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Have you ever wondered how suspension bridges hold up under the weight of traffic or how dams can withstand the force of thousands of gallons of water? J.E. Gordon's Structures: Or Why Things Don't Fall Down is an accessible and witty explanation of the basic forces that hold together the essential things of our world. From buildings and bodies to flying aircraft and eggshells, this book will ease your anxiety and answer your questions. Recommended for architects, engineers, and anyone interested in the foundations of our everyday lives, Structures: Or Why Things Don't Fall Down by J.E. Gordon offers a clear and cogent explanation of the concepts of stress, shear, torsion, fracture, and compression. Whether you're building a house, a sailboat, or a catapult, this book is a handy tool for understanding the mechanics of joinery, floors, ceilings, hulls, masts, and flying buttresses. With its encyclopedic range of reference and witty insights, this book is also a fascinating read for those interested in the marvels of technology that shape our world.
The Leaning Tower of Pisa, one of Italy's most iconic structures, has been saved from a date with gravity through decades of interventions. The latest survey shows the tower's health to be much better than forecasted, having crept upright by 4 centimeters in 21 years since stabilisation works were done.
Neri Oxman is a groundbreaking designer and architect who has been pushing the boundaries of interdisciplinary design for over a decade. As a leader in the field, she has made significant contributions to our understanding of how design can be used to solve complex problems at the intersection of science, engineering, and art. Interdisciplinary design is a field that seeks to bring together different disciplines in order to tackle complex problems and find innovative solutions. This approach is important because it allows us to take a holistic and integrated approach to design, rather than relying solely on one discipline. For example, Neri Oxman's work often involves collaboration between architects, engineers, materials scientists, and computer scientists to create structures and products that are not only beautiful and functional but also sustainable. One of Neri Oxman's most well-known projects is the Silk Pavilion, a structure made entirely of silkworms. The silkworms spun the silk around a steel frame, creating a structure that was both aesthetically stunning and environmentally friendly. This project highlights the importance of interdisciplinary design, as it involves the integration of biology, engineering, and architecture to create a new type of structure. Another example of Neri Oxman's interdisciplinary approach is her work on the Mediated Matter Group at MIT, where she is a Professor of Media Arts and Sciences. This group brings together researchers from diverse backgrounds to work on projects that explore the intersection of digital design, manufacturing, and the natural world. One of their projects, for example, involves using 3D printing technology to print structures made of natural materials, such as wood and mycelium (the vegetative part of mushrooms). Neri Oxman's contributions to interdisciplinary design have been recognized by leading academics in the field. For example, Walter Berry, Dean of the School of Architecture at the University of Virginia, has said that "Neri Oxman is a visionary who is pushing the boundaries of design in new and exciting ways."
Architecture is more than just designing buildings, it's about creating spaces that inspire, evoke emotion and are functional. It's a field that blends creativity, innovation and technical skills to create structures that are both aesthetically pleasing and practical. Architects are responsible for designing everything from homes to skyscrapers, and their work can be seen all around us. From the iconic Sydney Opera House to the towering Burj Khalifa in Dubai, architects have left their mark on the world. In recent years, there has been a surge of interest in sustainable architecture, with many architects incorporating environmentally friendly design principles into their work. This has led to some incredible innovations, such as buildings that generate their own energy, and structures that are made entirely from recycled materials. Studying architecture at undergraduate level will give you a strong foundation in the principles of design, construction and engineering. You will learn how to use a range of software programs to create 2D and 3D designs, as well as how to read and interpret architectural plans. As you progress through your studies, you will have the opportunity to specialize in areas such as urban planning, sustainable design or historic preservation. You may even have the chance to study abroad, gaining valuable experience and exposure to different architectural styles and techniques. Upon graduation, you will be equipped with the skills and knowledge to pursue a range of careers in the architecture industry. You could work for a large architecture firm, designing structures for clients around the world. Alternatively, you could work in the public sector, designing public spaces such as parks or government buildings. Some of the most notable employers in the industry include Foster + Partners, Zaha Hadid Architects, and Gensler. These firms are known for their innovative designs and commitment to sustainable architecture. To succeed in the field of architecture, you will need to be creative, detail-oriented and have strong technical skills. You should also have a passion for design and a desire to create structures that are not only beautiful but also functional and sustainable. In summary, studying architecture at undergraduate level is an exciting and rewarding experience that will equip you with the skills and knowledge to pursue a range of careers in the architecture industry. Whether you want to design skyscrapers or public spaces, this field of study offers endless opportunities for creativity and innovation.
Have you ever wondered how cities are built? How bridges are constructed? How roads are designed? If you have, then a career in civil engineering might be the perfect fit for you! Civil engineering is a field that involves designing, building, and maintaining infrastructure such as roads, bridges, buildings, and water systems. Civil engineers use their knowledge of mathematics, physics, and materials science to create safe, efficient, and sustainable structures that meet the needs of society. As a civil engineer, you could work on a wide range of projects, from designing a new highway to creating a sustainable water treatment system. You could be responsible for ensuring the safety of thousands of people who use the structures you design and build. Some of the most exciting and meaningful aspects of civil engineering include the ability to make a real difference in people's lives. For example, you could design a new hospital that saves lives, or create a new transportation system that reduces traffic and pollution. You could also work on projects that help communities recover from natural disasters, such as earthquakes or floods. Typical duties of a civil engineer include designing structures, managing construction projects, and conducting inspections to ensure that structures are safe and meet building codes. Civil engineers can also specialize in areas such as geotechnical engineering, environmental engineering, or structural engineering. To become a civil engineer, you typically need a bachelor's degree in civil engineering or a related field. Popular undergraduate programs include civil engineering, environmental engineering, and structural engineering. Some civil engineers also pursue advanced degrees, such as a master's or doctorate, to specialize in a particular area of the field. Helpful personal attributes for civil engineers include strong analytical skills, attention to detail, and the ability to work well in a team. Civil engineers must also be able to communicate effectively with clients, contractors, and other stakeholders. Job prospects for civil engineers are strong, with the field projected to grow by 6% from 2018 to 2028. Civil engineers can find employment in a variety of sectors, including government agencies, consulting firms, and construction companies. Some notable employers include the U.S. Army Corps of Engineers, Bechtel Corporation, and Jacobs Engineering Group. In conclusion, a career in civil engineering offers the opportunity to make a real difference in people's lives, work on exciting and meaningful projects, and have a positive impact on the world around us. If you have a passion for math, science, and design, consider exploring this rewarding and fulfilling career path.
Are you fascinated by the way vehicles move around cities and countries? Do you wonder how transportation systems are designed to ensure the smooth flow of people and goods? If you answered yes to these questions, then you might want to consider studying Transportation Engineering. Transportation Engineering is a field of study that combines elements of civil engineering, urban planning, and environmental science to design and maintain transportation systems. This includes roads, highways, airports, railways, and public transportation systems. Transportation engineers work to ensure that these systems are safe, efficient, and sustainable. One of the most interesting aspects of Transportation Engineering is the role it plays in shaping our daily lives. For example, transportation engineers design traffic signals to reduce congestion, plan bike lanes to encourage active transportation, and create public transportation networks to improve accessibility. They also work to reduce the environmental impact of transportation systems by developing sustainable transportation options. Recent research in Transportation Engineering has focused on innovative technologies such as autonomous vehicles, electric cars, and smart transportation systems. These advancements have the potential to revolutionize the way we move around our cities and countries. At the undergraduate level, students can expect to take courses in transportation planning, traffic engineering, and transportation systems analysis. They may also have the opportunity to specialize in areas such as airport design, railway engineering, or sustainable transportation. After completing their studies, graduates of Transportation Engineering can pursue careers in a variety of industries, including transportation planning, traffic engineering, and public transportation management. Some notable employers include the Department of Transportation, engineering consulting firms, and transportation technology companies. To succeed in this field, students should have strong analytical and problem-solving skills, as well as an interest in urban planning and environmental sustainability. They should also have a solid foundation in mathematics and physics. If you are passionate about designing transportation systems that improve people's lives and want to make a positive impact on the world, then Transportation Engineering might be the perfect field of study for you.
Do you love the idea of designing and building transportation systems that improve people's lives? If so, you might be interested in a career in transportation engineering. This exciting field is all about creating efficient and sustainable transportation solutions that keep people and goods moving safely and smoothly. As a transportation engineer, you'll work on a wide range of projects, from designing highways and bridges to planning public transit systems and bike lanes. You'll use your expertise in math, physics, and engineering to develop innovative solutions that make transportation more accessible, affordable, and environmentally friendly. One of the most appealing aspects of transportation engineering is the opportunity to work on projects that have a real impact on people's lives. For example, you might design a new highway that reduces traffic congestion and makes commuting faster and safer for thousands of drivers. Or you might help plan a new public transit system that provides affordable and reliable transportation for people who don't have access to a car. Some of the typical duties of a transportation engineer include conducting research and analysis to identify transportation needs and problems, developing and evaluating design options, preparing cost estimates and project schedules, and working with other engineers, architects, and planners to coordinate projects. There are many different areas of specialization within transportation engineering, including traffic engineering, urban planning, and environmental engineering. Depending on your interests and career goals, you might choose to focus on one of these areas or work across multiple disciplines. To become a transportation engineer, you'll typically need to earn a bachelor's degree in civil engineering or a related field. Popular undergraduate programs for aspiring transportation engineers include civil engineering, transportation engineering, and urban planning. In addition to technical skills and knowledge, there are several personal attributes that can be helpful for success in transportation engineering. These include strong communication skills, problem-solving abilities, attention to detail, and a passion for making a positive impact on people's lives. Job prospects for transportation engineers are strong and expected to grow in the coming years, particularly in the areas of sustainable transportation and infrastructure development. Some notable employers of transportation engineers include government agencies like the Federal Highway Administration and private companies like AECOM and Jacobs Engineering. So if you're interested in a career that combines technical expertise with real-world impact, transportation engineering might be the perfect fit for you. With a wide range of exciting projects and opportunities for growth, this field offers endless possibilities for those who are passionate about creating a better world through transportation.
A permanent sunshade will be attached to London's "Walkie-Talkie" skyscraper to prevent reflected sunlight from damaging nearby properties. Developer Land Securities has received planning permission for the "brise soleil" solution after the glare from the building melted parked vehicles and damaged shops in the City of London. Discover how this innovative solution will solve the solar glare issue and protect the surrounding area.
Are you fascinated by cars and how they work? Do you dream of designing the next generation of vehicles that will take the world by storm? If so, then Automotive Engineering might be the perfect field of study for you! Automotive Engineering is an exciting and dynamic field that combines elements of mechanical, electrical, and materials engineering to create the vehicles of tomorrow. From designing engines and transmissions to improving fuel efficiency and safety features, Automotive Engineering covers a wide range of fascinating topics that will keep you engaged and inspired throughout your studies. One of the most interesting aspects of Automotive Engineering is the constant innovation and research that is taking place in the field. From developing new materials that are stronger and more lightweight to improving hybrid and electric vehicle technology, there is always something new and exciting happening in the world of Automotive Engineering. Some of the most well-known figures in the field include Ferdinand Porsche, who designed the iconic Porsche 911, and Elon Musk, who is leading the charge in developing electric and autonomous vehicles through his company Tesla. At the undergraduate level, students can expect to study a range of modules that cover topics such as vehicle dynamics, engine design, and materials science. There are also opportunities for further specialisation in areas such as aerodynamics, alternative fuels, and vehicle safety. After graduation, there are a wide range of potential career paths available to Automotive Engineering graduates, including roles in vehicle design, research and development, and manufacturing. Some of the most notable employers in the field include Ford, General Motors, and BMW, as well as government agencies such as NASA and the Department of Defense. To succeed in Automotive Engineering, students should have a strong foundation in math, physics, and chemistry, as well as an interest in mechanical and electrical systems. They should also possess strong problem-solving skills and be able to work well in a team environment. So if you're ready to take your love of cars to the next level, consider studying Automotive Engineering and be a part of shaping the future of transportation!
Are you curious about how technology is shaping the future of our cities? This book by an internationally renowned architect and urban planner explores the major technological forces driving urban change. Discover how digital systems are transforming urban life and explore new visions for tomorrow's city. With a front-row seat to experimentation and implementation of urban initiatives, the authors call for a new approach to envisioning cities: futurecraft, a symbiotic development of urban ideas by designers and the public. Join the conversation and shape the most desirable future for our cities. Recommended for urban planners, architects, designers, and anyone interested in the intersection of technology and urban life. This book explores the major technological forces driving the future of cities, providing new visions for tomorrow's city. With a front-row seat to experimentation and implementation of urban initiatives, the authors call for a new approach to envisioning cities: futurecraft, a symbiotic development of urban ideas by designers and the public. This book may also be relevant to those studying fields such as urban studies, engineering, and computer science, as well as anyone interested in shaping the future of our cities.
Have you ever looked up at the sky and wondered how planes and rockets are able to soar through the air and reach the farthest corners of our galaxy? If you're curious about the science behind flight and space travel, then Aerospace Engineering might just be the perfect field of study for you! Aerospace Engineering is a fascinating discipline that combines principles of physics, mathematics, and materials science to design, build, and test aircraft, spacecraft, and other flying vehicles. From developing cutting-edge technologies for space exploration to creating more fuel-efficient and environmentally-friendly airplanes, the possibilities in this field are endless. One of the most exciting aspects of Aerospace Engineering is the constant innovation and research happening in the industry. From the development of supersonic planes to the exploration of Mars, there are always new and groundbreaking projects happening in this field. And with the rise of commercial space travel, the demand for skilled Aerospace Engineers is only set to increase. At the undergraduate level, students can expect to study a range of modules, including aerodynamics, propulsion, materials science, and control systems. There are also opportunities for specialisation in areas such as space systems engineering or aircraft design. But what can you do with a degree in Aerospace Engineering? The possibilities are vast and varied! Graduates can go on to work in the aerospace industry, designing and testing new aircraft and spacecraft for companies such as Boeing, Airbus, and NASA. They can also work in the defense industry, developing advanced technologies for military use. Other potential career paths include working in research and development, government agencies, or even starting their own aerospace companies. To succeed in Aerospace Engineering, it's helpful to have a strong background in mathematics, physics, and computer science. Attention to detail, problem-solving skills, and a passion for innovation are also important attributes for success in this field. So if you're ready to take your curiosity about flight and space to the next level, consider studying Aerospace Engineering at university. Who knows - you might just be the next person to design the next breakthrough technology in aviation or space exploration!
Are you fascinated by the design and construction of towering skyscrapers, magnificent bridges, and sprawling road networks? Do you want to be a part of the team that creates the infrastructure that shapes our world? If so, then studying Civil Engineering at the undergraduate level might be the perfect fit for you! Civil Engineering is a field of study that involves the design, construction, and maintenance of the built environment. This includes everything from buildings and bridges to roads and water systems. Civil Engineers use their technical skills and creativity to solve complex problems and create structures that are safe, efficient, and sustainable. In recent years, there have been several exciting innovations in the field of Civil Engineering. For example, researchers have developed new materials that are stronger and more durable than ever before. They have also used cutting-edge technology like drones and 3D printing to improve the efficiency of construction projects. Some of the most inspiring academic figures in the field include Dr. Henry Petroski, who has written extensively on the history of engineering failures, and Dr. Linda Hanagan, who is a leading expert on sustainable infrastructure. At the undergraduate level, students in Civil Engineering typically take courses in subjects like structural analysis, geotechnical engineering, and transportation planning. They may also have the opportunity to specialize in areas like environmental engineering or construction management. Some exciting examples of real-life Civil Engineering projects include the construction of the Burj Khalifa in Dubai, the Panama Canal expansion, and the redevelopment of the World Trade Center site in New York City. After graduation, there are a wide range of potential career paths for Civil Engineers. They may work for government agencies, construction firms, or consulting firms. Some popular industries for prospective employment include transportation, energy, and water resources. Notable potential employers include the US Army Corps of Engineers, Bechtel Corporation, and Arup Group. Other careers that may be relevant to Civil Engineering include architecture, urban planning, and environmental science. To succeed in this field of study, it is helpful to have strong math and science skills, as well as an interest in problem-solving and design. Effective communication and teamwork skills are also essential, as Civil Engineers often work on projects with large, interdisciplinary teams. If you're ready to take on the challenge of creating the infrastructure of the future, then studying Civil Engineering may be the perfect choice for you!
Have you ever dreamed of creating the next iconic skyscraper or transforming an entire neighborhood? If so, a career in Real Estate Development might be the perfect fit for you! Real Estate Development is a fascinating and diverse field that involves the creation, renovation, and management of various properties, including commercial, residential, and industrial spaces. It is a dynamic industry that requires creativity, strategic thinking, and a passion for architecture and design. As a Real Estate Developer, you will have the opportunity to work on exciting projects that shape the way people live, work, and play. You could be involved in everything from acquiring land, securing financing, and designing the building, to marketing and leasing the property. One of the most appealing aspects of Real Estate Development is the potential for specialization. You could focus on a particular type of property, such as hotels or shopping centers, or specialize in a specific phase of the development process, such as project management or urban planning. To become a Real Estate Developer, you typically need a Bachelor's degree in a related field, such as Architecture, Engineering, or Business Administration. Many universities offer specialized programs in Real Estate Development, such as the Bachelor of Science in Real Estate Development at the University of Southern California or the Bachelor of Science in Urban and Regional Planning at Florida State University. In addition to formal education, there are several helpful personal attributes that can make you a successful Real Estate Developer. These include strong communication and negotiation skills, attention to detail, and the ability to think creatively and strategically. The job prospects for Real Estate Developers are promising, with the Bureau of Labor Statistics projecting a 7% growth rate in employment from 2018 to 2028. There are many notable and attractive potential employers in both the public and private sectors around the world, including companies like Brookfield Properties, Blackstone Group, and Vornado Realty Trust. So, if you have a passion for architecture and design, a talent for strategic thinking, and a desire to shape the future of our built environment, a career in Real Estate Development might just be the perfect fit for you!
Learning about lift and how planes fly may seem daunting, but it's a fascinating and important academic concept to explore. The force of lift is generated by the wings of a plane, which creates a difference in pressure above and below the wing. This pressure difference results in the upwards force of lift, allowing planes to take off and fly. While some explanations of lift have been debunked, the physics of fluid in motion remains constant. Understanding lift not only satisfies curiosity but also has practical applications in the field of aeronautics. By exploring this complex process, students can gain a deeper understanding of the world around them and potentially even contribute to advancements in the field.
Are you fascinated by the movement of people and goods across cities and countries? Do you want to play a vital role in shaping the future of transportation? Then studying Transportation Planning might be the perfect fit for you! Transportation Planning is a field of study that involves designing and implementing transportation systems that are efficient, safe, and sustainable. It incorporates elements of civil engineering, urban planning, and environmental science to create transportation systems that meet the needs of society. One of the most appealing aspects of Transportation Planning is its real-life applications. For example, transportation planners may design new bike lanes to encourage more people to cycle to work, or they may develop a new public transit system to reduce traffic congestion in a city. These solutions can have a significant impact on people's daily lives, making Transportation Planning a meaningful and rewarding field of study. In recent years, there has been a surge in research and innovation in Transportation Planning. From the rise of autonomous vehicles to the use of big data to optimize transportation systems, there are many exciting developments happening in the field. Well-known academic figures like Susan Shaheen and Robert Cervero have made significant contributions to the field, inspiring new generations of students to pursue careers in Transportation Planning. At the undergraduate level, students can expect to take courses in subjects like transportation modeling, traffic engineering, and sustainable transportation. They may also have the opportunity to specialize in areas like public transportation, freight transportation, or transportation safety. Real-life examples of Transportation Planning in action include the development of bike-sharing programs in cities like Paris and New York, and the creation of high-speed rail systems in countries like Japan and China. Upon graduation, Transportation Planning majors can pursue a variety of careers in both the public and private sectors. They may work for government agencies like the Department of Transportation or private consulting firms like AECOM or Arup. Potential roles include transportation planner, traffic engineer, or sustainability consultant. Notable employers in the field include the World Bank, the United Nations, and the European Union. To succeed in Transportation Planning, students should have strong analytical and problem-solving skills, as well as an interest in urban planning and environmental sustainability. A background in math and science can also be helpful, as many Transportation Planning courses involve quantitative analysis. With the right skills and passion, students can make a real difference in the world of transportation and help shape the future of our cities and communities.
Are you passionate about the environment and want to make a positive impact on the world? Then a career as a Green Building Engineer might just be the perfect fit for you! As a Green Building Engineer, you'll be responsible for designing and implementing sustainable building practices that reduce the impact on the environment. One of the most appealing aspects of this role is the opportunity to work on exciting and innovative projects that are making a real difference in the world. For example, you could be involved in designing a LEED-certified building that uses solar panels, rainwater harvesting systems, and energy-efficient heating and cooling systems. Or you could be working on a project that involves retrofitting an existing building to make it more sustainable. As a Green Building Engineer, your typical duties might include conducting energy audits, developing sustainability plans, designing green building systems, and overseeing construction projects. There are also many areas of specialization within this field, including sustainable design, renewable energy systems, and green building materials. To become a Green Building Engineer, you'll typically need a degree in engineering, architecture, or a related field. Popular undergraduate programs and majors include Civil Engineering, Environmental Engineering, and Architecture. Helpful personal attributes include strong problem-solving skills, creativity, and a passion for sustainability. Job prospects in this field are excellent, with a growing demand for sustainable building practices around the world. Some notable employers in this field include the U.S. Green Building Council, the World Green Building Council, and the International Living Future Institute. With a career as a Green Building Engineer, you'll not only be making a positive impact on the environment, but you'll also have the opportunity to work on exciting and innovative projects that are shaping the future of the built environment.
MIT researchers have discovered a way to reduce concrete's carbon footprint by introducing baking soda into the manufacturing process. This new method could potentially mineralize up to 15% of the carbon dioxide associated with cement production, without altering the material's mechanical properties. The resulting concrete sets more quickly and doubles its mechanical performance. This breakthrough could pave the way for the development of carbon-neutral construction materials.
Are you fascinated by the idea of designing and building the next generation of aircraft and spacecraft? Then the study of Aerospace Manufacturing might be the perfect field for you! This exciting field of study combines engineering, materials science, and manufacturing techniques to create cutting-edge aerospace technologies that are changing the world. Aerospace Manufacturing is all about creating the most efficient and effective aircraft and spacecraft possible. This involves using the latest materials and manufacturing techniques to create lightweight and durable structures, as well as designing innovative propulsion systems that can take us further and faster than ever before. From drones to rockets, aerospace manufacturing is at the forefront of technological innovation. In recent years, there have been some incredible breakthroughs in aerospace manufacturing. Researchers are developing new materials that are stronger and lighter than ever before, and engineers are designing new propulsion systems that can take us to Mars and beyond. Some of the most inspiring academic figures in this field include Elon Musk, the founder of SpaceX, and Dr. Anita Sengupta, a leading aerospace engineer who has worked on projects like the Mars Rover. At the undergraduate level, students can expect to take courses in materials science, engineering design, and manufacturing processes. They will also have the opportunity to specialize in areas like aerodynamics, propulsion systems, and space systems engineering. Some of the most exciting potential areas of specialization include designing new aircraft and spacecraft, developing advanced propulsion systems, and exploring the frontiers of space. There are a wide range of potential careers in Aerospace Manufacturing, from designing new aircraft and spacecraft to working on cutting-edge propulsion systems. Some of the most popular careers in this field include aerospace engineer, manufacturing engineer, and materials scientist. Graduates may find employment in key industries such as aviation, aerospace, defense, and space exploration. Some of the most notable and attractive potential employers include NASA, Boeing, Airbus, Lockheed Martin, and SpaceX. To succeed in Aerospace Manufacturing, students should have a strong background in mathematics and physics, as well as an interest in engineering and materials science. They should also be creative problem-solvers who are able to think outside the box and come up with innovative solutions to complex problems. So if you're interested in designing the next generation of aircraft and spacecraft, consider studying Aerospace Manufacturing at the undergraduate level. With exciting research, innovative technologies, and a wide range of potential career paths, this field is sure to inspire and challenge you in equal measure.
Are you someone who loves to travel and has a passion for adventure? Do you dream of being up in the sky, soaring through the clouds and seeing the world from a bird's eye view? Then a career in aviation might just be the perfect fit for you! Aviation is a dynamic and exciting field that offers a wide range of opportunities for those who are passionate about flying. Whether you want to be a pilot, an air traffic controller, or work in aircraft maintenance, there's a career in aviation that's right for you. As a pilot, you'll be responsible for flying passengers or cargo to destinations all over the world. You'll need to have excellent hand-eye coordination, quick reflexes, and good communication skills to keep your passengers safe and comfortable. Pilots can work for commercial airlines, private charter companies, or even the military. If you're interested in air traffic control, you'll be responsible for keeping planes safe as they take off and land. You'll need to be able to think quickly and make split-second decisions to ensure that planes stay on course and avoid collisions. Air traffic controllers work in control towers at airports, and can also work for the military. For those interested in aircraft maintenance, you'll be responsible for keeping planes in top condition. You'll need to have a keen eye for detail and be able to work with complex machinery. Aircraft maintenance technicians work for airlines, private charter companies, and even the military. To get started in a career in aviation, you'll need to have a solid education and training. Many pilots start by earning a degree in aviation, while air traffic controllers and aircraft maintenance technicians often start with a degree in engineering or a related field. Helpful personal attributes for a career in aviation include a love of flying, a strong work ethic, and excellent communication skills. You'll need to be able to work well under pressure and be able to think on your feet. Job prospects in aviation are strong, with many opportunities available for those with the right skills and education. Notable and attractive potential employers include major airlines like Delta, United, and American Airlines, as well as private charter companies like NetJets and Wheels Up. So if you're ready to take to the skies and see the world from a whole new perspective, a career in aviation might just be the perfect fit for you!
MIT researchers have developed an AR headset, X-AR, that gives the wearer X-ray vision to locate and retrieve hidden items. Using RF signals and RFID tags, the headset directs the user to the hidden object, which shows up as a transparent sphere in the AR interface. X-AR could revolutionize e-commerce warehouses and manufacturing facilities by quickly finding items on cluttered shelves or buried in boxes. The research will be presented at the USENIX Symposium on Networked Systems Design and Implementation.
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