How 3D CAD Helps Engineers Perform Thermal Analysis for Spacecraft

The extreme conditions of space pose significant challenges for spacecraft design, particularly in thermal management. Spacecraft experience fluctuating temperatures, intense solar radiation, and the vacuum of space, all of which can impact performance. Thermal analysis is a critical step in spacecraft engineering, ensuring that systems remain operational under these harsh conditions. One of the most transformative tools in this process is 3D CAD (Computer-Aided Design). By integrating CAD with thermal analysis software, engineers can efficiently simulate, analyze, and optimize spacecraft designs.

The Role of Thermal Analysis in Spacecraft Design

Thermal analysis involves predicting how a spacecraft will behave thermally under various conditions. Engineers use simulations to evaluate heat transfer mechanisms such as conduction, convection (if applicable), and radiation. This process ensures that components stay within their operational temperature limits and identifies the need for heaters, radiators, or insulation layers to maintain thermal balance.

Spacecraft thermal analysis typically includes:

Modeling energy exchange factors: Calculating absorbed energy from orbital sources like the Sun and reflected planetary radiation.

Simulating heat dissipation: Predicting how internal components generate and transfer heat during operation.

Designing control systems: Determining heater power requirements and radiator sizing to regulate temperatures.

How 3D CAD Enhances Thermal Analysis

3D CAD tools revolutionize thermal analysis by enabling engineers to create detailed models of spacecraft geometry. These models serve as the foundation for simulations and allow engineers to visualize complex systems under varying environmental conditions. Here’s how 3D CAD contributes to thermal analysis:

1. Accurate Geometry Representation

Spacecraft designs often involve intricate geometries with multiple subsystems. 3D CAD software allows engineers to create highly detailed models that account for every component's size, shape, and orientation. Tools like NX Space Systems Thermal simplify the modeling of large assemblies without requiring manual geometry conversions. This level of detail ensures accurate predictions during simulations.

2. Integration with Thermal Analysis Software

Modern CAD tools are seamlessly integrated with thermal analysis software such as Thermal Desktop or Simcenter 3D Space Systems Thermal. These integrations enable engineers to import CAD models directly into simulation environments without losing fidelity. For example:

Thermal Desktop uses AutoCAD-based models to compute radiative exchange factors and orbital heating via Monte Carlo methods.

Simcenter 3D synchronizes CAD data automatically, reducing errors and improving efficiency during iterative design processes.

3. Material Property Assignment

Thermal performance depends heavily on material properties like conductivity, emissivity, and specific heat capacity. CAD-based tools often include databases of thermophysical properties, allowing engineers to assign realistic materials to spacecraft components. This capability ensures that simulations reflect real-world behavior.

4. Visualization and Post-Processing

Engineers can use CAD-integrated tools to visualize temperature distributions across spacecraft surfaces in 3D. Features like contour plots or scatter plots make it easier to identify hotspots or areas requiring additional thermal control measures. Visualization enhances collaboration among teams by presenting complex data in an intuitive format.

Applications of 3D CAD in Spacecraft Thermal Analysis

Orbital Simulations

Orbital mechanics significantly influence a spacecraft's thermal environment due to changing positions relative to the Sun and Earth. Engineers use 3D CAD models to simulate these dynamics and predict temperature fluctuations over time. For instance, NX Space Systems Thermal enables orbital simulations with synchronized geometry updates for evolving designs

Component-Level Analysis

Thermal analysis extends beyond the spacecraft as a whole—it includes evaluating individual subsystems like electronics or propulsion units. Tools like Solaria Thermal specialize in finite element analysis (FEA) for detailed component-level simulations. Engineers can model copper layers in PCBs or heat dissipation from rocket engines using these tools.

Iterative Design Optimization

Thermal analysis is an iterative process involving multiple design revisions. With CAD-integrated software, engineers can quickly update models based on simulation results without starting from scratch. This agility accelerates development timelines while improving accuracy.

Benefits of Using 3D CAD for Thermal Analysis

The integration of 3D CAD with thermal analysis software offers several advantages:

Efficiency: Automated synchronization between CAD models and simulation tools reduces manual effort.

Accuracy: Detailed geometry and material property assignments result in more reliable predictions.

Cost Savings: Virtual testing minimizes the need for expensive physical prototypes.

Collaboration: Intuitive visualizations enhance communication among engineering teams.

Conclusion

In the realm of spacecraft engineering, thermal analysis is indispensable for ensuring mission success under extreme conditions. The integration of 3D CAD tools with advanced simulation software has streamlined this process, enabling engineers to design more robust systems efficiently. From orbital simulations to component-level evaluations, these tools provide unparalleled accuracy and visualization capabilities.

As space exploration continues to push boundaries, the role of 3D CAD design services in thermal analysis will only grow more critical, empowering engineers to tackle increasingly complex challenges with confidence. Whether designing satellites for Earth's orbit or interplanetary missions, leveraging these technologies ensures that every spacecraft is prepared for its journey into the unknown.

Unity is the most popular game engine that allows developers to create a wide range of games. That’s why companies choose to hire Unity developers for their game development. In this blog, we have provided 15 reasons why companies should hire Unity developers. We have also provided a list of skills they need to look for while hiring. To understand Unity game development, let’s first look at the definition and why you should choose Unity over Unreal game engine for game development.

How do structural BIM services help BIM Engineering projects?

Introduction

In the dynamic world of engineering and construction, Building Information Modeling (BIM) has emerged as a revolutionary technology, reshaping the way projects are conceptualized, designed, and executed. Among the various facets of BIM, Structural BIM services play a pivotal role in enhancing the efficiency, accuracy, and collaboration within engineering projects. This blog explores the manifold ways in which Structural BIM services contribute to the success of BIM engineering projects.

1. Accurate and Detailed Design:

Structural BIM services enable engineers to create highly accurate and detailed 3D models of structures. This level of precision ensures that every aspect of the design is thoroughly examined, helping identify potential issues before they manifest in the physical construction phase. The virtual representation allows for a comprehensive understanding of the structural elements, leading to improved decision-making and problem-solving.

2. Enhanced Collaboration:

One of the key advantages of BIM is its ability to facilitate collaboration among various stakeholders in a project. Structural BIM services bring architects, engineers, contractors, and other professionals onto a common platform. This collaborative environment promotes effective communication, reduces errors, and ensures that everyone is working with the most up-to-date information. This interconnectedness leads to a streamlined workflow and, ultimately, a more successful project outcome.

3. Clash Detection and Coordination:

In complex engineering projects, clashes between different building systems can be a significant challenge. Structural BIM services include clash detection capabilities, allowing engineers to identify and resolve conflicts early in the design phase. This proactive approach minimizes the likelihood of costly errors during construction and contributes to a smoother, more efficient project timeline.

4. Quantities and Cost Estimation:

Structural BIM models are not only a visual representation but also store a wealth of data related to quantities and materials. This information can be leveraged for accurate cost estimation and procurement planning. Engineers can extract detailed material quantities, enabling precise budgeting and resource allocation. This feature helps project managers make informed decisions and avoid budget overruns.

5. Efficient Construction Management:

Structural BIM services extend beyond the design phase to support construction management. The 4D and 5D capabilities of BIM, which incorporate time and cost dimensions, allow for the simulation and optimization of construction sequences. This results in improved project scheduling, resource utilization, and overall project efficiency.

6. Lifecycle Management:

Structural BIM models serve as a valuable asset throughout the entire lifecycle of a structure, from design and construction to operation and maintenance. The data-rich models can be used for facility management, renovations, and even demolition planning. This holistic approach to project management ensures that the benefits of BIM extend beyond the initial construction phase.

Conclusion

In conclusion, Structural BIM services are indispensable for modern engineering projects, offering a plethora of benefits that enhance efficiency, collaboration, and overall project success. As the construction industry continues to embrace digital transformation, the integration of Structural BIM services will become increasingly integral to the way we conceive, design, and build structures. Embracing these technologies not only improves project outcomes but also positions the industry for continued innovation and growth.

Want to Outsource Construction App Development? Thinks of ProtoTech!

ProtoTech Solutions is at the forefront of 3D application development, transforming the AEC industry by providing state-of-the-art tools that streamline workflows, enhance collaboration, and elevate project outcomes. Elevate your AEC projects with our innovative solutions and experience the future of 3D application development.

Our innovative solutions redefine the way professionals in the AEC sector conceptualize, design, and execute projects. ProtoTech Solutions is a trailblazing software development company specializing in creating robust and intuitive 3D applications specifically crafted to meet the unique demands of the AEC industry. Our expertise lies in seamlessly integrating advanced technologies to enhance the entire project lifecycle, from initial design to construction and beyond.

The tenured engineers of 2024

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The tenured engineers of 2024

In 2024, MIT granted tenure to 11 faculty members across the School of Engineering. This year’s tenured engineers hold appointments in the departments of Aeronautics and Astronautics, Chemical Engineering, Civil and Environmental Engineering, Electrical Engineering and Computer Science (EECS, which reports jointly to the School of Engineering and MIT Schwarzman College of Computing), Mechanical Engineering, and Nuclear Science and Engineering.

“My heartfelt congratulations to the 11 engineering faculty members on receiving tenure. These faculty have already made a lasting impact in the School of Engineering through both advances in their field and their dedication as educators and mentors,” says Anantha Chandrakasan, chief innovation and strategy officer, dean of engineering, and the Vannevar Bush Professor of Electrical Engineering and Computer Science.

This year’s newly tenured engineering faculty include:

Adam Belay, associate professor of computer science and principal investigator at MIT’s Computer Science and Artificial Intelligence Laboratory (CSAIL), works on operating systems, runtime systems, and distributed systems. He is particularly interested in developing practical methods for microsecond-scale computing and cloud resource management, with many applications relating to performance and computing efficiency within large data centers.

Irmgard Bischofberger, Class of 1942 Career Development Professor and associate professor of mechanical engineering, is an expert in the mechanisms of pattern formation and instabilities in complex fluids. Her research reveals new insights into classical understanding of instabilities and has wide relevance to physical systems and industrial processes. Further, she is dedicated to science communication and generates exquisite visualizations of complex fluidic phenomena from her research.

Matteo Bucci serves as the Esther and Harold E. Edgerton Associate Professor of nuclear science and engineering. His research group studies two-phase heat transfer mechanisms in nuclear reactors and space systems, develops high-resolution, nonintrusive diagnostics and surface engineering techniques to enhance two-phase heat transfer, and creates machine-learning tools to accelerate data analysis and conduct autonomous heat transfer experiments.

Luca Carlone, the Boeing Career Development Professor in Aeronautics and Astronautics, is head of the Sensing, Perception, Autonomy, and Robot Kinetics Laboratory and principal investigator at the Laboratory for Information and Decision Systems. His research focuses on the cutting edge of robotics and autonomous systems research, with a particular interest in designing certifiable perception algorithms for high-integrity autonomous systems and developing algorithms and systems for real-time 3D scene understanding on mobile robotics platforms operating in the real world.

Manya Ghobadi, associate professor of computer science and principal investigator at CSAIL, builds efficient network infrastructures that optimize resource use, energy consumption, and availability of large-scale systems. She is a leading expert in networks with reconfigurable physical layers, and many of the ideas she has helped develop are part of real-world systems.

Zachary (Zach) Hartwig serves as the Robert N. Noyce Career Development Professor in the Department of Nuclear Science and Engineering, with a co-appointment at MIT’s Plasma Science and Fusion Center. His current research focuses on the development of high-field superconducting magnet technologies for fusion energy and accelerated irradiation methods for fusion materials using ion beams. He is a co-founder of Commonwealth Fusion Systems, a private company commercializing fusion energy.

Admir Masic, associate professor of civil and environmental engineering, focuses on bridging the gap between ancient wisdom and modern material technologies. He applies his expertise in the fields of in situ and operando spectroscopic techniques to develop sustainable materials for construction, energy, and the environment.

Stefanie Mueller is the TIBCO Career Development Professor in the Department of EECS. Mueller has a joint appointment in the Department of Mechanical Engineering and is a principal investigator at CSAIL. She develops novel hardware and software systems that give objects new capabilities. Among other applications, her lab creates health sensing devices and electronic sensing devices for curved surfaces; embedded sensors; fabrication techniques that enable objects to be trackable via invisible marker; and objects with reprogrammable and interactive appearances.

Koroush Shirvan serves as the Atlantic Richfield Career Development Professor in Energy Studies in the Department of Nuclear Science and Engineering. He specializes in the development and assessment of advanced nuclear reactor technology. He is currently focused on accelerating innovations in nuclear fuels, reactor design, and small modular reactors to improve the sustainability of current and next-generation power plants. His approach combines multiple scales, physics and disciplines to realize innovative solutions in the highly regulated nuclear energy sector.

Julian Shun, associate professor of computer science and principal investigator at CSAIL, focuses on the theory and practice of parallel and high-performance computing. He is interested in designing algorithms that are efficient in both theory and practice, as well as high-level frameworks that make it easier for programmers to write efficient parallel code. His research has focused on designing solutions for graphs, spatial data, and dynamic problems.

Zachary P. Smith, Robert N. Noyce Career Development Professor and associate professor of chemical engineering, focuses on the molecular-level design, synthesis, and characterization of polymers and inorganic materials for applications in membrane-based separations, which is a promising aid for the energy industry and the environment, from dissolving olefins found in plastics or rubber, to capturing smokestack carbon dioxide emissions. He is a co-founder and chief scientist of Osmoses, a startup aiming to commercialize membrane technology for industrial gas separations.

INTELLI Digital: Crafting User-Centric Android Apps for Tomorrow’s Market

A remarkable Android app can be the driving force behind the expansion of your company in the mobile-first world of today. INTELLI Digital specializes in crafting high-performance, user-centric Android applications that seamlessly blend innovation with functionality. Whether you're a startup aiming to make a mark or an established enterprise seeking digital transformation, their tailored solutions are designed to meet diverse industry needs.

At the heart of INTELLI Digital’s approach is a commitment to exceptional user experience. Their team designs responsive, intuitive, and feature-rich Android apps, ensuring seamless interactions and exceeding user expectations. By leveraging custom algorithms and multi-threaded capabilities, they deliver advanced applications that perform flawlessly across various devices, including tablets, Android TVs, and wearables.

INTELLI Digital's expertise spans multiple sectors. In healthcare, they develop secure apps that facilitate appointment scheduling, telemedicine, and medical record access, enhancing patient care. For the education sector, they create interactive apps featuring virtual classrooms and progress tracking, making learning accessible and engaging. Their finance applications offer real-time transaction monitoring and mobile banking, ensuring security and user trust. In e-commerce, they build apps with seamless navigation and secure payments, providing personalized shopping experiences.

What sets INTELLI Digital apart is its comprehensive development process. From initial consultation and design to development, testing, and post-launch support, they ensure each app is scalable, secure, and aligned with your business goals. Their agile methodology allows for flexibility and timely delivery, keeping you ahead in the competitive digital landscape.

Ready to transform your business with a cutting-edge Android app? Partner with INTELLI Digital and turn your vision into a reality.

Elevate Your 3D Engineering with ProtoTech Solutions

Introduction

In today's rapidly evolving technological landscape, 3D engineering applications are becoming increasingly essential across various industries. Whether you're in manufacturing, architecture, healthcare, or any other field, 3D engineering applications can streamline processes, enhance visualization, and improve decision-making. However, creating these applications requires expertise, experience, and innovation. This is where ProtoTech Solutions comes into play. In this blog, we'll explore why ProtoTech Solutions should be your top choice for 3D engineering application development.

About ProtoTech Solutions

ProtoTech Solutions is a leading provider of custom software solutions, specializing in 3D engineering applications. With over a decade of experience, ProtoTech has gained a reputation for delivering cutting-edge solutions that empower businesses to harness the full potential of 3D technology. Their team of skilled professionals includes software developers, engineers, and designers who are passionate about creating innovative solutions tailored to your unique needs.

1. Expertise in 3D Technology

ProtoTech Solutions stands out because of its unparalleled expertise in 3D technology. They have a deep understanding of various 3D file formats, including CAD files like STL, OBJ, and STEP, as well as 3D graphics technologies such as OpenGL and WebGL. This expertise allows them to develop 3D engineering applications that are not only visually stunning but also highly functional and compatible with a wide range of platforms.

2. Customization and Tailored Solutions

One size doesn't fit all when it comes to 3D engineering applications. ProtoTech Solutions understands this and takes a highly customized approach to meet the specific needs of each client. They work closely with you to understand your business goals, challenges, and requirements, ensuring that the final product aligns perfectly with your objectives.

3. A Proven Track Record

ProtoTech Solutions has a long list of successful projects across diverse industries. Their portfolio includes applications for 3D modeling, visualization, data analysis, and simulation. By choosing ProtoTech, you benefit from their extensive experience and proven track record in delivering high-quality 3D engineering applications.

4. Cutting-Edge Technology

To stay at the forefront of 3D engineering application development, ProtoTech Solutions invests in the latest technologies and tools. They keep up with industry trends and are constantly exploring new ways to enhance their solutions. This commitment to innovation ensures that your 3D applications are always equipped with the latest features and capabilities.

5. Seamless Integration

ProtoTech understands that your 3D engineering applications need to work seamlessly with your existing systems and workflows. They have a strong focus on integration, ensuring that their solutions can easily integrate with your ERP systems, PLM solutions, or any other software you use.

6. Responsive and Supportive Team

One of the key differentiators of ProtoTech Solutions is their dedicated and responsive team. They maintain open lines of communication throughout the development process, providing regular updates and addressing any concerns promptly. This level of support ensures a smooth and collaborative development experience.

7. Commitment to Quality

Quality is a top priority at ProtoTech Solutions. They follow industry best practices, conduct rigorous testing, and adhere to strict quality control processes to ensure that your 3D engineering applications are robust, reliable, and bug-free.

Conclusion

In today's competitive business environment, leveraging 3D engineering applications can give you a significant advantage. ProtoTech Solutions, with its deep expertise, commitment to quality, and proven track record, is the ideal partner to help you harness the power of 3D technology. Whether you need a custom 3D modeling application, a visualization tool, or a simulation platform, ProtoTech Solutions can deliver a tailored solution that meets your needs and exceeds your expectations. Choose ProtoTech Solutions for your 3D engineering application development, and unlock new possibilities for your business.

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Explore These Exciting DSU Micro Project Ideas

Explore These Exciting DSU Micro Project Ideas Are you a student looking for an interesting micro project to work on? Developing small, self-contained projects is a great way to build your skills and showcase your abilities. At the Distributed Systems University (DSU), we offer a wide range of micro project topics that cover a variety of domains. In this blog post, we’ll explore some exciting DSU…

Advantages of Using EV Charging Management Software: How it Can Help Your Business

Devstree Australia offers cutting-edge EV Charging Management Software designed to optimize your business operations. Our software empowers you with advanced functionalities to streamline charging processes efficiently. With real-time monitoring, scheduling, and analytics, our solution ensures maximum utilization of resources, enhancing overall productivity. Gain a competitive edge with automated billing, user-friendly interfaces, and customizable features tailored to your specific business needs. Devstree Australia's expertise in software development ensures seamless integration and scalability for future growth. Elevate your EV charging infrastructure with our innovative solution and drive success in the rapidly evolving market landscape.

Prabhu Studio: Your Expert Partner for Custom PHP Application Development in Ahmedabad

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euphemism

Apparently "portability subset" is just a euphemism for "making it difficult to port your app to macOS". Grrrr...

The Ultimate Guide to Virtual Reality Software for Architecture

In the ever-evolving world of architecture, staying at the forefront of technology is paramount. One such technological advancement that has revolutionized the architectural industry is virtual reality (VR). Virtual reality architecture software has ushered in a new era of design, presentation, and client engagement. In this comprehensive guide, we'll explore the world of virtual reality architecture software, its benefits, and a spotlight on ProtoTech Solutions as a leading player in the field.

 Understanding Virtual Reality Architecture Software

Virtual Reality (VR) is a technology that immerses users in a computer-generated environment, allowing them to interact with and navigate through it as if it were real. In architecture, VR software leverages this technology to create immersive 3D environments of architectural designs and spaces.

 Key Features of Virtual Reality Architecture Software

1. Immersive Visualization: VR software provides architects, designers, and clients the ability to walk through a building or space as if they were physically present. This immersive experience enhances design comprehension.

2. Real-time Collaboration: Many VR architecture tools offer real-time collaboration features, allowing multiple stakeholders to review and make decisions on designs simultaneously, no matter where they are located.

3. Design Iteration: VR software enables architects to make real-time changes to designs, which can be immediately visualized, facilitating rapid design iteration and decision-making.

4. Client Engagement: Using VR during client presentations is a powerful way to convey design concepts, helping clients understand and feel the space before it's built.

5. Data Integration: Some VR solutions integrate with Building Information Modeling (BIM) software, enabling architects to import 3D models and data for a seamless design-to-VR workflow.

 Benefits of Using Virtual Reality Architecture Software

 1. Enhanced Design Communication

VR software bridges the gap between architectural drawings and the client's understanding of the design. Clients can "walk" through the virtual space, gaining a comprehensive understanding of the project, reducing miscommunication, and enhancing the decision-making process.

 2. Streamlined Design Review

Design teams and clients can collaborate in real-time within the virtual environment, making changes and annotations directly in the 3D model. This streamlines the design review process and ensures everyone is on the same page.

 3. Reduced Costs

By identifying design flaws and issues early in the process, VR architecture software can help avoid costly revisions during construction. It also allows for better design optimization, potentially reducing construction costs.

 4. Competitive Advantage

Architectural firms that adopt VR technology gain a competitive edge by showcasing their projects in immersive, engaging ways. It can impress clients and help secure new projects.

 Spotlight on ProtoTech Solutions

ProtoTech Solutions is a renowned name in the world of virtual reality architecture software. As a leader in this field, ProtoTech Solutions offers a range of innovative solutions tailored to the needs of architects and designers.

 ProtoTech's Virtual Reality Software Features

1. Immersive VR Experiences: ProtoTech's VR solutions provide highly immersive experiences, making it easy for clients and stakeholders to visualize architectural designs.

2. Cross-Platform Compatibility: ProtoTech offers VR solutions that work seamlessly across multiple platforms and devices, including VR headsets, desktops, and mobile devices.

3. BIM Integration: ProtoTech's VR software can integrate with popular BIM tools, enabling architects to import complex 3D models and data effortlessly.

4. Real-time Collaboration: ProtoTech's collaboration features allow architects and clients to review and modify designs in real-time, improving communication and decision-making.

 Why Choose ProtoTech Solutions?

Expertise: ProtoTech Solutions has a team of skilled professionals with extensive experience in VR development and architecture.

Customization: They offer tailored solutions to match the unique needs of architectural firms and construction companies.

Proven Track Record: ProtoTech has a strong track record of delivering high-quality VR solutions for the architecture industry.

Support and Training: ProtoTech provides comprehensive support and training to ensure users can maximize the benefits of their VR software.

In conclusion, 

virtual reality architecture software has redefined the way architects design, collaborate, and present their projects. With ProtoTech Solutions at the forefront of this technological revolution, architects and designers have a trusted partner to help them unlock the full potential of VR in their work. Embrace the power of virtual reality and stay ahead in the world of architecture.

How to Deal with Windows 10/11 Nonsense

This is more for my own reference to keep all of this on one post. But hopefully others will find this useful too! So yeah, as the title says, this is a to organize links and resources related to handling/removing nonsense from Windows 10 and Windows 11. Especially bloatware and stuff like that Copilot AI thing.

First and foremost, there's O&O Software's ShutUp10++ (an antispy tool that help give you more control over Windows settings) and App Buster (helps remove bloatware and manage applications). I've used these myself for Windows 10 and they work great, and the developers have stated that these should work with Windows 11 too!

10AppsManager is another bloatware/app management tool, though at the moment it seems to only work on Windows 10.

Winaero Tweaker, similar to ShupUp10++ in that it gives you more control over Windows to disable some of the more annoying settings, such as disabling web search from the taskbar/start menu and disabling ads/tips/suggestions in different parts of the OS. I think ShupUp10++ covers the same options as this one, but I'm not entirely sure.

OpenShell, helps simplify the Start Menu and make it look more like the classic start menu from older versions of Windows. Should work with both 10 and 11 according to the readme.

Notes on how to remove that one horrible AI spying snapshots feature that's being rolled out on Windows 11 right now.

Article on how to remove Copilot (an AI assistant) from Windows 11. (Edit 11/20/2024) Plus a post with notes on how to remove it from Windows 10 too, since apparently it's not just limited to 11 now.

Win11Debloat, a simple script that can be used to automatically remove pretty much all of the bullshit from both 10 and 11, though a lot of its features are focused on fixing Windows 11 in particular (hence the name). Also has options you can set to pick and choose what changes you want!

Article on how to set up Windows 11 with a local account on a new computer, instead of having to log in with a Microsoft account. To me, this is especially important because I much prefer having a local account than let Microsoft have access to my stuff via a cloud account. Also note this article and this article for more or less the same process.

I will add to this as I find more resources. I'm hoping to avoid Windows 11 for as long as possible, and I've already been used the O&O apps to keep Windows 10 trimmed down and controlled. But if all else fails and I have to use Windows 11 on a new computer, then I plan to be as prepared as possible.

Edit 11/1/2024: Two extra things I wanted to add onto here.

A recommended Linux distro for people who want to use Linux instead of Windows.

How to run a Windows app on Linux, using Wine. Note that this will not work for every app out there, though a lot of people out there are working on testing different apps and figuring out how to get them to work in Wine.

The main app I use to help with my art (specifically for 3D models to make references when I need it) is Windows only. If I could get it to work on Linux, it would give me no reason to use Windows outside of my work computer tbh (which is a company laptop anyways).

Tuvalu is preparing to carry out the first planned migration of an entire country in response to the effects of climate change. Recent studies project that much of its territory could be submerged in the next 25 years due to rising sea levels, forcing its inhabitants to consider migration as an urgent survival measure.

This island nation in Oceania is made up of nine coral islands and atolls inhabited by just over 11,000 people. The country’s average altitude is just 2 meters above sea level, making it extremely vulnerable to rising oceans, flooding, and storm surges, all exacerbated by the climate crisis.

A study by NASA’s Sea Level Change Team revealed that, in 2023, the sea level in Tuvalu was 15 centimeters higher than the average recorded over the previous three decades. If this trend continues, it’s projected that most of the territory, including its critical infrastructure, will be below the high-tide level by 2050.

In the face of this existential threat, an unprecedented climate visa program has begun. In 2023, Tuvalu and Australia signed the Falepili Union Treaty, an agreement that provides for a migration scheme that will allow 280 Tuvaluans per year to settle in Australia as permanent residents.

The visas will be allocated through a ballot system and will grant beneficiaries the same health, education, housing, and employment rights enjoyed by Australian citizens. In addition, Tuvaluans will retain the ability to return to their home country if conditions permit.

The first stage of applications was open from June 16 to July 18. “We received extremely high levels of interest in the ballot with 8,750 registrations, which includes family members of primary registrants,” the Australian High Commission in Tuvalu said in a statement on July 23. The first cohort of 280 people will be drawn via a ballot on July 25, the high commission says.

Residents take shelter as floodwaters move inland on the island of Tuvalu, March 14, 2015.Photograph: Getty Images

“When combined with other Pacific pathways to Australia and New Zealand, nearly 4 percent of the population could migrate each year,” says Jane McAdam, a fellow at the Kaldor Centre for International Refugee Law at UNSW Sydney, writing in the Conversation. “Within a decade, close to 40 percent of the population could have moved—although some people may return home or go backwards and forwards.”

Penny Wong, Australia’s foreign minister, said in a statement that the program gives Tuvaluans a chance to settle in Australia “with dignity as climate impacts worsen.” She added that this initiative reflects the deep trust between the two nations and that Tuvaluans are expected to make a valuable contribution to Australian society.

Feleti Teo, prime minister of Tuvalu, called for the support of the international community during his address to the Third UN Ocean Conference in Nice, France, in June. “Tuvalu calls for the development of an international treaty on sea level rise to enshrine the legal rights of affected states and people, including the principles of statehood continuity and the permanency of maritime boundaries,” Teo said. The Tuvalu prime minister also said that his country supports the idea of a Fossil Fuels Non-Proliferation Treaty with “the ultimatum of a rapid, fair and irreversible phase out of fossil fuels across all sectors.”

The agreement with Australia is not the only action taken by Tuvalu in the face of the threat of disappearing. In 2022, the country launched an ambitious strategy to become the world’s first digital nation. This initiative includes 3D scanning its islands to digitally re-create them and preserve their cultural heritage, as well as moving government functions to a virtual environment. In order to protect national identity and sovereignty, the project is also contemplating constitutional reforms to define the country as a virtual state, a concept already recognized by 25 countries, including Australia and New Zealand.

What is happening to Tuvalu could be experienced by other nations. NASA has found that global sea levels rose more than expected over the last year. Its satellite measurements reveal that the annual rate of increase has doubled since 1993, with a rise of 10 centimeters in that period. Pacific islands are particularly vulnerable to rising seas, although the impacts are not limited to that region. For example, sea levels in the Gulf of Mexico have recently risen at three times the global average, according to a study published in Nature in 2023.

Albert van Dijk, professor at Australian National University, has emphasized that climate change is affecting all the planet’s water systems. “From historic droughts to catastrophic floods, these extreme variations disrupt lives, economies and entire ecosystems. Water is our most vital resource, and its extreme behavior represents one of the greatest threats today.”

Engineer reinvents ceramics with origami-inspired 3D printing

In a breakthrough that blends ancient design with modern materials science, researchers at the University of Houston have developed a new class of ceramic structures that can bend under pressure—without breaking. Potential applications for this technology range from medical prosthetics to impact-resistant components in aerospace and robotics, where lightweight—but tough—materials are in high demand. Traditionally known for their brittleness, ceramics often shatter under stress, making them difficult to use in high-impact or adaptive applications. But that may soon change as a team of UH researchers, led by Maksud Rahman, assistant professor of mechanical and aerospace engineering, and Md Shajedul Hoque Thakur, postdoctoral fellow, has shown that origami-inspired shapes with a soft polymer coating can transform fragile ceramic materials into tough, flexible structures. Their work was recently published in Advanced Composites and Hybrid Materials.

Read more.