Courses

Discover how a chemistry professor transformed into a successful fashion influencer in this inspiring 19-minute TEDx talk. Follow Rupali Hasija's remarkable journey as she overcomes societal expectations, criticism, and challenges to pursue her passion for fashion. Learn how her perseverance led to tremendous progress, travel opportunities, financial security, and recognition from major magazines. Gain insights into building a strong online presence, with Hasija sharing her experience of amassing over 470K Instagram followers and being listed in Forbes's top 100 Digital Stars. Draw inspiration from this talented Indian influencer's story to follow your own dreams with resilience and determination, even in the face of adversity.

Instructor: Prof. D. R. Mal, Department of Chemistry, IIT Kharagpur. This course talks about heterocyclic chemistry. Topics covered in this course include Definition of heteroatom and alkaloids, Nomenclature of heterocyclic compounds, Effect of heteroatoms on organic reactions: comparison with carbogenic compounds, Aromatic heterocyclic chemistry, Non-aromatic heterocyclic chemistry, and Miscellaneous group.

This subject deals primarily with equilibrium properties of macroscopic systems, basic thermodynamics, chemical equilibrium of reactions in gas and solution phase, and rates of chemical reactions. ##### Acknowledgements The material for 5.60 has evolved over a period of many years, and therefore several faculty members have contributed to the development of the course contents. The following are known to have assisted in preparing the lecture notes available on OpenCourseWare: Emeritus Professors of Chemistry: Robert A. Alberty, Carl W. Garland, Irwin Oppenheim, John S. Waugh. Professors of Chemistry: Moungi Bawendi, John M. Deutch, Robert W. Field, Robert G. Griffin, Keith A. Nelson, Robert J. Silbey, Jeffrey I. Steinfeld. Professor of Bioengineering and Computer Science: Bruce Tidor. Professor of Chemistry, Rice University: James L. Kinsey. Professor of Physics, University of Illinois: Philip W. Phillips.

Chemistry 101: General Chemistry has been evaluated and recommended for 3 semester hours and may be transferred to over 2,000 colleges and universities. Work through the course at your own pace to study the fundamentals of chemistry, learn from expert instructors and jumpstart your degree.

This course covers material that is usually taught in one-year college course in general chemistry. Our goal is to prepare you to pass the College Board’s CLEP examination and obtain college credit for free. The CLEP examination places a major emphasis on understanding the structure and states of matter, reaction types, equations and stoichiometry, equilibrium, kinetics, thermodynamics, and descriptive and experimental chemistry. During the examination, an online scientific calculator function and a periodic table will be available as part of the testing software. “Chemistry” is a completely self-paced course starting October 1st, 2016. It has no prerequisites and it is offered entirely for free.

Master essential chemistry principles that form the foundation of pharmacology, metabolism, and medical diagnostics. This course bridges basic chemical concepts with real-world healthcare applications, preparing you for advanced nursing coursework and clinical practice. Build confident understanding of molecular interactions, drug mechanisms, and laboratory interpretations essential for safe patient care. By the end of this course, you will be able to: Analyze atomic structure, bonding theories, and molecular interactions to understand drug-receptor mechanisms Evaluate acid-base equilibria, buffer systems, and redox reactions in biological and pharmaceutical contexts Explain organic chemistry principles including functional groups, stereochemistry, and reaction mechanisms relevant to biomolecules Apply pharmacokinetic and pharmacodynamic concepts to understand drug action, enzyme interactions, and antibiotic mechanisms Skills: Chemical Analysis, Laboratory Interpretation, Problem Solving, Critical Thinking

Explore a comprehensive series of lectures covering advanced topics in chemistry, including quantum theory of chemical reactions, Schrödinger's equation, computational methods, black silicon, microscopic theory of melting, crystal polymorphisms, nonlinear dynamics in electrochemical systems, chemical kinetics in nonequilibrium thermodynamics, photochemistry, and ultrafast reactions. Delve into cutting-edge research and theoretical concepts presented by renowned experts such as David Clary, Mark Tuckerman, Eric Mazur, Martin Z. Bazant, and David Phillips. Gain insights into the fundamental principles and latest developments in various subfields of chemistry through these in-depth discussions.

In this course, you will learn about Chemistry for NDA 1. You will learn about matter and its states, change in states of matter, mixtures and compounds, atom and molecule, atomic mass and atomic number, atomic structure, isotopes, isobars, isotones, isoelectronics, ions and chemical formulas, molecular mass and molar mass, mole concept, physical and chemical change, electronic configurations, laws of chemical combination, gas laws, chemical reactions, acid, base and salt, and much more.

Tackle three challenging integrals using first-year calculus integration techniques in this 24-minute video. Learn how to apply double integration by parts, u-substitutions, conjugates, and trigonometric substitutions to solve complex problems. Follow along as Dr. Trefor Bazett demonstrates step-by-step solutions, offering insights into recognizing and overcoming disguised integration challenges. Gain valuable practice in advanced integration methods and improve your problem-solving skills for calculus exams and real-world applications.

NoteThere are several options for MoR service, we’re using Lemon Squeezy in this course, but you can use what we teach here in Paddle, Polar, or any other service you like. We have no preference, we just happened to pick Lemon Squeezy for this course. Do you have an amazing product that you want to sell to your customers? Are you looking for a payment processor to be a Merchant of Record to handle tax compliance so that you can focus on more revenue? Lemon Squeezy to the rescue! Start selling your digital products fast and easy. In this tutorial, we'll build a full checkout system for our awesome product and learn all about the next topics: Manage your store in the Lemon Squeezy dashboard Use Lemon Squeezy storefront to sell products Charge a one-time fee with single payments Use API to talk to Lemon Squeezy and sell products directly from your website Use the Lemon.js script to stream the checkout workflow via overlay Prefill customer's info and add custom data Automatic invoice email on successful order Link Lemon Squeezy customers to the users in our DB Use webhooks to sync data in our database Handling the order_created webhook event Live webhook handling with Ngrok Test webhooks by simulating their sending with fake data Finally, bonus - users' card credentials are never sent to our servers, but directly to Lemon Squeezy. That means we do not save sensitive card credentials on our servers. Yay!

Chemistry 111L: Chemistry I with Lab has been evaluated and recommended for 3 semester hours for the course and 1 semester hour for the lab. These credits may be transferred to over 2,000 colleges and universities. This course requires you to complete 13 virtual lab experiments that will demonstrate relevant chemistry concepts. We've partnered with Labster to make these experiments available to you. You can find all of the information you need to purchase your lab access under the 'Lab Component' section of the course syllabus.

Chemistry 112L: Chemistry II with Lab has been evaluated and recommended for 3 semester hours for the course and 1 semester hour for the lab. These credits may be transferred to over 2,000 colleges and universities. This course requires you to complete 11 virtual lab experiments that will demonstrate relevant chemistry concepts. We've partnered with Labster to make these experiments available to you. You can find all of the information you need to purchase your lab access under the 'Lab Component' section of the course syllabus.

Explore a comprehensive lecture on the Automatic Statistician, delivered by Professor Zoubin Ghahramani from the University of Cambridge and the Alan Turing Institute. Delve into Bayesian model selection strategies for automated model selection and human-readable report generation. Learn about the ingredients of an automatic statistician, including the language of regression models, Gaussian processes, and composition rules. Examine real-world applications through examples like the Mauna Loa Keeling Curve analysis and discover how this approach achieves good predictive performance. Gain insights into model checking, criticism, and the rational allocation of computational resources in this cutting-edge field of machine learning and statistics.

This is a master class in Customer Centricity. Professor Jagdish Sheth, 2020 Padma Bhushan Award winner for Literature and Education, guides you through proven strategies and practical steps for implementing customer centricity practices into your business. Professor Sheth shares wisdom and insight from decades of experience, years of research, and recommendations from multiple senior industry leaders to help grow your business and cut costs by keeping the customers you have by creating a customer centric culture.

Prof. Rafael Ubal brings his methods and tools from his 10+ years of experience teaching in prestigious universities. What you'll learn: Write simple Python programs that read from the keyboard and write text into a consoleWrite more complex programs with conditional execution and repetition structuresImprove code reusability through the use of functions and recursionImprove code efficiency through the choice of ppropriate data structures (tuples, lists, dictionaries)Apply the principles of object-oriented programming This course serves as an introduction to Python programming (no previous background needed). Whether you’re a high school student ahead of the game, a college student in search of additional support, a recent graduate preparing for a technical interview, an active professional seeking to expand your skill set, or just an amateur techie, this course is your ideal first exposure to the world of Python programming.In this course, I’ve selected the most relevant topics to quickly get you started with Python. We’ll start with the basics: interaction with the user, arithmetic computations, conditional execution, loops, and functions. And we’ll also delve into more advanced topics: lists, tuples, dictionaries, file operations, and object-oriented programming. But most importantly: I’ll help you develop a programmer mindset by training your algorithmic thinking – an essential still that will help you quickly learn new programming languages in the future if you need to.In most lessons of this course, I’ll be proposing interactive programming exercises, where I’ll ask you to pause the video and work on it, as I later guide through a step-by-step solution. You’ll work with a web-based code editor, where you’ll be able to write and test your programs, without installing any third-party software in your system; all you need is your web browser.

Explore generational random graphs in this 51-minute talk by Professor Jon Crowcroft at the Alan Turing Institute. Delve into a simple model for small-world-like graphs that goes beyond single-parameter characterization, offering potential insights into heterogeneity and time-variation in networks. Learn about scalable multicast routing, traffic management, and end-to-end protocol design as applied to graph theory, networks, and social media analytics. Examine topics such as opportunistic communications, social networks, and infrastructure-free mobile systems. Discover the "build and learn" research paradigm while exploring concepts like ER Bacon Sabbath, mean paths, preferential attachment, beta models, degree distribution, and the natural fit of generational networks in various contexts including coauthorship, business relationships, and regional networks.

Explore the fascinating world of quantum stars in this comprehensive 2-hour lecture by Professor G Srinivasan. Delve into the physics of white dwarfs, neutron stars, and supernovae, examining concepts like quantum mechanics, degeneracy pressure, and relativistic effects. Learn about groundbreaking work by scientists such as Chandrasekhar, Landau, and Oppenheimer. Discover why there are only two types of cold stars in nature and understand the limits of stellar masses. Gain insights into the fate of massive stars and the conditions for stellar degeneracy. Perfect for those interested in astrophysics and the quantum nature of dense stellar objects.

Explore the fascinating world of astrophysical plasma in this comprehensive 2-hour lecture by Professor G Srinivasan from the Raman Research Institute. Delve into key concepts such as dielectric screening, dispersion relations, and Faraday rotation. Examine the Earth's ionosphere, pulsar signal dispersion, and de-dispersion techniques. Investigate Cerenkov radiation, its Nobel Prize-winning discovery, and its applications in modern neutrino detectors. Learn about the Milky Way Magnetic Field Mapping Mission and plasma effects on synchrotron intensity. Gain insights into the vast range of densities, temperatures, and magnetic fields found in the universe, from interstellar hydrogen clouds to neutron stars and active galactic nuclei. This lecture, part of the "Random Walk in Astrophysics" summer course, offers a rich exploration of basic physics principles applied to contemporary astronomy.

instruction by Prof. Debashis Ray, Department of Chemistry, IIT Kharagpur. This course will give an excellent opportunity to study and use the century-old Nobel prize-winning knowledge of coordination chemistry. The study will also lead to understanding the difference between a coordinated ligand and charge balancing ion in a coordination compound. Complexation reactions, stability constants, structures, geometrical and optical isomerism, bonding, reactions and reactivity will be discussed. Color and electronic, and magnetic properties will be delineated with respect to their application in analytical chemistry, industry and medicine. The use of coordination compounds of some precious metal ions will be explained in relation to homogeneous catalysis for the production of useful organic and pharmaceutically important substances.

Explore the cutting-edge applications of artificial intelligence in pathology through this 21-minute lecture by Professor Nasir Rajpoot from The Royal College of Pathologists. Delve into the digital transformation of pathology and discover how AI is revolutionizing the field. Learn about emerging AI applications in tumor detection for breast lymph nodes and prostate biopsies, as well as mitotic cell identification. Gain insights into the MIDOG Challenge Contest and understand the global impact of cancer. Examine the TASIL Score for decision support in head and neck squamous cell carcinoma, and explore AI's potential in predicting colorectal cancer pathways, mutations, and microsatellite instability. Conclude by addressing the thought-provoking question of whether AI will replace pathologists in the future.