Have you ever wondered what it would be like to have a perfect memory? In the short story "Funes, the Memorious," Jorge Luis Borges explores just that. His character, Ireneo Funes, remembers everything he has ever seen in perfect detail, rendering him unable to think beyond the overwhelming details. Borges was a master of exploring infinity, and his literary style of "lo real maravilloso," known in English as Magical Realism, is evident in his body of essays, poems, and stories. He was an avid reader, and his image of paradise was an infinite library, an idea he brought to life in "The Library of Babel." Borges' work also explores the idea of condensing all of time into a single moment, as seen in "The God's Script." Reading Borges can give you a glimpse of infinity and inspire you to explore the depths of your own imagination.

Maps are a fundamental tool for navigation and education, but did you know that every map humans have ever made is wrong? That's because it's impossible to make a 100% accurate flat map of a spherical planet. Despite this, maps are still widely used today, including the Mercator projection, which distorts the size of land masses and bodies of water. However, maps are not just about navigation - they also shape our perception of the world. Simple changes in map design can completely shift our point of view. Learning about the different types of maps and their limitations can expand your understanding of geography and the world around you. By exploring this topic through reading, reflection, and self-directed projects, you can become an expert in cartography and gain a deeper appreciation for the power of maps.

The Moon is a fascinating subject that has influenced many aspects of our culture, thought and being. It is present in design, art, music, science, technology, religion, and more. Learning about the Moon can help us understand its impact on our bodies, minds, and environment. For example, the Moon affects the tides and may even affect crime rates. Additionally, the Moon has been personified as both male and female throughout history and has been the subject of many artistic works. By exploring the Moon's mysteries, we can gain a deeper understanding of ourselves and our place in the natural world. Whether you see the Moon as a life support system, a bringer of death, or a symbol of peace, it embodies all the light and shade of human experience. So let's embrace the mystery and discover what the Moon has to offer!

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.

Understanding the science behind climate change is crucial for high school students. Eunice Foote, a women's rights activist, discovered the greenhouse effect in 1856, but her work was buried for 150 years. Guy Stewart Callendar and Charles Keeling continued their research in the 1930s and 1950s, respectively, and proved that human activity was causing global warming. Keeling's Mauna Loa project is still the world's benchmark site for measuring CO2. By learning about the history of climate science, students can appreciate the importance of perseverance in scientific research and the impact of human activity on the environment. Understanding climate science can also help students make informed decisions about their own carbon footprint and advocate for change in their communities.

The video clip discusses the importance of curiosity and exploration in academia. It highlights the stories of Richard Feynman, Eratosthenes, and Armand Fizeau, who made significant contributions to science by asking simple questions and investigating them further. Feynman's father's explanation of inertia sparked his interest in physics, leading him to earn degrees at MIT and Princeton, solve the Challenger disaster, and win the Nobel Prize in Physics. Eratosthenes calculated the Earth's circumference by measuring the shadows cast by the sun, and Fizeau confirmed Galileo's experiments on the speed of light. These stories demonstrate the value of asking questions and pursuing knowledge, even if the answers are not immediately clear. By exploring academic topics through reading, reflection, writing, and self-directed projects, students can develop their critical thinking skills and gain a deeper understanding of the world around them.

Have you ever wondered how inventions come about? Sometimes it takes the willingness to question long-accepted ideas, like the belief that a vacuum couldn't exist. Aristotle and other ancient philosophers thought that a true vacuum, a space devoid of matter, couldn't exist because the surrounding matter would immediately fill it. But in the early 17th century, Gasparo Berti conducted a simple but brilliant experiment to demonstrate that a vacuum was possible. This led to Evangelista Torricelli's invention of the barometer, a key tool for measuring air pressure and predicting extreme weather events. Torricelli's willingness to think outside the box and question long-accepted dogmas about vacuums and the weight of air led to his invention, which remained one of the most common ways to measure atmospheric pressure until 2007. Learning about the history of scientific discoveries can inspire us to question long-accepted ideas and come up with our own innovative solutions.

Medieval texts, ice core, and tree ring data reveal how volcanic eruptions triggered the Little Ice Age. Researchers from the University of Cambridge and the University of Geneva examined hundreds of annals and chronicles from across Europe and the Middle East, in search of references to total lunar eclipses and their coloration. They found that the darkest lunar eclipses all occurred within a year or so of major volcanic eruptions, leading to cooling and other climate anomalies. Find out how the monks' records of the brightness and colour of the eclipsed moon helped narrow down when the eruptions must have happened.

Luke Howard's classification of clouds in the early 1800s revolutionized meteorology and changed humanity's understanding of the skies. Howard's simple insight based on years of observation was that clouds have few basic forms, and he introduced a series of intermediate and compound types to accommodate their essential instability. Howard's classification had an immediate international impact, and clouds became easier to understand as visible signs of otherwise invisible atmospheric processes. Understanding clouds is important in comprehending weather and climate patterns. Howard's classification also had a significant impact on art, with painters like John Constable painting clouds in the open air. Learning about clouds and meteorology can be intellectually stimulating and practically useful in comprehending weather patterns and climate change.

Music is the universal language of mankind, and Harvard scientists have just published the most comprehensive scientific study to date on music as a cultural product, which examines what features of song tend to be shared across societies. Over a five-year period, the team hunted down hundreds of recordings in libraries and private collections of scientists half a world away, and their database, The Natural History of Song, contains nearly 5,000 descriptions of songs from 60 human societies. The team's most ambitious study yet about music was published in Science this week, representing a major international collaboration with musicians, data scientists, psychologists, linguists, and political scientists.

The story of Icarus and Daedalus from ancient Greek mythology teaches us about the dangers of hubris and the importance of moderation. Daedalus, a genius inventor and craftsman, pushed the boundaries of human limitations and defied the laws of nature to create incredible inventions, but his egotism and jealousy caused him to commit heinous acts. His son Icarus, overcome with the feeling of divine power, ignored his father's warnings and flew too close to the sun, ultimately leading to his tragic demise. This cautionary tale reminds us of the consequences of overstepping our limits and the importance of humility and moderation in our pursuits. By exploring these themes, we can gain a deeper understanding of ourselves and the world around us, and learn to approach our goals with a healthy balance of ambition and humility.

Are you curious about the possibility of asteroids hitting Earth in the next 1,000 years? Well, according to a new study published in The Astronomical Journal and reported by MIT Technology Review, there's good news - none of them are expected to hit us! The study, led by Oscar Fuentes-Muñoz from the University of Colorado, Boulder, used a new method to model when asteroids are expected to come near Earth in their orbit and pushed those estimates up to 1,000 years into the future. Read on to discover more about the study's findings and what this means for our planet's future.

Historians are using machine learning to analyze historical documents, correcting distortions and drawing connections. But as machines play a greater role in the future, how much should we cede to them of the past? Discover the implications for everything from art to drug development.

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.

Words have the power to tell stories, and even a single word can reveal a lot about our history and culture. By studying the origins and evolution of a word, we can learn about ourselves and the world around us. The oldest words in present-day English come from Old English, which was first spoken over 1500 years ago. The word "true" is an example of a word with a rich history that can be traced back to the concept of faithfulness and trust, which was associated with trees in ancient times. Trees have been revered in many cultures throughout history, and planting a tree is an act of faith and commitment. Just as trees witness our histories, the stories of words capture the rains and sunshine of generations. By exploring the stories of words, we can gain a deeper understanding of our past and present.

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!

Did you know that ancient civilizations had a sophisticated understanding of math? The Babylonians, for example, knew about Pythagorean triples - a concept that we attribute to the Greeks. They used this knowledge for surveying land accurately, which was essential for people who owned private property. Plimpton 322, a clay tablet discovered in modern-day Iraq, is a testament to the Babylonians' understanding of mathematics. By delving into ancient math concepts, you can broaden your perspective and gain a deeper understanding of the world. Not only does this improve your critical thinking and problem-solving skills, but it also allows you to appreciate the rich history of human achievement. So, grab a book on ancient math, start reading, and be prepared to be amazed!

The Inca's discovery of naturally occurring titanium dioxide and silica in a rare mineral deposit revolutionized the history of color, leading to the use of the brilliant white pigment in their ceremonial cups, centuries before its invention in the West. Explore the story of the Giacomo Deposit and the Inca's chromatic revolution.

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 story of Nicolas Bourbaki, an imaginary mathematician, reveals the power of a systematic approach to abstract principles. In the 1930s, a group of French mathematicians, frustrated by the lack of a shared mathematical language, set out to create a consistent logical framework unifying every branch of mathematics. Their treatise, the "Éléments de mathématique," began with a set of simple axioms and derived more and more complex theorems that corresponded with work being done across the field. They defined functions by how they mapped elements across domains, establishing logic that could be translated in both directions. Despite their unconventional approach, Bourbaki's publications became standard references, and their influence informs much current research. By learning about systematic approaches to abstract principles, students can develop rigorous methods and expand their understanding of complex mathematical concepts.