

AI is here to stay, and it’s changing the job market rapidly. While some traditional roles are disappearing, new opportunities are emerging. The key to surviving (and thriving) in this AI-driven world is adaptability. Keep learning, stay flexible, and embrace AI as a tool — not a threat.

Click Here to Know more

Share this blog if you found it helpful! Let’s spread awareness and help people prepare for the AI revolution.

Unlocking a Healthier Future: A Deep Dive into the Master of Public Health Course

In today’s rapidly evolving global health landscape, the Master of Public Health (MPH) course plays a pivotal role in shaping professionals who can lead systemic change. At SIHS (School of Integrated Health Sciences), the SIHS MPH has been meticulously crafted to equip students with extensive knowledge and practical skills necessary to tackle public health challenges across communities.

Why Choose the MPH at SIHS?

SIHS’s MPH program is designed with a multidisciplinary approach, ensuring that students gain expertise in epidemiology, biostatistics, health policy, environmental health, and health systems management. By accessing Master of Public Health Course, prospective students can explore the program's holistic curriculum highlighting both theoretical foundations and immersive fieldwork.

What sets this MPH course apart is its commitment to experiential learning. Through real-world projects, internships, and community outreach, students not only grasp public health concepts but also apply them in practical settings. This hands-on model cultivates essential leadership skills, data-driven analytical thinking, and adaptability qualities in high demand by governmental bodies, non-profits, healthcare agencies, and international organizations.

Curriculum Highlights

The structure of the Master of Public Health Course ensures a well-rounded education:

Core Foundations: Epidemiology, Biostatistics, Environmental Health, Social and Behavioral Sciences

Policy & Management: Health Policies, Program Planning, Health System Governance

Field Practicum: Community-based projects and internships

Capstone Project: Addressing a pressing public health issue with research-backed solutions

This meticulous blend empowers graduates to emerge as competent public health strategists with the capacity to innovate, plan, and implement sustainable health initiatives in diverse environments.

Career Pathways and Impact

Graduates from SIHS’s MPH program are fully prepared to step into roles such as Epidemiologists, Health Policy Analysts, Public Health Consultants, and Program Directors. Professionals who complete the MPH often take on leadership positions in health departments, NGOs, the World Health Organization, and research institutions.

The skills honed through Master of Public Health (MPH) extend far beyond professional success. MPH alumni carry forward a deep sense of social responsibility, equipped to battle health disparities, champion preventive care, and respond effectively to public health crises.

Student Support and Aspirations

SIHS fosters a supportive learning environment, offering mentorship from seasoned faculty, networking opportunities, career services, and access to cutting-edge research facilities. Students benefit from guidance tailored toward personal development and professional advancement, combining academic rigor with accessible support systems.

Final Thoughts

The Master of Public Health course at SIHS explore more at https://www.sihs.edu.in/master-of-public-health-course is more than a degree; it’s a gateway to meaningful change. For those driven by a vision of healthier communities and a stronger public health infrastructure, this MPH program is a transformative journey empowering learners to become leaders in the global quest for wellness and equity.

Embark on this life-changing academic venture and be a catalyst for positive health impact begin your MPH journey with SIHS today!

History of Astrology and Its Significance Today

Astrology has fascinated humans for thousands of years. What began as sky-watching by ancient civilizations has now evolved into a powerful tool for self-discovery, timing, and decision-making. But how did astrology begin? And why is it still so relevant in the modern world?

If you’re curious about astrology or want to know what the stars say about your life, you can now chat with astrologers from anywhere in the world. Platforms like AstroSevaTalk even offer free chat with astrologers so you can explore your birth chart with expert guidance.

The Origins of Astrology

Astrology dates back over 4,000 years. Its earliest roots are found in:

Mesopotamia (Babylonia) – The Babylonians were the first to track celestial movements and link them to seasonal changes and human events.

Ancient Egypt – Egyptians used astrology primarily for agricultural cycles and to align their temples with the stars.

Vedic India – One of the most sophisticated and enduring systems, Vedic astrology (Jyotish) was documented in sacred texts like the Rigveda.

By observing the sun, moon, and planets, these ancient cultures believed that cosmic patterns influenced events on Earth. They began charting planetary movements to predict eclipses, seasons, and even the fate of kings.

Astrology’s Evolution Over Time

Greek Influence: Hellenistic astrology around 2nd century BCE introduced the concept of zodiac signs and planetary rulerships.

Islamic and Medieval Europe: Astrology thrived in the Middle Ages, influencing medicine, alchemy, and philosophy.

Modern Times: From sun sign horoscopes in newspapers to personalized birth chart readings, astrology has moved from kings' courts to common households.

Today, astrology blends ancient techniques with modern tools, making it more accessible and user-friendly than ever.

Why Astrology Still Matters Today

Many dismiss astrology as superstition, yet millions still turn to the stars when facing tough decisions or life changes. Why?

🔮 Self-Understanding

Astrology reveals insights into your personality, desires, strengths, and challenges. Your natal chart (Kundli) is like a cosmic blueprint of your soul.

📅 Timing Life Events

Knowing the right time for marriage, business, travel, or property investment is critical. Astrologers use planetary transits and dashas to help you act when the stars are favorable.

❤️ Relationship Insights

Kundli matching helps couples understand compatibility, emotional needs, and karmic connections. Wondering if your love is meant to last? You can always talk with an astrologer to explore your relationship chart.

🧘 Spiritual Growth

Astrology is not just predictive—it’s reflective. It aligns you with cosmic rhythms, helping you evolve mentally, emotionally, and spiritually.

Astrology in the Digital Age

With technology, astrology has reached more people than ever before. No need to wait for an appointment or travel far. You can now chat with astrologer in real-time on your phone or computer.

Platforms like AstroSevaTalk provide 24x7 access to certified Vedic astrologers. Whether you're curious about your career, love life, health, or spiritual path, a free chat with an astrologer can give you clarity within minutes.

How Accurate Is Astrology?

Skeptics often ask if astrology is real. While it’s not a science in the modern academic sense, astrology is a time-tested observational system that’s worked for centuries. Its accuracy depends on the:

Quality of birth data

Skill of the astrologer

Depth of chart analysis

When done right, astrology offers remarkably accurate insights into your life and future.

Why Choose AstroSevaTalk?

🧑‍💼 Certified Vedic Astrologers – Deep knowledge of traditional Jyotish

💬 Free chat to start – Try without pressure or payment

🔐 Private & Secure – 100% confidentiality of your birth data

🌍 Global Access – Available 24/7, anywhere in the world

📞 Talk with astrologer – Voice and video consultations for deeper readings

Testimonials

“I was skeptical about astrology until I had a free chat with an astrologer on AstroSevaTalk. The insights were so accurate, it changed the way I looked at my career path.” – Sneha, Pune

“The astrologer not only explained my marriage delays but also gave remedies that actually worked. I highly recommend using the talk with astrologer feature for detailed guidance.” – Ravi, Delhi

Get Started in 3 Easy Steps

Go to AstroSevaTalk

Click on free chat with astrologer

Enter your birth details and ask your question

You can continue with talk with an astrologer if you want a detailed consultation and personalized remedies.

Final Words: Astrology Bridges the Past and Future

Astrology’s rich history proves that it's more than a passing trend. From ancient temples to modern apps, it continues to offer timeless wisdom. If you're seeking clarity, purpose, or direction, astrology can help guide your path.

Whether you're a beginner or a believer, you can explore your birth chart and life path with a free chat with an astrologer today. Don’t just wonder—chat with an astrologer and discover what the stars have to say about you.👉 Visit AstroSevaTalk now and talk with astrologer to connect your past, present, and future through the wisdom of astrology.

Why I Love Studying at Sabaragamuwa University

🌿 Hey Tumblr fam! I just wanted to take a moment to share something close to my heart — my experience at Sabaragamuwa University of Sri Lanka, a place that’s more than just classrooms and assignments. It's where I found peace, passion, and purpose. 💚

🌄 A Hidden Gem in the Hills

Imagine studying on a campus surrounded by misty hills, green forests, and natural waterfalls. Sounds dreamy, right? Well, that’s exactly what SUSL in Belihuloya feels like. The air is fresh, the environment is peaceful, and nature literally whispers encouragement while you study. 😌🍃

📌 Location: Belihuloya, Sri Lanka 🔗 Official Website of SUSL

💻 My Faculty: Computing

As a proud student of the Faculty of Computing, I can honestly say that SUSL is more than qualified when it comes to academic excellence. 💯

Our professors are not just knowledgeable—they actually care. We work on cool projects, explore real-world tech, and even get support for internships and future careers.

?

👩‍💻 Tech, Talent & Tenacity

You might be surprised, but SUSL is seriously catching up with the tech world.

Let me break it down for you—our Faculty of Computing is organized into three departments, and each one opens up different futures:

🖥️ Department of Computing and Information Systems (CIS)

A great fit if you're interested in IT infrastructure, system design, software, and business applications

You learn how tech supports and transforms businesses, governments, and society

🛠️ Department of Software Engineering (SE)

Perfect if you love to build software from the ground up

Focuses on software architecture, testing, DevOps, and full development lifecycles

📊 Department of Data Science (DS)

The department of the future! 🌐

Teaches you how to work with big data, machine learning, AI, statistics, and more

If you like solving puzzles with data, this is your world

No matter which path you choose, you’ll get:

Modern course content aligned with global tech trends

Hands-on labs and access to real tools (GitHub, Python, VS Code, cloud platforms, etc.)

Internships with leading IT companies

Final-year projects that are often built with startups or community needs in mind

Some of my seniors are now working at top companies, others are doing research abroad—that’s the kind of transformation this faculty creates. 🙌

For more information: click here

🫶 Why SUSL Feels Like Home

Here’s a little list of what I adore about life here:

Friendly community – always someone to help you out

Calm campus – no traffic noise, just birds and waterfalls

Opportunities – tons of events, workshops, clubs

Affordable – both the university and the area are budget-friendly

Balance – education + mental wellness = perfect combo

🌐 Not Just a University – A Lifestyle

Sabaragamuwa University doesn't just prepare you for a career; it shapes you as a human being. It’s not all books and exams—we grow, we laugh, we support each other.

Whether you’re into tech, social sciences, management, or agriculture, there’s a faculty that fits your vibe.

✨ Learn more about SUSL here

💬 Final Thoughts

If you're thinking about studying in Sri Lanka, or even just curious about a different kind of university experience, I highly recommend checking out Sabaragamuwa University. It changed my life in the best way.

💚 Tag a friend who needs to hear about this gem! 📥 DM me if you want tips about the application process or student life here!

We've all made petty fortunes, but we can't afford a life Confined to pull out quotes and hotel rooms They all scream "California!" and its toppling empire But can't you see the end is coming soon?

[ENTERTAINMENT // RISE AGAINST]

Isnt living in the modern world fun? So much media to pick to consume from, and at every turn, you can't help but feel like something is wrong. Somebody is trying to sell you something. Or am I the product? It's all so very tiring. Is it about capital, is it my data, do they want my political leaning?

Communication is nuanced, and I am of the opinion that propaganda is simply communication where the intended message is hidden under layers of subtext that prey on a viewers pre-existing biases to say something to the viewer without directly saying it, and cementing that view in the viewer covertly without them knowing. Let's talk about propaganda, and discuss an example of it together, and see what tips and tricks we can use to identify it together going forward. We're all knowledgeable on the subject, but a refresher doesnt hurt right?

My career has been intelligence related my whole working life, both in the private and public sector. Privately, a lot of what I do has been related to viewing documents and verifying authenticity and bias. I have always found media analysis interesting, and I found a video that discussed scientific research which piqued my interest. I watched it and, while I wont share the link so as not to attack a creator whose work I know nothing about - I'd like to take us through it and identify the many, many points of propaganda and manipulation that I found present in the video, whether intentional by the content creator or not.

I want to preempt this by saying I am by no means an expert on the subjects being discussed, and for this reason I don't want to link the video in question. It would be irresponsible of me to claim that I know for fact that a self proclaimed expert in their field is not only wrong, but purposefully wrong in the interests of malicious manipulation, when I know nothing of this field myself, or of the persons character outside of this incident. Perhaps they are right about everything theyre saying, or some of it, or none of it; that is not my place. I am only making this as regardless of the contents accuracy, the content had point after point that is almost in all manipulative propaganda. I would like to go through these things that I noticed, and point out these tips that you can look for as well when consuming media.

The video in question was from a Youtube science channel which claimed to be whistleblowing a correspondence they had received.

"I want to read you an email that I was asked to keep confidential"

Our first point comes quick: they are saying that they must keep this correspondence confidential, and that of course the viewer may not believe them as they can't prove it.

This seems like a modest and honest admission at face value, but it is a common tactic used to appeal to the everyman. It tells you, with subtext, that not only is there a secret club in society that you wouldnt have access to if it were not for this person, but they are going to let you in on it. That they are sacrificing their own integrity, just for this chance to be honest with you.

It also serves the more important purpose of pridefully brushing away the responsibility of the burden of proof. This is key. If they can get you to dismiss the need of evidence once, and allow them to say what they would like to say without being further bogged down by the need for proof of these claims, then youve already mentally allowed them to tell you anything. You will have been psychologically primed to accept anything that follows as fact, and you will feel so lucky that they have bravely chosen to include you on this venture. So selfless of them!

"I am going to read this to you, and hopefully it will help explain why I am worried about the future of scientific research"

A thesis statement is not sinister in it of itself, however we must note that this is when the creator of the content is sharing their point with us. It is also notably non-specific. There is no claim except fear. The subtext here is "I am an expert in this field and I am sounding the alarm that something is not right." Coupled with the earlier point, "something is not right and it is a secret that they don't want you to know".

In any issue or conflict, there is always an opposition of course. In a conspiracy like this, that opposition is usually a "they". A secret society, minority group being scapegoated, the government, et cetera. We must determine who is the they, and this will unlock more subtext for us.

The video creator goes on to explain how they received this correspondence several years prior in response to a paper they had published about how they had lost faith in scientific research, and that many scientific papers in their field were "non-sense".

We will add to our notes about the content creators biases that they feel, and by their own admission have felt strongly enough to write and publish a paper many years ago, that the scientific research community is, to some degree, either inept or corrupt.

Compounding this with our prior points, this means the "they" seems to be scientists and members of the scientific research community. Academics are the enemy that this content creator is taking aim at.

Now that we have our "they" - who is the "we"? Typically the "We" is assumed to be the working class, the proletariat. However, you will find that good propaganda aims to divide that further. In racist propaganda for example, they would direct their content at white people to divide them from non-white presenting people. Lets continue to find our "we."

The content creator goes on to say that this correspondence was received from somebody who was a top figure at one of the top institutions of their scientific field in the United States. They again say that though they were asked to keep the contents confidential, they have omitted any identifiable details.

We see a repetition of the fact that none of this can be verified.

We are shown that this information comes from a representative of the head of a very large institution. A respected institution. The subtext here being, that if this person is admitting it, then it is an absolute truth of this field.

We gain more information on our "we". The information herein is directed to the citizens of the United States.

[The following excerpts are said from the person sending the content creator the correspondence they are responding to]

The writer introduces themselves and then says, "congratulations on a nice paper. If you wanted to attract attention, you managed to do this."

When you consume any media, the majority of the time there is an implicit understanding that you are on the side of the media creator. Following this line of logic, any opposition to the media creator is the enemy.

This is the voice of our "they".

In many conspiracies, much of the power of the claimant comes from the fact that they are being silenced by "them", their opposition. This first line supports that, and de facto sweeps you into their ranks and serves to rile the viewer up into a war they previously did not know was happening a second ago - but now we are ready to defend our media creator.

Everything said in this letter here on out will be viewed through the lens as being words of the enemy, a mysterious unidentified person that is trying to silence our side.

The writer then says that the reason for their writing is for the content creator [again, in regards to their writing an article calling for heavier critique of scientific researchers] is that they wish the content creator would think less of themselves and more of the "scientific community" before writing any more papers in the future.

Confirmation that our "they" is the scientific research community, with this representative at the helm.

They want you to feel that the scientific research community is the enemy. They are hurting "us". But how? Let's continue.

The writer continues, asking if the content creator is aware of the consequences they may bring among the research community. Specifically, "What about the [physics] model builders with exaggerated self-opinions going to do afterwards? What about experimenters that survive hiding in big [physics] collaborations? Can you offer them any decent employment alternatives?"

This is where my faith in the validity of this communication immediately plummeted. Lets examine it further!

Does this seem like a natural way for a real person to present their argument? Say you are trying to convince your friend that beans are the best source of protein. Do you base your entire argument off of, "If we don't eat beans, who else will eat what is obviously a terrible source of protein?"

In less allegorical terms, the writer wrote a correspondence to someone requesting for that person to take their craft more seriously and respectfully, by then immediately saying their craft is unworthy of respect and those who practice it are sinister individuals that are also unworthy of respect. They then ask that you have compassion for these people that they, again, have just established are not worthy of it.

The writer goes on to say that these individuals will starve, suffer homelessness, face deportation, or similar ill fates if we do not perpetuate the lie that their research is valid and that their science is worth researching.

While this seems well meaning at face value, we must deconstruct this point for a moment.

In the politics of both today and yesteryear, there has always been the prevailing theme - though unsaid - of "empathy or no empathy?". Such is why the battle of socialism versus capital persists. Many of the aforementioned two factions will argue in loops and not understand why, despite the fact that both their claims seem obvious and self explanatory, the other is not converted. A socialist, typically, believes that all humans deserve rights; including but not limited to food, water, housing, healthcare, and fair treatment. A capitalist typically believes these things are earned. If these are your core values, any affront to these things will be viewed with scorn.

With this framework in mind, when the writer is saying that "we need to perpetuate these lies to the public to keep these people living well", it gives the claim plausible deniability of well intentions from the writer. To the right wing, they will hear "your hard work and taxes will go to giving freeloaders a better life than you for doing fake work."

The writer continues. The writer claims that they themselves for example are well known for a particular model in physics that they admit is generally "useless", but if it helps scientists get grants, who does it hurt?

This serves to discredit what is meant to serve as the face of the enemy, the representative of scientific research. "See? Even the best of the best is a fraud, and they admit it themselves."

"if it helps get us grants, who does it hurt?" Cue audience shock. Why, the taxpayers pay those grants - it hurts us of course! In the real world, scientists know how hard it is to get government grants. Everybody knows how hard it is to secure publicly funded grants for anything. This is meant to evoke the feeling that a large portion of the amount taken from the working persons paycheck is thrown into the pockets of fraudsters in the name of false scientific research.

The writer goes on to say "For the people who pay us, all we do is just noise. They pay us from public funds (not their own)." The writer says that this work only serves to benefit universities to attract more students by claiming they support scientific innovation.

Extremely important. The three words in those parentheses are meant to appear as an afterthought but are meticulously placed. It is reassuring the viewer - these nothing jobs that cost a fortune? Yeah, theyre coming out of YOUR pockets. They would like you to be angry at this.

The content creator would also like you to be angry with universities, and anyone who supports scientific innovation by proxy.

The writer says the content creator has likely made change with their paper, irreversible change, to the way funding is allocated for further scientific research.

This adds credibility to the crusade of the content creator. They are leading the charge against these rogue agents of a false institution that are hurting you.

The content creator is credited with hurting those pesky scientists stealing your money, and returned it back to your pocket, or at least directly helped redistribute it where it really should be.

The writer apologizes to the content creator for their "harsh words", but justifies it by saying that "this is just how society is built. This problem does not just exist in [physics] research, but all other scientific fields".

Final confirmation of the real thesis - that scientific researchers are hiding that the majority of their jobs are bogus and blatant fraud, not just in the content creators field of expertise, but all scientific research.

The casualness of the remark is the point. It is meant to serve as an indicator that this is not some grand hidden truth, but something obvious to anyone in the know, to avoid serious critique into the remark. It does not beg further investigation - it is tauted as obvious fact.

The writer concludes their letter by sharing a gripe that their "heart bleeds for intelligent, different, independent thinkers in academia are shunned from it - while obedient idiots remain and follow the rules of academia and enjoy a comfortable life. But there is nothing we can do."

Why would the writer of this letter, which begs for a system they say is corrupt to be protected, then complain about the very corruption they just admitted is prevalent and defended?

Note, this verse panders to "different, independent thinkers shunned by the mass institution". This is very much similar to right wing talking points and agendas.

Final note that this seems more like a personal gripe inserted into this letter from the opposition.

We are now through with the correspondence and return to the words of the content creator, responding to the contents of the letter. They start by reiterating they cannot prove the validity of the correspondence. Then, immediately address the letter by saying "in contrast to the sender, I do not think the taxpayer is stupid".

Cementing the point that they cannot prove the correspondence is not forged.

At no point did the original writer of the correspondence claim the taxpayer was stupid. The content creator puts this insult in the mouth of the writer, and aims it at the "we".

Our confirmed "we", the target of this piece, is the United States taxpayer/proletariat class.

The "They" are scientific researchers fraudulently taking your tax money.

"I do not think the taxpayer is stupid - we want to see results. And soon, we will start asking some tough questions."

The content creator is taking off the cloak of "scientific researcher" they donned at the beginning of the video to gain your trust as an insider of the field, but is now one of you. They're one of you, theyre angry, and you should be too.

The content creator goes on to describe several current well known scientific research experiments, what they claim to be researching, and what the content creator says the actual results of those experiments will yield - "keeping physicists employed; because some of them have families and it'd be 'unfair' if they had to do something useful to earn their income". The content creator also says that perhaps these scientists aren't all malicious, as the content creator feels perhaps the scientists don't even know what they're talking about.

The last line implies the content creator is smarter and more competent than hundreds of scientists across the globe, particularly their compatriots in the United States, and that you should trust their opinion on this. They know more about these projects than all of these other comparatively accomplished workers in the same field.

Again, we see an appeal to right wing rhetoric emotion that these scientists are simply collecting unearned welfare for a non-job.

Going against many well known scientific projects has a more malicious intent of sowing public distrust in science, and the main reason for this video, unmasked - You should want to defund all science, research, and development for a better life. It is being abused. You are being abused. Leave it to corporations and let people vote with their capital on scientific ventures.

In a repeat of the prior point, the content creator describes another scientific research venture the government funded and again says - "whats it good for? They assume you're too stupid to understand."

Classic propaganda tactic of again, putting an insult in an enemy youve manufactured's mouth. Here, you will notice the content creator happened to actually say "they" even though they never actually defined who "they" was. Lucky for us, we already did! The content creator wants you to think the scientific community dislikes the taxpayer. Not only do they steal your money, but they think you are stupid. Are you angry yet?

An implicit repetition of the theme "they think youre stupid, but i know youre not - i am on your side."

The content creator goes on to say "Meanwhile, the Chinese are laughing their asses off at us that you think your country is worth defending".

I was taken aback by this one and actually laughed

Extremely out of the blue addition that an implied "enemy nation" are benefiting from the Americans...paying for research and development? Something the Chinese devote a significant part of their funds to doing aswell?

An odd reference to demoralizing a nations people from defending it from outside interference. It is an odd remark for any citizen to say - especially when in defense of the taxpayer of that home nation? This kind of remark does make sense from the perspective of the speaker being an outside provocateur, however.

The penultimate section is even more odd. The content creator says they fear the only solution to this issue is to stop paying researchers, and that they were scared this would happen, which is why they penned their original article that the writer responded in regards to. It almost seems as though the content creator is saying that this is unfortunate, and even goes so far as to agree that the writer of the correspondence we started with was condescending to researchers! And then...The content creator goes back to their original view that, they are so happy they are no longer part of an organization that is "corrupt to the core".

Appealing to centrism: The content creator takes a step back, and assures everyone they are not entrenched in any opinion. In fact, they hate this more than anyone! Maybe we could do something - but no. These are the facts. Something rash must be done. The organization is wholly corrupt and must be destroyed.

This is the ideological equivalent of relieving tension in the viewer - if the propaganda was successful, your worldview was shattered and rearranged to theirs, and now you must be coddled and rebuilt and if they do this correctly, you will feel you have now come a long way with this content creator. You now have a parasocial bond. The world is wrong, but they know whats right, and they will guide you, and most importantly - you can trust them.

The final talk is an appeal to aggression. The content creator addresses those who are their detractors - and insults them, speaks to them indignantly, and claims many are trying to silence them. They go after Youtube itself in this manner, and go on about the whole field of "nonsense science".

The indoctrination process is complete. If you have finished the video, and are on the content creators side, you are now part of the "we", against the "them", and the content creator would like you to take up [verbal] arms against all those against us.

"We" are being silenced by both mainstream academia and the mainstream media.

The only solution, they propose, is to defund public research, and to listen to 'alternative' voices that go against commonly held narratives.*

*I want to note here that while my intention is to highlight the extreme similarities between this and right wing talking points that, while I do think it is intentional, I do not by any means want to paint this content creator as intolerant of any people. That was not the point of their video, and I do not know their beliefs or views outside of this video. They have given no reason to believe that they are intolerant or practice any form of bigotry - I am simply highlighting that they are reusing the same talking points of those that do, because those talking points are effective.

I again want to add that I know nothing of this field and perhaps this content creator is right about everything they said, research wise - they've dedicated their whole lifes worth of efforts to a cause Im just a visitor to. That said, I believe the video they created was a veritable "Wheres Waldo?" of propaganda tropes, and while watching it I was stunned at how many traits of it the content exhibited.

As a final addendum, it should be noted that one of the golden rules of propaganda is looking at what the speaker has to gain from it. Taking a hypothetical scenario, say a climate researcher with years of experience under their belt and published, peer reviewed papers suddenly says fossil fuels are actually The Bees Knees. Perhaps it would be prudent to check if that researcher has made a career switch to being a lobbyist for a oil and gas corporation. Or, in a more related example, if a decorated and accomplished scientific researcher has become a proponent of defunding the field which they previously raised issue with for already being underfunded. And maybe in this example, they have realized their prime revenue source is not research - but online engagement and sponsorships. Does this mean that they are not a good scientist, havent contributed to humanity, or havent made invaluable contributions? Absolutely not! But it does mean that once you realize this, you should put your guard up and be a little more critical of what that person has to say.

We grew up with the idea that propaganda was simple to recognize. Impassioned speeches, punchy sound bites, and cool posters. But the fact of the matter is - every piece of media you consume conveys its creators views [consciously or not], and in the more nefarious cases they hope you dont notice. They are counting on you not to notice, and take them at their word. Most content creators argue in bad faith and will present biased or misleading data, or omit certain facts. We do not live in a world where journalistic integrity is something most online creators care about. I used to operate under the assumption that everyone wanted a better world, however as I got older I realize that while thats true, there is a seconder, quieter, part - everybody wants a better world, but for many that better world is only meant to be better for a select few people. That does not include you.

The tools and resources exist for a better world - for each and every one of us. Don't let anyone tell you otherwise. Be critical of all those that tell you its not possible. Rip and tear and make noise for your rights and for every millimeter of progress. It won't happen on its own.

Hi Yogi, I failed out of law school and now I feel hopeless and like dirt. Do you have any spiritual advice?

Failing out of a program feels shitty. That’s a reasonable emotional response. You worked hard, invested time and energy, and it all fell apart anyway. I’m genuinely sorry to hear that law school turned out this way for you.

But while feeling shitty is a reasonable emotional response, what is not reasonable is using this experience or these feelings as a means to judge your value or predict your future.

There are many, many stories of people who failed certain career aspirations only to find success elsewhere. It’s true that it’s only really failure if you stop right where you are now and never try anything again.

If you keep trying and keep putting in the work, then failing out of law school wasn’t actually failure. It was just a data point.

When I graduated college, I worked in the movie industry. I wanted to tell the stories that would change lives and influence our culture for the better. But I failed at that and instead I ended up becoming a surgeon. Maybe this is the way I will benefit our world, even if it is one patient at a time. Who knows?

You don’t have to sugarcoat it but you also shouldn’t be so hard on yourself. Instead, try to be honest with yourself. Don’t give in to squeamishness. Face your failure and examine it. It is data.

Why did you choose law? What is meaningful about it to you? Why did you fail out? From this experience, what can you hypothesize about the way you learn and how you approach work? Where else might you find something similar to what you found meaningful about law?

This kind of contemplation will turn your attention away from judgement and more towards productive digestion.

However, it may be that this approach is too soon. It may be that the hurt and disappointment right now is the bigger issue. That right now you are not ready for problem-solving mode. It’s like that meme!

You may be in the feelings stage and that’s okay too.

Then my initial advice still applies. Feel how you are feeling. But don’t use *any* of your thoughts and feelings as a means to know who you are, your intrinsic value, or how your future will play out. Believe nothing that goes on inside you, just feel it and allow it to play out. Then return to my above approach when you feel more evened out.

As always, daily meditation practice will support this endeavor. I credit meditation in many ways for my capable transition from media arts to medical science.

Regardless, keep finding ways forward and trying things out. I really do believe you can make it happen. If I can ever be of help, feel free to reach out 🙏🏻

Much love, my friend.

LY

Roving the red planet: New paper documents first Mars mission soil samples

UNLV-led research details early insights from NASA’s Perseverance rover; Specimens due back on Earth in the 2030s

A new paper released today documents the first soil, airfall dust, and rock fragment samples collected by NASA for return from Mars. We checked in with the UNLV astrobiologist leading the specimen selection team for intel on what the samples so far reveal.

To date, the only objects from Mars that humans possess are meteorites that crash landed here on Earth. Thanks to NASA’s Mars 2020 Perseverance Rover Mission, scientists for the first time in history are able to retrieve handpicked samples — ranging from rock cores the size of a piece of blackboard chalk, to collections of fragmented rocks the dimensions of a pencil eraser and miniscule grains of sand or dust that could fit on the tip of a needle. 

Percy, as the rover is nicknamed, launched from Cape Canaveral, Fla. in July 2020, and arrived in February 2021 at Jezero Crater — a 28-mile-wide former lakebed selected for its potential to help scientists understand the story of Mars’ wet past. The yearslong mission seeks to determine whether Mars ever supported life, understand the processes and history of Mars’ climate, explore the origin and evolution of Mars as a geologic system, and prepare for human exploration. 

The specimens are currently slated for return to Earth sometime in the mid-to late-2030s. In the meantime, NASA has so far collected 28 of the mission’s target of 43 samples. 

“The samples will help us learn more about Mars, but they can also help us learn more about Earth because the surface of Mars is generally much older than the surface of Earth,” said UNLV College of Sciences professor Libby Hausrath, an aqueous geochemist who investigates interactions between water and minerals. 

She’s a member of the NASA Mars Sample Return team that helps determine which specimens the rover will bring back to Earth for inspection by powerful lab equipment too large to send to Mars. She’s also the lead author of a new research article published in the American Geophysical Union/Wiley journal JGR Planets documenting the first soil samples collected.

“There are many possibilities for spinoff technologies used for space exploration that can then be used on Earth,” Hausrath added. “And one of the biggest benefits we get from the space program is that it’s exciting for students and children, and can help attract people into science – we need all the future scientists to help with science topics like these and others.”

The project fulfills a decades-long dream for Hausrath, who fell in love with Mars while pursuing her Ph.D. and partnered with an advisor to write a proposal to work with data from NASA’s Spirit and Opportunity rovers.

“This was one of my career goals for a long time to be able to serve on a Mars mission, so I was really excited to have this opportunity,” Hausrath said. “It really is just incredible the level of detail and precision that the Perseverance rover has. To get the data back and be able to target a specific rock or soil area, and be able to take measurements and decipher information from a tiny sample or specks of dust on another planet is just mind blowing.”

Why Scientists Care

Unlike Earth, Mars doesn’t have plate tectonics constantly shifting and tilting the planet’s surface. Similar to the way scientists study a tree’s rings or examine a cave’s stalactites for historical climate pattern changes, researchers are able to glean information about Mars’ 4 billion-year-old existence by using the rover’s instruments to core rocks and dig soil samples for clues to the history of Mars, including possible signs of past life. 

Examining the rocks’ geochemistry and airfall dust also has the potential to shed light on how Mars’ climate heats and cools and its relative temperature. This information may also tip off how the planet formed, reveal clues about the early solar system, and help pinpoint the time period when life arose on Earth.

“During early Mars history, the planet is believed to have been warmer and had liquid water, which is much different than its current environment, which is very windy, dry, and cold,” said Hausrath. “I’m really interested in water and what kinds of environments can be habitable. And Mars, in particular, is quite similar to Earth in lots of ways. If there was past life on Mars, we might be able to see signatures of it.”

The mission also serves as a de facto scouting mission that could unlock clues about the similarities or challenges that humans might face during future trips to the Red Planet. To highlight the importance of recon, Hausrath recounted the experience of the first astronauts on the moon.

“The lunar regolith is actually really sharp so it was cutting holes in the astronauts’ spacesuits, which is something scientists hadn’t anticipated,” she said. “There’s a lot of dust and sand on Mars’ surface, and bringing back samples is of great interest and value to scientists to figure out how future human astronauts could interact with the particles swirling in the air or potentially use it for building materials.”

How the Rover Works

Percy boasts a cache of futuristic instruments that scientists can manipulate from millions of miles away. It can measure chemistry and mineralogy by shooting a laser from a distance of several meters. It has proximity instruments that can measure fine-scale elements. Researchers use the rover’s wheels to make trenches allowing them to see below the planet’s surface. Science, engineering, and navigational cameras transport images back to Earth. 

“It’s like a video game to see these images of Mars up close,” said Hausrath. “You can zoom in, see the rocks and soil, pick out a spot to measure, figure out the chemistry and mineralogy of a specific rock – it's just incredible that we’re able to do these things that seem like they’re out of science fiction.”

Hausrath is one of the team’s tactical science leads. During daily meetings, members collaborate on instructions to send back to the rover for collection.

“There are some instruments that just can’t be miniaturized and sent to Mars,” Hausrath said, “so once the samples are back on Earth, we’ll have much finer resolution, be able to measure smaller amounts of each of the samples and with higher precision, and look at things like trace metals and isotopes.”

Until then, the samples are being held on Mars in small tubes and are either being stored on the rover or at the Three Forks depot, a swath of flat ground near the base of an ancient river delta that formed long ago when it flowed into a lake on the planet’s Jezero Crater. Scientists mapped an intricate layout, so that they can be found even if buried under layers of dust. 

Eventually, they’ll be retrieved by a robotic lander that’ll use a robotic arm to carefully pluck the tubes into a containment capsule aboard a small rocket that’ll ship them to yet another spacecraft for the long ride home to Earth.

What the Rocks Reveal

On Earth, life is found nearly everywhere there’s water. And the Percy team is on a mission to find out if the same was true for Mars billions of years ago, when the planet’s climate was much more like ours. The rock and soil samples are being pulled from the once water-rich Jezero crater as well as the crater rim — a swath laden with clay minerals, which result from rock-water interactions and look similar to soils on Earth. 

Until the samples are back on Earth, scientists won’t be able to say for sure whether they contain traces of microorganisms that may have once thrived on the Red Planet. But so far, there are strong indicators that bolster previous predictions about water flowing freely on Mars an estimated 2 billion years ago.

Percy’s cameras show that the surface crust differs from the soil below, with larger pebbles on top versus finer grains below the surface. Some particles are coarse and weathered, evidence that they likely touched water and thus are a sign of habitable environments in the past. Atmospheric measurements provide signs of recent processes likely including water vapor in soil crust formation. 

The bedrock is abundant with olivine, a mineral also found in Mars meteorites. Olivine can undergo serpentinization — a process that occurs when olivine interacts with water and heat — which on Earth indicates the potential for habitability.

But perhaps the most exciting find (and one of Hausrath’s personal favorites) is a rock with “leopard spots” nicknamed “Cheyava Falls,” after a Grand Canyon waterfall. The rock contains phosphate, which is of interest to scientists because it’s a major building block of life on Earth — from energy metabolism and cell membranes to DNA and rNA.

Analysis continues. And the NASA team is looking forward to collaborating with the European Space Agency (ESA), which plans to launch its rover, the Rosalind Franklin, in 2028. It’ll carry equipment to Mars capable of drilling 200 cm below the surface — much deeper than Percy's 4-6 cm drill. 

“That would probably get beneath the effects of radiation, so we’d be able to see things we haven’t seen before potentially if there were traces of organic molecules in the past on Mars,” Hausrath said.

The Journey Back Home

NASA, in partnership with ESA, is currently slated to bring the specimen tubes home sometime between 2035 and 2039. When the samples cross back into Earth’s orbit, their first stop will be a receiving facility where they’ll be carefully inspected to determine whether they’re safe for release to researchers. The overall cache of 43 rock and soil samples will include five witness tubes to test for potential contamination.

“Planetary protection is top of mind for the mission — making sure Mars is protected from us and that we’re also protected potentially from Mars,” Hausrath said. “The goal is maintaining safety from the samples in case there’s any concerns for human hazards and also preventing any contamination from us impacting the samples.”

After clearance, she said, researchers around the world will be able to request pieces of these “international treasures” for study, similar to the current program for accessing Mars meteorites. 

“One of the really cool things about the mission is that it is so international and the samples are really a global effort,” Hausrath said. “It’s really great for us to work together to bring these samples back for this goal that benefits all of us.”

IMAGE: NASA's Perseverance Mars rover took this selfie in July 2024.  Credit NASA/JPL-Caltech/MSSS