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  • Liquid viscosity of castor oil | Scientia News

    This experiment was to find out the dynamic liquid viscosity of castor oil using stainless steel spheres of different radii at room temperature. Viscosity is a fluid’s resistance to flow and is formally defined as the ratio of the shearing stress to the shearing velocity. Viscosity arises due to the friction between the particles in a fluid, Go back Facebook X (Twitter) WhatsApp LinkedIn Pinterest Copy link Summary of a liquid viscosity experiment Last updated: 07/11/24 Published: 26/01/23 For this experiment the liquid viscosity of castor oil was determined by dropping steel spherical balls into a tube of castor oil. By considering the forces acting on the ball whilst in the fluid, it was found that the viscosity was 1.37±0.01 Pa s with a percentage error of 71.25% to the literature value of castor oil’s viscosity. This experiment was to find out the dynamic liquid viscosity of castor oil using stainless steel spheres of different radii at room temperature. Viscosity is a fluid’s resistance to flow and is formally defined as the ratio of the shearing stress to the shearing velocity. Viscosity arises due to the friction between the particles in a fluid, because as the particles slide past each other there will be work done to slide over another particle which will produce heat. For this experiment, laminar flow was a valid model for the sphere falling down the castor oil tube, because the terminal velocity of the sphere is quite small and was reached quickly so there will not be any turbulence effects. Laminar flow is defined when liquids flow smoothly with layers that do not mix, however when the layers do mix then the flow is turbulent with different layers of the fluid swirling and mixing. As the sphere was travelling through the fluid there were 3 forces acting on it: drag force, weight and buoyancy. This investigation can be furthered as viscosity is vital in the field of medicine. There are certain drugs that are directly injected into patients so by knowing the optimal path for the drug to be administered, the drug can reach the patient’s vital areas as quickly as possible. Overall, this experiment was interesting as it led to numerous insights as to what may have affected the motion of a sphere falling down the tube of a viscous fluid, regardless of the simplicity of the experiment. Even though the uncertainties did not overlap with the literature value and the percentage differences were very high (in part due to calculations of the momentum), the experiment was not a failure due to the scientific insight it provided to make a carry out a more accurate experiment. Written by Siam Sama

  • Engineering | Scientia News

    Recognising the remarkable contributions in the vast field of engineering, including silicon hydrogel contact lenses, wireless electricity, hydrogen cars and many other innovations. Engineering Articles Recognising the remarkable contributions in the vast field of engineering, including silicon hydrogel contact lenses, wireless electricity, hydrogen cars and many other innovations. You may also like: Maths , Physics , Technology Pioneers in biomedical engineering An International Women's Month collab with Kameron's Lab Silicon hydrogel contact lenses A case study on this latest innovation in eye vision correction Nikola Tesla and wireless electricity Tesla's dream of Wardenclyffe Tower: why did it not become a reality? Hydrogen cars Are they the future model of cars in the UK?

  • Ecology | Scientia News

    Our planet's ecosystems are teeming with life! Navigate the intricate web of interactions in these intriguing articles. How do organisms relate to one another and their surroundings? Ecology Articles Our planet's ecosystems are teeming with life! Navigate the intricate web of interactions in these intriguing articles. How do organisms relate to one another and their surroundings? You may also like: Biology, Zoology Galápagos Tortoises An end at the beginning: their conservation Beavers are back in Britain The role of beavers in the ecosystem and their reintroduction in the UK COMING SOON COMING SOON

  • Can a human brain be linked to a computer? | Scientia News

    The researchers counted over 100,000 neurons and over a billion connections between them within this small cube of brain tissue. To find all the neurons and reconstruct the neural network, researchers had to slice the mouse brain 25,000 times. The issue is Go back Facebook X (Twitter) WhatsApp LinkedIn Pinterest Copy link Can a human brain be linked to a computer? Last updated: 06/11/24 Published: 28/12/22 Scientists in the US have succeeded in mapping the three-dimensional structure of the network of neurons in one cubic millimetre of mouse brain- a feat that would require two petabytes of storage. The human brain contains approximately 100 billion neurons, which is one million times the number of neurons found in a cubic millimetre of mouse brain. The researchers counted over 100,000 neurons and over a billion connections between them within this small cube of brain tissue. To find all the neurons and reconstruct the neural network, researchers had to slice the mouse brain 25,000 times. The issue is that the amount of data to store would kill any single computer. Memory and experiences that would have defined people later would be lost if they tried to store their minds too early. Using a computer too late may result in the accumulation of a mind with dementia, which would not work so well. Human tissue would have to be cut into zillions of thin slices using techniques compatible with dying and cutting. Local electrical changes that travel down dendrites and axons allow neurons to communicate with one another. However, when reconstructing the 3D structure, this may not be possible. After we die, our brains undergo significant chemical and anatomical changes. At the age of 20, they begin to lose 85,000 neurons per day due to apoptosis, or programmed cell death. Many memories that would have shaped a person later would be lost if he or she tried to store their mind too early. There are numerous steps involved in developing a computer capable of storing and processing human-level intelligence. It may be impossible for an artificial intelligence to produce sensations and actions identical to those provided and produced by your biological body. Bots are susceptible to hacking and hardware failure. Connecting sensors to the AI's digital mind would also be difficult. Written by Jeevana Thavarajah Related articles: The evolution of AI / The wonders of the human brain / AI in genetic diagnoses

  • Extra resources | Scientia News

    Resources such as: other websites, textbooks, YouTube videos, and books to help! Aiding university students studying STEM subjects. Extra Resources A masterlist of other websites, textbooks, YouTube videos, and books to help with your studies, research and revision. Looking after mental health Would you like to see more resources? Email us at scientianewsorg@gmail.com , or fill in the contact form and we'll get in touch! Do check the forum if you have any more questions. ■■■■■ You may also like: A-level resources, IB resources, Entrance exam preparation, FREE CV check!, STEM book reviews GENERAL INFORMATION Referencing guide: Cite Them Right Cite this for me ZoteroBib (fast, free reference generator) Phrasebank to help with essays Free notes and textbooks: Studocu Grammar checker: Grammarly (available as a browser extension) Money financing for students: Save the Student Others: New Scientist (print and online magazine) BBC iPlayer science and nature documentaries WEBSITES TO AID STUDIES Science and maths: MME Revise Cognito Resources Access Tuition Maths Genie LibreTexts: biology , chemistry , physics , maths , engineering , and medicine HELP WITH RESEARCH Databases: - PubMed - MEDLINE (by National Library of Medicine) - ScienceDirect - Web of Science - Literature search: Google Scholar - Participate in actual research: Zooniverse - citizen science - Top multi-disciplinary journal in the field: Nature Pharmacology sites: - Pharmgkb - Drug Bank - Check which drugs are in trial TEXTBOOKS FOR PHARMACOLOGY AND RELATED - Katzung's Basic & Clinical Pharmacology, 16th edition by Todd Vanderah, PhD - The Top 100 Drugs: Clinical Pharmacology and Practical Prescribing by Andrew Hitchings, Daniel Burrage, Dagan Lonsdale and Emma Baker BIOLOGICAL SCIENCES TEXTBOOKS Biology: - Campbell & Reece - Molecular biology and genetics: Molecular Biology of the Cell. 4th edition - Molecular Cell Biology by Lodish et al - Anatomy and physiology: Marieb - Principles of Animal Physiology by Moyes and Schulte - Animal Physiology by Hill, Wyse, and Anderson - Developmental Biology by Barresi and Gilbert - Cancer: The Biology of Cancer by Robert A. Weinberg Biochemistry: - Medical Biochemistry b y N. Mallikarjuna Rao Neuroscience: - Purves et. al - Kandel Immunology: - Immunobiology, 5th edition The Immune System in Health and Disease Genetics: - Emery's Elements of Medical Genetics and Genomics by Turnpenny & Ellard - Lewin’s Genes by Krebs, Goldstein, and Kilpatrick - Human Molecular Genetics by Strachan and Read CHEMISTRY TEXTBOOKS Physical chemistry: - Atkins Physical Chemistry (latest edition) - Solid State Chemistry (Fourth Edition) by Lesley Smart and Elaine Moore Organic chemistry: - Jonathan Clayden Organic Chemistry (latest edition) Inorganic chemistry: - Atkins Physical Chemistry (latest edition) - Housecroft Inorganic Chemistry (latest edition) - Electronic Structure (Basic Theory and Practical Methods) by Richard M. Martin - Two-minute Neuroscience - Amoeba Sisters (biology related) - Khan Academy (all STEM based) - TEDx Talk - Royal Society (range of science videos) - NumberPhile - patrickJMT (maths) - Tyler DeWitt (general chemistry) - Crash Course - Stanford Medicine (wellness) PHYSICS Resources: - Astronomy Picture of the Day - NASA STEM activities Textbooks: - University Physics by Young and Freedman - Introduction to Electrodynamics by Griffiths - Introduction to Elementary Particles by Griffiths - Introduction to Quantum Mechanics by Griffiths - Modern Quantum Mechanics (Third Edition) by J. J. Sakurai and Jim Napolitano - Introductory Statistical Mechanics by Bowley & Sanchez - Statistical Mechanics: A Survival Guide by Glazer & Wark - Electricity and Magnetism by Morin and Purcell - Concepts in Thermal Physics by Blundell and Blundell - Introduction to Solid State Physics by Mittel & McEuen - Solid State Physics by Ashcroft and Mermin - Space, Time, and Geometry by Sean M. - Density Functional Theory by David S. Sholl and Janice A. Steckel - The Physics of Semiconductors: An Introduction Including Nanophysics and Applications by Marius Grundmann MATHS Textbooks: - Mathematical Methods for Physicists and Engineers by Riley Benson and Hobson - Mathematics for Natural Scientists 1 and 2 by Lev Kantorovich - Advanced Engineering Mathematics by Kreyszig - Thomas's Calculus by George B. Thomas - Mathematical Methods for Science students by G Stephenson - Contemporary Abstract Algebra by Joseph A. Gallian Read this article on how to excel in maths COMPUTER SCIENCE AND RELATED Resources: - Codeacademy - W3Schools ( has tutorials for HTML/ CSS/ Javascript, Python, Java, and many other languages) - Adacomputerscience - TeachComputing - Codewars (practise coding with your friends) - freeCodeCamp INFORMATIVE YOUTUBE CHANNELS

  • Genetics | Scientia News

    Read articles delving into the universal genetic code: from CRISPR-Cas9 and epigenetics, to AI diagnosis, schizophrenia, and ancestry. Genetics Articles Read articles delving into the universal genetic code: from CRISPR-Cas9 and epigenetics, to AI diagnosis, schizophrenia, and ancestry. You may also like: Biology The CRISPR- CAS9 system Who were the Nobel Prize winners of Chemistry in 2020? What did they discover? Micro-chimerism, and George Floyd's death A Publett collaboration Schizophrenia Complex disease series: the influence of the environment on complex diseases. Article #1 Genetically-engineered bacteria decompose plastic A solution to plastic pollution Gene therapy by rAAVs rAAVs- recombinant adeno-associated viruses An introduction to epigenetics Interactions between genes and the environment Are aliens on Earth? Applications of ancient DNA analysis New horizons in Alzheimer's Reaching new potential in research The Y chromosome unveiled A remarkable discovery Decoding p53 A fundamental tumour supressor protein Epigenetics and queen bees What distinguishes queen bees from worker bees? Genetics of excessive smoking and drinking What are their contribution? SNPs and haplogroups Solving the mystery of ancestry Germline gene therapy A Scientia News Biology and Genetics collaboration Chimeras A genetic phenomenon Unfolding prion diseases What happens when proteins don't fold properly? Diagnosing genetic diseases with AI The advancements made by AI in diagnosis Breaking down Tay-Sachs A rare inherited disease caused by a missing enzyme Genetics of ageing and longevity What genes and transcription factors are involved in these processes? Ehler-Danos syndrome How it's caused Next

  • A-level resources | Scientia News

    Resources specific to A-levels to help students with revision. A-levels Are you a student currently studying A-levels, or looking to choose them in the near future? Read below for tips and guidance! You may also like: IB resources , University prep and Extra resources What are A-levels? Jump to resources A-levels, short for Advanced Level qualifications, are a widely recognized and highly regarded educational program typically taken by students in the United Kingdom (UK) and some other countries. They are usually studied in the final two years of secondary education, typically between the ages of 16 and 18. A-levels offer students the opportunity to specialize in specific subjects of their choice. Students typically choose three or four subjects to study, although this may vary depending on the educational institution. The subjects available can be diverse, covering areas such as sciences, humanities, social sciences, languages, and arts. How are A-levels graded? The A-level grading system is based on a letter grade scale in the UK. Here's an overview of the A-level grading system: Grades: A* (pronounced "A-star"): The highest grade achievable, demonstrating exceptional performance. A: Excellent performance, indicating a strong understanding of the subject. B: Very good performance, showing a solid grasp of the subject. C: Good performance, representing a satisfactory level of understanding. D: Fair performance, indicating a basic understanding of the subject. E: Marginal performance, showing a limited understanding of the subject. U: Ungraded, indicating that the student did not meet the minimum requirements to receive a grade. What are the benefits of studying A-level? A-levels provide students with a variety of advantages, such as a solid academic foundation for further education, the chance to focus on interest-specific areas, and flexibility in planning their course of study. Transferable abilities like critical thinking, problem-solving, and independent research are developed in A-levels, improving both prospects for entrance to universities and future employment opportunities. These widely respected credentials encourage intellectual vigour, intellectual curiosity, and a love of lifelong study. A-levels provide students with a strong foundation for success in higher education and a variety of career pathways thanks to their academic rigour and global renown. Resources for revision Web sites to hel p Maths / Maths and Further Maths Chemistry / Chemrevise / Chemguide Biology / Quizzes Physics Computer Science topic-by-topic Teach Computer Science Psychology All subjects / Seneca Learning / Save My Exams YouTube channels to hel p Chemistry- Allery Chemistry and Eliot Rintoul Past p apers Biology, Chemistry, Physics, Maths Textbooks (depend on exam board) CGP range for Bio, Chem, Phys, and Maths- exam practice workbooks

  • What is the James Webb Space Telescope? | Scientia News

    Launched in 2021, James Webb Space Telescope (JWST) is an astronomical observatory, designed to explore and observe the universe beyond the capabilities of its predecessor, the Hubble telescope. The JWST has primary mirror of 6.5m in diameter, the largest of any space-based telescope, and its advanced infrared technology, it can observe objects that were previously too faint, old, and distant for the Hubble telescope. Go back Facebook X (Twitter) WhatsApp LinkedIn Pinterest Copy link James Webb Space Telescope: A Breakthrough in Space Exploration Last updated: 13/11/24 Published: 25/03/23 Launched in 2021, James Webb Space Telescope (JWST) is an astronomical observatory, designed to explore and observe the universe beyond the capabilities of its predecessor, the Hubble telescope. The JWST has a primary mirror of 6.5m in diameter, the largest of any space-based telescope; and with its advanced infrared technology, it can observe objects that were previously too faint, old, and distant for the Hubble telescope. The JWST’s aim is to revolutionise the exploration of the cosmos by studying the earliest galaxies and stars, and to detect light from the first objects that were formed in the universe. In its short deployment time, the JWST has already provided us with fascinating new insights and images of the deep space, pushing the boundaries of our understanding of the cosmos. History of James Webb Space Telescope • 1996: Next Generation Space Telescope project first proposed (8m) • 2001: NEXUS Space Telescope, a precursor to the Next Generation Space Telescope, cancelled • 2002: Proposed project renamed James Webb Space Telescope, (mirror size reduced to 6 m) • 2003: Northrop Grumman awarded contract to build telescope • 2007: Memorandum of Understanding signed between NASA and ESA[72] • 2010: Mission Critical Design Review (MCDR) passed • 2011: Proposed cancellation • 2016: Final assembly completed • 2021: Launch Achievements of James Webb Space Telescope In its short deployment, the JWST has been able to provide some exceptional data, ranging from beautiful pictures of galaxies and nebulas, the first of its kind image of an exo planet and details of exo planets atmosphere. Since its launch, scientists have been discovering galaxies far away and older than ever before, the launch of this observatory has truly made a breakthrough in space exploration. Some of its achievements are explained more in detail below: • To begin with, the JWST has been able to capture some of the most breath-taking and beautiful images of nebulae and galaxies, in both visible light and infrared spectrum. The new pictures have changed the way we had observed these subjects, giving us a deeper insight into the formation stars in these nebulae due to its higher resolutions. Some of the most iconic pictures from the JWST so far have been the pictures of the pillars of creation and the southern ring nebula. • Studying exoplanets have always been a challenge for scientists, as due to their size exoplanets are only visible through analysis of dips in luminance of its host star. But for the first time, the JWST using its infrared spectrometer and primary lens, was able to capture an image of an exoplanet directly. • During its observations, the JWST has been able to study and explore many star systems and in some cases, the exoplanets as well- going as far as studying their atmospheres in some detail, giving the research teams an insight into what these worlds may look like. • The JWST, while observing the deep space, has been able to capture the oldest galaxies known to mankind, dated as old as 13.4 billion years, 350 million years after the Big Bang. Future of Space Exploration and JWST The launch of the JWST marks a significant milestone in the field of space exploration. Not only has it opened up a new era of scientific discovery, but it has also introduced a new era for large space structures. The JWST, being the first self-assembling telescope launched in space, has proven that the only viable option for launching such a massive instrument is to make it segmented and assemble it in orbit. As we move forward, the ability to launch large structures in space that can be reassembled will undoubtedly lead to even more significant discoveries. With 6000 hours allocated for different observation missions, the JWST will enable researchers to work towards solving more of the unanswered questions regarding the cosmos. From deep space observation to exoplanet analysis, the possibilities are endless. Written by Zari Syed

  • Geoengineering as a solution to the climate crisis | Scientia News

    For centuries, we have been burning fossil fuels, polluting our oceans and participating in deforestation without a second thought. We have managed to understand the consequences this has had on our planet and have started to make movement in the right direction; but is it too late? Go back Facebook X (Twitter) WhatsApp LinkedIn Pinterest Copy link Geoengineering: what is it and will it actually work? Last updated: 14/11/24 Published: 02/04/23 For centuries, we have been burning fossil fuels, polluting our oceans and participating in deforestation without a second thought. We have managed to understand the consequences this has had on our planet and have started to make movement in the right direction; but is it too late? In the past 50 years, we have warmed the planet at a rate of approximately 0.1°C per decade. It doesn’t sound like much but the effect this has is astronomical; increased drought, adverse weather conditions and a rising sea level to name a few of the consequences. People are aware of the damage we have caused, and there is thankfully a switching attitude towards our environment with the increased usage of renewable energies and technologies such as electric cars. The problem arises from the rate of this societal switch. It isn’t fast enough. We haven’t quite understood how to stop our reliance on farming animals, carbon dioxide emissions and polluting transport. What if we could disrupt the natural mechanisms of our planet, just as we did to cause this problem in the first place? Scientists have started to consider some dystopian sounding scenarios that are classed as ‘geoengineering’ techniques. There are two main branches of geoengineering: solar radiation management and greenhouse gas removal. Solar radiation management is the more alien of the two categories, involving sending large mirrors into space that reflect sunlight or enhancing the natural ability of clouds to block radiation, called albedo enhancement. Greenhouse gas removal is more commonly heard of, and involves reducing the proportion of harmful gases, mainly carbon dioxide, in our atmosphere. This can be as simple as planting more trees to do this naturally, or having point source removal of carbon dioxide in factories, which means that the gases never enter the atmosphere. A difficult yet promising idea is the removal of carbon dioxide directly from the atmosphere using a material that absorbs it directly, which could not only reduce the amount in the atmosphere, but could return us to anthropogenic atmosphere composition. The idea is interesting; to disrupt the naturally occurring processes with human intervention, which buys time for us to develop better renewable energy resources, biodegradable materials and a better attitude towards saving our planet. Theoretically, it seems reasonable however the concern is that with these techniques, we may continue to treat the environment with a lack of respect, since we would be creating a false sense of security. Furthermore, the technologies are large scale therefore we may not be able to model and test them sufficiently before implementation. They may not be successful or safe. The ideal scenario is to not need geoengineering, however we need to act fast to avoid its necessity. Written by Megan Martin Related article: How nuclear fusion holds the key to tackling climate change

  • Environmental factors and exercise | Scientia News

    An individual may be restricted to a certain range of physical activities which they can participate in. Individuals are usually reliant on the surrounding environment and the maintenance of facilities. If they are not kept well maintained, individuals are usually discouraged. Go back Facebook X (Twitter) WhatsApp LinkedIn Pinterest Copy link Influence of different environmental factors on exercise Last updated: 30/01/25 Published: 10/02/23 The characteristics of environmental factors: - Chemical safety - Air pollution - Climate change and natural disasters - Diseases caused by microbes - Lack of access to health care - Infrastructure issues - Poor water quality - Global environmental issues What are the impacts of these environmental influences on physical activity? An individual may be restricted to a certain range of physical activities which they can participate in. Individuals are usually reliant on the surrounding environment and the maintenance of facilities. If they are not kept well maintained, individuals are usually discouraged. The physiological effect on training: Climate change will disproportionately affect the most vulnerable in our populations, including the very young, the very old, and those with pre-existing health conditions. Training adjustments to compensate for the influence of environmental factors on training: - Treatments for heat stress- stop exercising / move to a shaded or air-conditioned area / remove excess clothing or equipment / drink cold beverages / sit in front of a fan / put a cool piece of cloth around neck / place entire body in cool water e.g. cool bath or shower - Treatments for cold stress- move to a warm environment / remove cold and wet clothes / find access to warm air such as heaters, or fireplace / use electric or non-electric blankets / drink warm beverages Written by Kushwant Nathoo Related articles: Impacts of negligent exercise on physiology / Physical and mental health / Environmental impact of EVs

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