It does look like as real video. NASA hasn’t released any Curiosity rover footage of the Martian night sky with stars and a galaxy—those tend to be fake or edited. The rover’s cameras are built for surface shots, not stargazing, and Mars’ dusty atmosphere makes clear star views tough. Probably an artistic take, not the real deal! Summary: Video likely fake; NASA has no such Curiosity footage. Rover cams not for stars, Mars atmosphere obscures them. Artistic, not real. https://x.com/i/status/1910128446606389588

Harmony and Nature

5 Stretches If You Sit a Lot https://x.com/i/status/1907307835152912824

₿ Bitcoin: A Comprehensive Analysis ✅ The History of Bitcoin Bitcoin emerged in the aftermath of the 2008 global financial crisis, a period marked by widespread distrust in traditional financial institutions. The cryptocurrency's origin story begins with a whitepaper titled "Bitcoin: A Peer-to-Peer Electronic Cash System," published on October 31, 2008, by an individual or group using the pseudonym Satoshi Nakamoto. ✅ Key historical milestones include: January 3, 2009: The Bitcoin network went live with the mining of the genesis block, which included a Times headline about bank bailouts, embedding Bitcoin's anti-establishment ethos into its very foundation. May 22, 2010: The first real-world transaction occurred when programmer Laszlo Hanyecz purchased two pizzas for 10,000 BTC (worth over $400 million at today's prices), now celebrated as "Bitcoin Pizza Day." 2013-2014: The first major price surge and subsequent crash, with Bitcoin reaching nearly $1,000 before falling below $200. December 2017: Bitcoin reached nearly $20,000 before experiencing another significant correction. 2020-2021: Institutional adoption accelerated, with companies like Tesla, Square, and MicroStrategy adding Bitcoin to their balance sheets, pushing prices to new all-time highs above $60,000. 2021: El Salvador became the first country to adopt Bitcoin as legal tender. 2022-2023: The crypto market experienced a significant downturn amid broader economic challenges. 2024: Bitcoin reached new all-time highs above $70,000, driven by the approval of spot Bitcoin ETFs in the United States. ✅ The Inventor of Bitcoin The true identity of Satoshi Nakamoto remains one of the greatest mysteries in the technology world. While several individuals have been proposed or have claimed to be Nakamoto, none have provided conclusive proof. ✅ What we do know: Nakamoto was active in Bitcoin's development from 2008 to 2010 They mined approximately 1 million Bitcoin (worth tens of billions today) They disappeared in April 2011, handing control of the project to developer Gavin Andresen Their Bitcoin holdings have remained untouched, suggesting either extraordinary restraint or inability to access the funds The pseudonymous nature of Bitcoin's creator aligns with its decentralized philosophy—Bitcoin belongs to no single entity but to all participants in the network. ✅ What Bitcoin Offers Today Bitcoin provides several unique value propositions in today's financial landscape: Decentralization: Operating without central authority, making it resistant to censorship and control. Scarcity: Limited to 21 million coins, creating digital scarcity in an age of unlimited money printing. Transparency: All transactions are recorded on a public ledger, visible to anyone. Security: Protected by cryptography and a distributed network of miners, making it extremely difficult to attack. Financial Inclusion: Accessible to anyone with internet access, regardless of banking status. Store of Value: Often referred to as "digital gold" for its potential to preserve purchasing power against inflation. Settlement Network: Provides final settlement without intermediaries, particularly valuable for large transactions. Hedge Against Monetary Policy: Offers protection against currency debasement and financial instability. ✅ The Future of Bitcoin Bitcoin's future development is likely to include: Layer 2 Solutions: Technologies like the Lightning Network will continue to improve scalability, enabling faster and cheaper transactions. Institutional Integration: Further adoption by financial institutions, corporations, and possibly sovereign wealth funds. Regulatory Clarity: Evolving regulatory frameworks will provide greater certainty for investors and users. Technical Improvements: Ongoing protocol upgrades like Taproot will enhance privacy, efficiency, and smart contract capabilities. Energy Efficiency: Increasing use of renewable energy for mining operations to address environmental concerns. Central Bank Competition: Development of Central Bank Digital Currencies (CBDCs) may create both competition and complementary use cases. Price Maturation: Decreasing volatility as the market cap grows and liquidity deepens. Where Bitcoin Will Be Used Bitcoin's adoption is expanding across various domains: Institutional Treasury Reserves: More companies adopting Bitcoin as a treasury asset to hedge against inflation. Cross-Border Payments: Particularly valuable in corridors with high fees or currency controls. Developing Economies: Countries with unstable currencies or limited banking infrastructure. Remittances: Providing cheaper alternatives to traditional money transfer services. Micropayments: Through Layer 2 solutions, enabling new business models for content creators and service providers. Smart Contracts: With recent upgrades, limited smart contract functionality is becoming possible on Bitcoin. Sovereign Nation Adoption: Following El Salvador, other countries may adopt Bitcoin as legal tender or strategic reserve asset. DeFi Applications: Emerging Bitcoin-native decentralized finance applications. Digital Identity and Verification: Using the Bitcoin blockchain for immutable record-keeping. Collateral for Loans: Using Bitcoin as collateral in traditional and decentralized finance. Bitcoin represents not just a technological innovation but a paradigm shift in how we conceptualize and interact with money. While challenges remain—including regulatory uncertainty, environmental concerns, and scaling issues—Bitcoin has demonstrated remarkable resilience and continued adoption over its first decade and a half of existence. Its future will likely be shaped by the ongoing tension between its original cypherpunk ethos and its growing mainstream acceptance. #bitcoin #crypto #cryptocurrency #litecoin

👉 Artificial Intelligence (AI) is a broad field with a rich and evolving history. Here’s an in-depth analysis: ✅ 1. History of AI Early Concepts and Foundations: Ideas related to machine intelligence can be traced back centuries, but the modern conceptual framework began in the mid-20th century. Pioneers such as Alan Turing lay the groundwork through concepts like the Turing Test, which asks if machines can mimic human behavior sufficiently well to be considered "intelligent." The Birth of AI as a Discipline: The term "Artificial Intelligence" was coined at the 1956 Dartmouth Conference. Early AI research explored symbolic reasoning, search algorithms, and problem-solving techniques. Researchers like John McCarthy, Marvin Minsky, Claude Shannon, and Allen Newell were instrumental in establishing the field. Evolution Through Decades: The following decades saw cycles of heightened optimism, periods known as "AI winters" (when funding and interest waned due to unmet expectations), and subsequent revivals driven by advances in computational power, data availability, and algorithmic breakthroughs. Key Developments: Symbolic AI and Expert Systems: Early systems relied on logic and rule-based approaches. Machine Learning Emergence: In the 1980s and 1990s, improved algorithms began to enable systems to learn from data rather than rely solely on hard-coded rules. Deep Learning and Neural Networks: In the 2000s and 2010s, the resurgence of neural networks, enabled by exponential increases in computing power and data, led to breakthroughs in image recognition, natural language processing, and many other domains. ✅ 2. The "First Inventor" of AI Collaborative Origins: AI was not invented by a single person but instead emerged from the collaborative work of many researchers. Key figures include: John McCarthy: Often credited with coining the term "Artificial Intelligence" and organizing foundational conferences. Alan Turing: His theoretical work and the Turing Test provided early conceptual support for machine intelligence. Marvin Minsky and John McCarthy's colleagues: Their collective efforts at MIT, Stanford, and other institutions helped establish early AI research labs and methodologies. Conclusion on Inventorship: There is no single “first inventor” of AI; rather, it is the outcome of decades of distributed research, theoretical advancements, and practical experimentation by numerous pioneers. ✅ 3. What AI Offers Today Applications Across Industries: AI is now embedded in many aspects of daily life and business: Consumer Technology: Voice assistants (e.g., Siri, Alexa), recommendation systems, and smart home devices. Healthcare: Diagnostics, predictive analytics, personalized medicine, and robotic surgery. Finance: Fraud detection, algorithmic trading, risk management, and customer support via chatbots. Transportation: Autonomous vehicles, route optimization, and traffic management. Creative Industries: Content generation, image and video synthesis, and music composition. Operational Enhancements: AI offers improvements in efficiency, scalability, and decision-making by automating processes and providing insights from big data. Advanced Research and Development: Tools like deep neural networks are powering advancements in natural language processing (NLP), computer vision, and robotics. This has led to robust capabilities in tasks such as real-time translation, sophisticated search algorithms, and detailed image analysis. ✅4. The Future of AI Continued Integration and Automation: AI is expected to become increasingly integrated with daily workflows and industrial systems. Developments in edge computing, Internet of Things (IoT), and 5G networks will support more real-time, on-device AI applications. Ethical and Regulatory Challenges: As AI systems become more powerful, issues of transparency, fairness, and accountability will need to be addressed. There’s a growing focus on developing ethical AI frameworks and guidelines to ensure systems serve society responsibly. Advances in Autonomy and Generalization: Researchers are actively working toward Artificial General Intelligence (AGI) – systems capable of performing a wide range of tasks at human-like proficiency. While AGI remains a long-term goal, incremental progress in multi-modal learning, transfer learning, and unsupervised learning are paving the way. Human-AI Collaboration: The focus is shifting from AI replacing humans entirely to AI enhancing human capabilities. Tools that assist with decision-making, augment creativity, and support complex problem-solving will likely become ubiquitous. ✅ 5. Areas Where AI May Replace Humans Routine and Repetitive Tasks: Jobs involving data entry, basic customer support, and routine analysis can be automated with high efficiency. Manufacturing and Logistics: AI-driven robots and automation systems are already transforming production lines, supply chain management, and warehouse operations. Transportation: Autonomous vehicles and drones could significantly reduce the need for human drivers in specific logistics or ride-sharing roles. Data Analysis and Monitoring: AI systems are capable of rapidly processing and interpreting massive amounts of data, which might diminish the need for large teams focused solely on data monitoring or basic analytics. Creative Collaborators: While AI may not fully replace creative professionals, it will augment fields like design, writing, and media production by handling tasks that are routine or by providing creative suggestions. Limitations and Human Inputs: Despite these advances, there remain areas where human judgment, empathy, and creativity are critical. Complex ethical decisions, nuanced social interactions, and deep strategic thinking are areas where human expertise is likely to remain irreplaceable. ✅ Conclusion AI’s history is a story of collaborative innovation and gradual evolution—one that has transitioned from theoretical concepts and rule-based systems to sophisticated, data-driven models that shape our everyday lives. While no single person invented AI, the collective contributions of pioneers have paved the way for today’s applications and will continue to influence future developments. Today, AI serves as a powerful tool across industries, automating routine tasks, optimizing decisions, and even augmenting human creativity. Looking forward, its integration is expected to deepen, presenting ethical challenges and opportunities for collaboration between humans and machines. Although areas such as routine tasks, manufacturing, and data analysis may see significant automation, the nuanced and inherently human aspects of decision-making and creativity will likely remain under human stewardship. #Artificial #Intelligence #AI

Minecraft: The Building Blocks of Success The Success Behind Minecraft Minecraft's unprecedented success can be attributed to several key factors: Creative Freedom: The game offers virtually unlimited creative possibilities in an open world where players can build anything they imagine using simple, block-based mechanics. Accessibility: The simple graphics and intuitive gameplay make it accessible to players of all ages, while still offering depth for more experienced gamers. Community and Sharing: Minecraft fostered a massive community where players share creations, modifications, and experiences, creating a self-sustaining ecosystem of content. Cross-Platform Availability: Available on nearly every gaming platform, from mobile devices to consoles and PCs, allowing for a massive player base. Educational Value: The game has been embraced by educators for teaching concepts ranging from basic problem-solving to complex programming and engineering principles. Continuous Updates: Regular updates have kept the game fresh and relevant for over a decade. Modding Support: The ability for players to modify the game has led to thousands of unique experiences within the Minecraft universe. The History of Minecraft Minecraft's journey from indie experiment to global phenomenon is remarkable: 2009: Swedish programmer Markus "Notch" Persson created the first version of Minecraft (then called "Cave Game") as a side project. 2010: Early alpha and beta versions were released, gaining popularity through word of mouth and YouTube videos. 2011: The full version of Minecraft was officially released at MineCon, the first Minecraft convention. 2014: Microsoft acquired Mojang (Minecraft's developer) and the Minecraft intellectual property for $2.5 billion. 2016: The 100 millionth copy of Minecraft was sold, making it one of the best-selling video games of all time. 2019: Minecraft celebrated its 10th anniversary with over 176 million copies sold across all platforms. 2020-2023: The COVID-19 pandemic led to a significant resurgence in Minecraft's popularity as people sought creative outlets and social connections during lockdowns. 2023-2025: Continued growth with regular updates, including the "Trails & Tales" update and ongoing development of the Minecraft universe. Expected Future Development Looking ahead, Minecraft's future appears bright with several anticipated developments: Enhanced Cross-Platform Integration: Further unification of the Bedrock and Java editions to create a more seamless experience across all platforms. Expanded AI Integration: More sophisticated AI systems for both hostile mobs and friendly NPCs, creating more dynamic gameplay experiences. Educational Expansion: Continued development of Minecraft: Education Edition with new tools for teachers and students. Augmented Reality Experiences: Building on the foundation of Minecraft Earth with new AR implementations. Minecraft Legends Evolution: Further development of the Minecraft Legends spin-off, expanding the universe's lore and gameplay styles. Community Creation Tools: More sophisticated tools for content creators and modders to develop and share their creations. Environmental Themes: Future updates may focus on environmental awareness and sustainability, reflecting real-world concerns. Metaverse Integration: Potential integration with emerging metaverse platforms, allowing for new social and creative experiences. Minecraft's enduring appeal lies in its ability to evolve while maintaining its core identity as a game about creativity, exploration, and community. As technology advances, Minecraft is likely to continue adapting and growing, cementing its place not just as a game but as a cultural phenomenon that spans generations. #minecraft

Galaxy S25 Ultra's Object Eraser Tool Is Miles Ahead Of ... Apple iPhone 16 Pro completely loses to Samsung Galaxy ... Viral post shows difference between Galaxy S25 Ultra and ... Another Object Eraser on the S25 Ultra vs Pixel 9 Pro XL ... The #Samsung #Galaxy #S25 Ultra's Object Eraser tool significantly outperforms the #iPhone 16 Pro in photo editing, particularly in object removal. The S25 Ultra's tool is noted for its ability to seamlessly erase unwanted elements from images while reconstructing the background in a way that appears highly realistic, making it difficult to detect any alterations 23. In contrast, the iPhone's AI removal feature has been criticized for producing less satisfactory results, with instances of warped images after object removal 4. Overall, early tests indicate that Samsung's AI capabilities in the Galaxy S25 Ultra provide a more effective and sophisticated photo editing experience compared to the iPhone 16 Pro 23. Information is missing on specific comparisons of the user interface and additional features of the Object Eraser tools in both devices. Based on the latest findings and comparisons: Galaxy S25 Ultra’s AI Eraser Tool: Utilizes advanced AI to remove objects seamlessly. Reconstructs the background with high realism, making it hard to detect any edits. Early tests and reviews suggest that its performance and precision are superior to its competitors. iPhone 16’s Approach: While it does include an AI-based object removal feature, it has been reported to sometimes produce less accurate results, with issues like warped or inconsistent backgrounds. The tool generally does a decent job, but it hasn't been as polished or reliable as the Galaxy S25’s version. Overall Impact: For Users: Those who frequently edit photos and require seamless object removal might find the Galaxy S25 Ultra more appealing. The iPhone, while robust in many areas, may require additional manual adjustments or third-party apps in some cases. Effect on Use: The gap in performance indicates that Samsung's approach to AI-driven photo editing is currently more mature, potentially serving as a major differentiator for users prioritizing image editing capabilities. Who Will Be Affected the Most: Professional and hobbyist photographers or content creators who rely on their device's ability to perform high-quality edits on the fly. Consumers comparing overall photo capabilities between the devices may see this as a significant advantage, especially if object removal is a frequently used feature in their workflow. In conclusion, if top-notch object erasure is a key requirement, the Galaxy S25 Ultra appears to lead the way, whereas the iPhone 16 may still serve most users well but could fall short for those needing highly refined AI-powered photo editing. https://x.com/iHateApplee/status/1907342352550703358

Nintendo Switch 2 is generating a lot of buzz ahead of its launch. Here’s a summary of the latest details: Release Date and Pricing: The console is slated to launch on June 5, 2025. Its base model will be priced at around $449.99 in the US, while a special bundle that includes the new Mario Kart World game will cost about $499.99. Pre-orders are expected to begin in early April 2025 in North America and Europe. Display and Performance: The Switch 2 is expected to feature a larger 7.9-inch screen that supports 1080p resolution at 120Hz. When docked, the system may push 4K output, marking a significant upgrade in graphical performance compared to its predecessor. Design and Gameplay Enhancements: It will have refined Joy-Cons with magnetic attachments, potentially improving controller connectivity and ergonomics. There is an emphasis on maintaining compatibility with existing Switch games, so a large library of titles should remain playable. Enhanced connectivity, such as Wi-Fi 6, promises smoother online experiences, and NFC/RFID capabilities will continue to support amiibo figures. Additional Features: There are mentions of improvements like a new game card format for select digital titles and a range of bundled accessories, though details on these remain limited. Implications: For gamers, the Nintendo Switch 2 appears to be an evolutionary step, blending the versatility of a hybrid console with enhanced visual performance and more robust online features. If you’re an existing Switch owner, the backwards compatibility means your current game library remains an asset. For new buyers, the upgrades could offer a more immersive and high-performance gaming experience that bridges portable convenience with living room entertainment. The global gaming community will likely see ripple effects if the system pushes more titles and innovations, possibly influencing competitors in the hybrid and portable market segments. Overall, while additional details will undoubtedly emerge as the release date approaches, the Nintendo Switch 2 seems poised to blend familiar strengths with notable enhancements, keeping both longtime fans and new gamers excited. #nintendo #switch2 #switch #games

#Tariffs what do they mean. Why is the US and #Trump imposing them? What will change? What will it mean for the average #usa American? What will it mean for the rest of the world? Who will be affected the most? Tariffs are taxes imposed on imported goods, meaning that when foreign products enter the U.S., they are taxed. Here’s an overview of what tariffs mean and their broader effects: Purpose and Rationale: The U.S. government, under Trump’s administration, imposed tariffs to protect domestic industries from what were seen as unfair trade practices. These tariffs are used to make imported goods more expensive, encouraging consumers to buy U.S.-made products and thereby supporting American manufacturers and jobs. Policy Intentions: The tariffs are part of a broader strategy known as “trade protectionism.” By levying these taxes, the administration aimed to reduce the trade deficit and force trading partners to negotiate more favorable terms. In many cases, the tariffs were also intended to address issues like dumping (selling goods at unfairly low prices) and intellectual property theft. Impact on Prices and the Average Consumer: For the average American, tariffs can lead to higher prices on imported goods. Since many everyday items—from electronics to clothing and even food ingredients—are imported, the increased cost can lead to higher living expenses. However, proponents argue that these measures benefit the domestic economy over time by bolstering local industries, which may eventually mitigate some of the initial price hikes. Global Effects: Tariffs can trigger retaliatory measures from other countries. This means that U.S. exports might face increased tariffs abroad, potentially hurting American exporters. Globally, tariffs can disrupt established supply chains, lead to trade disputes, and increase costs for industries that rely on international trade. The interconnected nature of global markets means these effects can ripple out, impacting the world economy, particularly in sectors where countries are highly dependent on imports and exports. Who’s Affected the Most: Consumers: The direct impact for consumers is the rise in retail prices, meaning higher costs for everyday products. Industries Dependent on Global Supply Chains: Companies that rely on imported components may face increased production costs, which can lead to higher prices for finished goods. Exporters: Industries that export goods may suffer from retaliatory tariffs imposed by other countries, reducing their competitiveness overseas. In essence, while tariffs are intended to protect domestic industries and job markets, they come with trade-offs where consumers and international trade relationships can be negatively impacted. The long-term outcome depends on how trading partners respond and how domestic industries adjust to the new trading environment.

https://youtu.be/6tTQ_tThE2Q?si=tIflfJmvIYwyiwvU "Sultans of Swing" is one of Dire Straits' most iconic songs, released in 1978 as part of their self-titled debut album. Written by Mark Knopfler, the song tells the story of a jazz band playing in a pub, contrasting their modest setting with their grand name—the "Sultans of Swing". The track is famous for its intricate guitar work, particularly Knopfler's fingerpicking style, which gives it a unique sound. Originally composed on a National Steel guitar, Knopfler felt the song lacked energy until he played it on a Fender Stratocaster, which brought it to life. The song became a radio hit, leading to Dire Straits securing a record deal. It went on to reach the top 10 in multiple countries, including the UK, US, and Australia. Over the years, it has remained a staple of classic rock radio and is widely regarded as one of the greatest guitar-driven songs of all time. If you want to experience it, you can check out the official music video here or a legendary live performance here. Are you a big Dire Straits fan, or just discovering them? 🎸