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Have you ever been mesmerized by a 3D movie and wondered how it is made? 3D film making is a fascinating blend of art and science that requires specialized equipment, advanced techniques and creativity. Let’s explore the complexities of this exciting field! Did you know that the first 3D movie, “The Power of Love”, was released in 1922? However, it was not until the 1950s that 3D films gained popularity, and today, we have access to cutting-edge 3D technology that has taken the industry by storm. The science behind 3D film making is complex. It involves filming with two cameras that are placed a few inches apart to mimic the distance between human eyes. This is known as “stereoscopic imaging”, which allows the brain to perceive depth and create the illusion of a three-dimensional image. Additionally, the creation of 3D films requires specialized software, post-production tools, and editing techniques to create the final product. The art of 3D film making is equally complex. It involves the creation of compelling characters, storylines, and the use of light and shadow to enhance the 3D experience. Directors and cinematographers must also consider the impact of camera angles, framing, and visual effects to create a captivating and immersive experience. Leaders in the field of 3D film making include James Cameron, known for writing and directing “Avatar” and “Titanic", and Ang Lee, who directed the acclaimed “Life of Pi” in 3D. These experts have contributed to the field through their innovative approaches to storytelling and their use of cutting-edge technology. Overall, 3D film making is a fascinating field that requires a unique blend of science and art. With the right equipment, creativity, and expertise, filmmakers can create incredible experiences that transport audiences into new worlds. Are you ready to explore this exciting field further?
3D movies have made a big comeback in recent years, creating an immersive experience for audiences. This is achieved through the use of two slightly offset images, which are then combined by the brain to create a three-dimensional picture. The use of polarization instead of color separation is a more recent approach to making 3D movies, and this technique involves wearing glasses with polarizing lenses. By learning about the science behind 3D movies, you can gain a better understanding of how they are created and appreciate the technology behind them. This can help you to develop your critical thinking skills and broaden your knowledge of the world around you. So, the next time you watch a big-budget Hollywood blockbuster, you'll know a little bit more about the magic of 3D.
Are cultural stereotypes in AI depictions on screen creating a self-fulfilling prophecy for the lack of women in the AI industry? A study by researchers at the University of Cambridge argues that the underrepresentation of women in AI professions on screen is impacting the recruitment and career aspirations of women in this field. The study found that films predominantly depict AI scientists and engineers as men, which reinforces the gender bias in the real-world AI industry. The study emphasizes the need to address the gender inequality in the AI industry to prevent AI products from discriminating against women.
Lovecraftian horror is a unique type of terror that responds to the rapid scientific progress of our era, using scientific elements to lend eerie plausibility. Rather than recognizable monsters or graphic violence, the terror in Lovecraft's fiction lies in what's not directly portrayed, but left instead to the dark depths of our imagination. Lovecraft's protagonists often stumble onto hints of the existence of the Great Old Ones, beings that exist beyond our conceptions of reality, whose true forms are as inscrutable as their motives. Even indirect glimpses of them are enough to drive them insane. The Cthulhu Mythos, named after Lovecraft's infamous blend of dragon and octopus, is a shared universe adopted by a wide variety of authors, often reimagining them from diverse perspectives that transcend the author's prejudices. Learning about Lovecraftian horror will inspire you to independently explore academic topics through reading, reflection, writing, and self-directed projects.
Are you a movie buff who loves to analyze and critique films? Do you have a passion for storytelling and visual arts? Then, studying Film Studies might just be the perfect fit for you! Film Studies is an interdisciplinary field of study that explores the history, theory, and production of cinema. It involves analyzing the artistic, cultural, and social aspects of films, including their narrative structure, cinematography, sound, and visual effects. One of the most appealing aspects of Film Studies is that it allows you to explore the world of cinema from a variety of perspectives. You can study the history of cinema and its evolution over time, examine the cultural and social impact of films on society, or even learn how to create your own films. In recent years, the field of Film Studies has seen some exciting innovations and inspiring academic disclosures. For example, scholars have been exploring the intersection of film and digital media, as well as the impact of globalization on cinema. Additionally, well-known academic figures such as Laura Mulvey and Sergei Eisenstein have made significant contributions to the field through their groundbreaking theories and analyses of film. At the undergraduate level, typical majors and modules in Film Studies include film history, film theory, film production, and screenwriting. As you progress in your studies, you can also specialize in areas such as documentary filmmaking, animation, or film criticism. So, what can you do with a degree in Film Studies? The possibilities are endless! Some potential career paths include film director, screenwriter, film editor, film critic, film historian, or film festival organizer. Key industries for prospective future employment include the film industry, television industry, advertising industry, and the gaming industry. Notable potential employers include companies such as Pixar, Warner Bros, Netflix, and the British Film Institute. To succeed in Film Studies, you'll need a range of personal attributes, skills, and subject interests. A love of cinema and storytelling is a must, as is an ability to think critically and analytically. You'll also need strong communication skills, both written and verbal, as well as technical skills such as video editing and sound design. In conclusion, if you're passionate about cinema and want to explore the world of film in-depth, then studying Film Studies could be the perfect fit for you. With its interdisciplinary approach, exciting innovations, and wide range of potential career paths, Film Studies is a field that can truly take you places.
Unlock the power of 3D storytelling with this comprehensive guide! Hollywood producer Bruce Block and Dreamworks stereoscopic supervisor Philip Captain 3D McNally share their insider knowledge on how to creatively use 3D to enhance your storytelling. From integrating 3D design into your script to directing and designing the depth of your shots, this book provides practical tips and techniques that can be immediately applied to your 3D production. With interviews from leading stereographers and visual aids to illustrate key concepts, this guide is a must-read for anyone looking to take their 3D storytelling to the next level." Recommended for filmmakers, cinematographers, and designers looking to enhance their storytelling with 3D technology. This book provides practical tips and techniques on how to integrate 3D design into your script or story, direct and design the 3D depth of your shots, and create a comfortable viewing experience for the audience. It also covers editing and directorial considerations for 3D, making it a valuable resource for anyone interested in the technical and aesthetic aspects of 3D storytelling. Whether you're a student of film, a professional in the industry, or simply a lover of 3D technology, this guide is an essential foundation for mastering the art of 3D storytelling.
Marine archaeologists and explorers embark on a daring mission to locate Sir Ernest Shackleton's lost ship, Endurance, trapped in the treacherous Antarctic sea-ice for over 100 years. Despite failed attempts, the fascination with Shackleton's Imperial Trans-Antarctic Expedition and the legendary escape of his men fuels the search for this elusive shipwreck. With new technology and tactics, the Endurance22 project sets out to make history and answer the question: what would it mean to find the Endurance?
Pyrex, the first-ever consumer cooking products made with temperature-resistant glass, revolutionized the way we think about glass and fueled an interest in more durable materials. Learn about the history of Pyrex and its impact on the functional design of cookware in an exhibit at the Corning Museum of Glass. Discover how home economics and the role of women in academia, public education, industry, and government influenced the development of Pyrex.
Have you ever wondered what lies beyond the pages of a closed book? Imagine being able to see the words on the pages without ever opening the cover. This is the exciting concept behind the technology developed by a group at MIT. Using terahertz waves, they can now read through closed books and uncover the hidden information inside. To do this, they had to overcome a series of challenges including the need for a radiation source that can penetrate the paper, the ability to distinguish between different pages, and the recognition of characters that are partially hidden. Learning about these academic concepts not only expands your knowledge of science and technology but also opens up new possibilities for studying antique documents and other important materials. Take the first step towards exploring the unseen world and discover the thrill of uncovering hidden information.
The future is unpredictable and exciting, and everyone from world leaders to industry experts wants to know what's in store. Futurists use trend analysis to make predictions, but there are always surprises that no one could have foreseen. Science fiction has been a useful tool for imagining the unimaginable and thinking outside of the box. The best science fiction invites us to consider the consequences of radical shifts in familiar institutions, and can even fulfill the words of philosopher Michel Foucault by making windows where there were once walls. By reading science fiction, we can prepare for a future that will be as magical to us as our present would be to someone from the 19th century. Science fiction can inspire us to work towards making the possibilities it presents a reality.
Are you a creative individual who loves to tell stories through visual mediums? If so, you may want to consider studying Film Making at university undergraduate level. Film Making is a fascinating field of study that combines art, technology, and storytelling to produce captivating films that entertain, educate, and inspire audiences around the world. One of the most appealing aspects of studying Film Making is the opportunity to explore your creativity and develop your own unique style. From writing screenplays to directing actors, you'll learn how to bring your vision to life on the big screen. You'll also gain an understanding of the technical aspects of film production, such as lighting, sound, and editing, which will enable you to create films that are both visually stunning and emotionally impactful. In addition to the practical skills you'll learn, you'll also be exposed to a wide range of academic discourse and research that will broaden your understanding of the art and science of film making. From the history of cinema to the latest innovations in digital technology, you'll gain a deep appreciation for the art form and the role it plays in our society. At the undergraduate level, you can expect to take courses in a variety of areas, including screenwriting, cinematography, directing, and editing. You may also have the opportunity to specialize in a particular area of film making, such as documentary filmmaking, animation, or visual effects. As for potential career paths, the possibilities are endless. Graduates of Film Making programs go on to work in a variety of industries, including film and television production, advertising, and digital media. Some notable employers include Pixar, Warner Bros., and Netflix, to name just a few. To succeed in this field, you'll need to be creative, passionate, and hardworking. You should also have a strong interest in storytelling, visual arts, and technology. If you're ready to explore your creative potential and make your mark in the world of film making, then studying Film Making at the undergraduate level may be the perfect choice for you!
Discover the fascinating story of how a broken soda fountain led to the creation of ICEE, the science behind its slushy texture, and the complex chemistry of its flavor syrup. Explore the avalanche-like physics of how ICEE solidifies and the Joules-Thomson effect that makes it puff up. Learn about the inventor, Omar Knedlik, and how his entrepreneurial spirit led to the mass production of his invention, eventually renamed Slurpee by 7-Eleven.
Are you a music lover with a passion for creating and producing your own beats? Look no further than the dynamic field of Music Production! Music Production is the art of creating, recording, and producing music using the latest technology and techniques. It's a fascinating field that combines creativity, technical skill, and a love of music. In recent years, Music Production has seen some incredible innovations and breakthroughs, with new software and equipment making it easier and more accessible than ever before. From the latest digital audio workstations to cutting-edge mixing and mastering tools, Music Production is a constantly evolving field that is always pushing the boundaries of what's possible. At the undergraduate level, students can expect to take a range of modules covering everything from music theory and composition to sound engineering and production techniques. Majors in Music Production can also choose to specialize in areas such as film scoring, live sound, or electronic music production. But what can you do with a degree in Music Production? The possibilities are endless! Graduates can go on to work as producers, mixing and mastering engineers, sound designers, and music composers. They can find employment in a range of industries, from music production companies and record labels to film and television studios, advertising agencies, and video game developers. Some notable employers in the field of Music Production include Sony Music, Universal Music Group, Warner Music Group, and Abbey Road Studios. And with the rise of streaming services like Spotify and Apple Music, there are more opportunities than ever for Music Production graduates to make their mark in the industry. To succeed in Music Production, you'll need a combination of technical skill, creativity, and a passion for music. Strong communication skills and the ability to work well in a team are also important, as Music Production often involves collaborating with musicians, artists, and other professionals. So if you're ready to turn your love of music into a rewarding career, consider studying Music Production at the undergraduate level. With its endless possibilities and exciting innovations, this is one field that is sure to keep you inspired and engaged for years to come.
Teflon, a material that doesn't stick to anything, was stumbled upon accidentally in 1938 by a chemist named Roy Plunkett. Teflon's properties make it perfect for things that need to be slippery, chemical-resistant, or waterproof, which means it has a lot of applications. It can be found all over the place, from raincoats to industrial ball bearings to artificial joints. The incredible properties of PTFE, the chemical name for Teflon, come from its molecular structure. It's a polymer, meaning it's made of long chains of repeating units of atoms strung together. PTFE has tight carbon-fluorine bonds that ignore the normal, intermolecular forces that help substances stick to each other. Even the famously adhesive feet of geckos usually can't get a grip on it. Learning about the properties of materials like Teflon can inspire independent exploration of science and engineering, which can lead to exciting career opportunities in fields like materials science and chemical engineering.
This story of Harry Coover, a chemist during World War II, highlights the importance of persistence and creative thinking in academic pursuits. Coover and his team encountered challenges in their research, but instead of giving up, they looked for alternative uses for the materials they were working with. This led to the creation of super glue, which has saved countless lives in medical settings. This story shows that academic curiosity and perseverance can lead to unexpected discoveries with practical applications. By exploring academic topics through reading, reflection, and self-directed projects, students can develop the skills needed to tackle complex problems and make meaningful contributions to society.
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.
The Art and Science of Digital Compositing is the ultimate guide to mastering the technical and artistic aspects of digital compositing. With over 25,000 copies in print, this newly updated edition is packed with 400+ full-color images and 17 in-depth case studies, revealing secrets and techniques used by industry experts. From basic image creation to advanced 3D compositing, HDR imaging, and rotoscoping, this book is an essential reference for novices and professionals alike. The accompanying DVD-ROM provides hands-on experience with real industry materials, making this book a must-read for anyone looking to create seamless and believable visual effects. Recommended for aspiring visual effects artists, filmmakers, and anyone interested in the technical and artistic aspects of digital compositing, The Art and Science of Digital Compositing is an indispensable guide to mastering the craft. With its comprehensive coverage of basic and advanced techniques, this book is relevant to a wide range of fields of study and professions, including animation, graphic design, photography, and advertising. The 17 in-depth case studies featuring blockbuster films like The Lord of the Rings and Star Wars make this book a valuable resource for anyone interested in the behind-the-scenes workings of the film industry.
Have you ever thought about why we use the number system we do? Did you know that there are other systems out there, like base 12, that could make math easier and more enjoyable? In a dozenal world, numbers are represented using 12 symbols instead of 10, which makes it easier to divide numbers into whole numbers. This makes it easier to use currency and measure things like fractions. Plus, some times tables work more nicely in base 12. It might seem confusing to switch to a new system, but civilizations have switched between bases throughout history. By exploring different number systems, you can expand your understanding of math and challenge yourself to think outside the box. Who knows, maybe you'll discover a new way of thinking about numbers that will make math more enjoyable for you!
Plastics have become ubiquitous in our daily lives, but few of us know the history behind this versatile material. The first plastic was created in 1863 by an American named John Wesley Hyatt, who invented celluloid, made from cellulose found in wood and straw. This discovery led to a cascade of new plastics, including bakelite, polystyrene, polyvinyl chloride, acrylics, and nylon. Plastics have replaced other materials like wood, glass, and fabric in furniture, clothing, and packaging. While plastics have brought convenience and cost-effectiveness, they have also created staggering environmental problems. Many plastics are made of nonrenewable resources, and plastic packaging was designed to be single-use, but some plastics take centuries to decompose, creating a huge buildup of waste. By learning about plastics, students can understand how science and innovation have shaped our world, and they can explore ways to address the environmental problems associated with plastic use.
Glass is a material that we use every day, but have you ever wondered how it works? Glass is made from silicon dioxide, which is heated until it becomes a flowing liquid. As it cools, the molecules lose energy and become an amorphous solid, allowing light to pass through without being scattered. The subatomic level of glass is what makes it transparent, as the electrons in glass are spaced far enough apart that visible light can't provide enough energy for them to jump between them. This unique property has made glass an essential material for many uses, from windows to lenses. Understanding the science behind glass can help you appreciate the importance of this material in modern civilization.
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