Online courses directory (19947)

Joe McCracken, Vice President of Business Development at Genentech, describes Genentech's business model where comm

This Training Element gives you amazing Tips and Shortcuts concerning Maya. Tips and Tricks you

Learn how to use the ordinary simple annuities formulas to handle general annuities with one little step.

Studying general chemistry gives you a basic understanding of how the universe works at an atomic level. Everything you see, touch, or feel is made up of elements. This course begins with the basic concepts of chemistry such as atoms, molecules, ions, how to express measure quantities through scientific notation, and the periodic table. The course then progresses to energy, atomic and molecular structure, the properties of gases, liquids, solid, and solutions, and an introduction to organic chemistry.

Studying general chemistry gives you a basic understanding of how the universe works at an atomic level. Everything you see, touch, or feel is made up of elements. This course begins with the basic concepts of chemistry such as atoms, molecules, ions, how to express measured quantities through scientific notation, and the periodic table. The course then progresses to energy, atomic and molecular structure, the properties of gases, liquids, solids, and solutions, and an introduction to organic chemistry.

This is a general chemistry course for college freshmen who are majoring in science, medicine or engineering. 这是一门面向大学理科生的普通化学课程。

This course examines diagnostic studies of the Earth's atmosphere and discusses their implications for the theory of the structure and general circulation of the Earth's atmosphere. It includes some discussion of the validation and use of general circulation models as atmospheric analogs.

Learn about General Game Playing (GGP) and develop GGP programs capable of competing against humans and other programs in GGP competitions .

Port forwarding? Dynanamic DNS? Home NAS Server? Slow Wireless? Learn how to fix your home nework and add new features!

8.962 is MIT's graduate course in general relativity, which covers the basic principles of Einstein's general theory of relativity, differential geometry, experimental tests of general relativity, black holes, and cosmology.

This course provides an introduction to general semantics—the study of how we transform our life experiences into language and thought. Students will learn how their language habits and behaviors, as well as how they think about and share experiences, are what make them uniquely human. In other words, students will discover the critical, but sometimes subtle distinctions between what happens in their lives and how they talk about what happens. The course will include readings from a wide array of disciplines, such as communication studies, neuroscience, and cultural anthropology. It will also include visual and auditory demonstrations through music and social media, and collaborative interactions with fellow learners. These types of learning experiences allow students to not only learn about more effective language behaviors, but also practice those new behaviors in order to communicate more effectively and appropriately in interpersonal and organizational contexts.

This course provides concepts and frameworks for understanding the potential impact of information technology (IT) on business strategy and performance. We will examine how some firms make IT a strategic asset while other firms struggle to realize value from IT investments. The course focuses on the implications of increased digitization for defining business strategies and operating models, and explores the roles of both general managers and IT executives in using IT to achieve operational excellence and business agility. Topics include business operating models, IT investment and prioritization, business strategy and IT alignment, the design and governance of digitized processes, and the role of the IT unit. Draws heavily on research and case studies from MIT Sloan Center for Information Systems Research. Restricted to graduate students.

A survey of the history of economic development in the world in the past 300 years.

Think that a prescription medication must be safer than a “street drug”? Think again. Investigate the epidemic rise of prescription drug abuse and use science to debunk commonly held misconceptions regarding this phenomenon.

This course proposes an introduction and overview of the history and practice of generative arts and computational creativity with an emphasis on the formal paradigms and algorithms used for generation.

On the technical side, we will study core techniques from mathematics, artificial intelligence, and artificial life that are used by artists, designers and musicians across the creative industry. We will start with processes involving chance operations, chaos theory and fractals and move on to see how stochastic processes, and rule-based approaches can be used to explore creative spaces. We will study agents and multi-agent systems and delve into cellular automata, and virtual ecosystems to explore their potential to create novel and valuable artifacts and aesthetic experiences.

The presentation is illustrated by numerous examples from past and current productions across creative practices such as visual art, new media, music, poetry, literature, performing arts, design, architecture, games, robot-art, bio-art and net-art. Students get to practice these algorithms first hand and develop new generative pieces through assignments and projects in MAX. Finally, the course addresses relevant philosophical, and societal debates associated with the automation of creative tasks.

Music for this course was composed with the StyleMachineLite Max for Live engine of Metacreative Inc.
Artistic direction: Philippe Pasquier, Programmation: Arne Eigenfeldt, Sound Production: Philippe Bertrand

To acquire an understanding of the fundamental concepts of genomics and biotechnology, and their implications for human biology, evolution, medicine, social policy and individual life path choices in the 21st century.

This course deals with the specific functions of neurons, the interactions of neurons in development, and the organization of neuronal ensembles to produce behavior. Topics covered include the analysis of mutations, and molecular analysis of the genes required for nervous system function. In particular, this course focuses on research work done with nematodes, fruit flies, mice, and humans.

¿Es el ADN un microchip que nos guía por la vida? ¿Somos los seres humanos parte de la evolución?¿Por qué no hay dos personas iguales? Este curso ofrece una aproximación cercana y comprensible a las disciplinas de la genética y la evolución, para exponer la importancia de conceptos como ADN, gen, cromosoma, mutación, o selección natural, revelando cómo se interrelacionan de forma accesible cualquier persona interesada. Para ello se emplean ejemplos y demostraciones que facilitan la comprensión de todos los aspectos relevantes, así como permiten que el estudiante detecte la importancia de estas disciplinas en su propio entorno.

El curso analiza en detalle los mecanismos evolutivos, la especiación y el origen de la vida y de toda la variedad de especies de bacterias, hongos, plantas y animales que existen en la Tierra. También analiza el futuro de la diversidad y del planeta, y explica lo que tenemos en común todos los seres vivos, y qué nos diferencia de los seres inertes. A lo largo de las lecciones, se explican las características del ADN y cómo almacena la información para crear vida. El origen de los distintos genes y de las distintas variantes de cada gen, así como las consecuencias que tiene su existencia: desde la determinación del grupo sanguíneo hasta el origen de enfermedades. Con especial énfasis en cómo afecta la genética a nuestra especie: hasta qué punto es responsable de nuestro comportamiento, o de la expresión de algunas de las enfermedades genéticas, del origen de algunos tipos de cáncer o de las enfermedades víricas. También propone un enfoque descriptivo de otros aspectos sorprendentes de la biología, desde cómo trabajan las hormonas hasta cómo el cerebro se encarga de recordarnos que debemos alimentarnos para sobrevivir.

En este curso adquirirás una sólida perspectiva sobre el grado de importancia de la genética en tu vida personal, en tu entorno y en nuestra sociedad. Así como alcanza un firme punto de vista sobre el papel de la evolución en el origen, mantenimiento y diversidad de especies. La formación ofrecida en las disciplinas de la genética y la evolución ofrece aptitudes complementarias para los campos de conocimiento de la biomedicina, la biotecnología o la psicología. Así como una formación global muy adecuada para estudiantes inquietos de cualquier disciplina que quieran consolidar un conocimiento sobre nuestro genoma, nuestra especie, nuestro planeta y los seres que lo habitamos.

This course discusses the principles of genetics with application to the study of biological function at the level of molecules, cells, and multicellular organisms, including humans. The topics include: structure and function of genes, chromosomes and genomes, biological variation resulting from recombination, mutation, and selection, population genetics, use of genetic methods to analyze protein function, gene regulation and inherited disease.

How have advances in genetics affected society? What do we need to know to make ethical decisions about genetic technologies? This course includes the study of cloning, genetic enhancement, and ownership of genetic information. Course participants will acquire the tools to explore the ethics of modern genetics and learn how to integrate these issues into their classrooms.