Online courses directory (423)
This seminar will focus on three sports: swimming, cycling and running. There will be two components to the seminar: classroom sessions and a "laboratory" in the form of a structured training program. The classroom component will introduce the students to the chemistry of their own biological system. With swimming, running and cycling as sample sports, students are encouraged to apply their knowledge to complete a triathlon shortly after the term.
A thorough understanding of the systems of the body and the ways in which they fit together is imperative for study in many fields of biological inquiry, including medicine, physiology, developmental studies, and biological anthropology. This course will provide you with an overview of the body from a systemic perspective. Each unit will focus on one system, or network of organs that work together to perform a particular function. At the end of this course, we will review the body from an integrative perspective, creating a more realistic vision of the ways in which the systems overlap. We will also discuss current body imaging techniques and learn how to correctly interpret the images in order to put our newly-gained anatomical knowledge to practical use. This is a terminology-heavy course. We will identify tissues and organ systems according to their functional and regional contexts, but information concerning the processes by which the tissues and organ systems actually function will be covered…
This chemistry survey is designed to introduce students to the world of chemistry. The principles of chemistry were first identified, studied, and applied by ancient Egyptians in order to extract metal from ores, make alcoholic beverages, glaze pottery, turn fat into soap, and much more. What began as a quest to build better weapons or create potions capable of ensuring everlasting life has since become the foundation of modern science. Take a look around you: chemistry makes up almost everything you touch, see, and feel, from the shampoo you used this morning to the plastic container that holds your lunch. In this course, we will study chemistry from the ground up, learning the basics of the atom and its behavior. We will use this knowledge to understand the chemical properties of matter and the changes and reactions that take place in all types of matter.
Humans are social animals; social demands, both cooperative and competitive, structure our development, our brain and our mind. This course covers social development, social behaviour, social cognition and social neuroscience, in both human and non-human social animals. Topics include altruism, empathy, communication, theory of mind, aggression, power, groups, mating, and morality. Methods include evolutionary biology, neuroscience, cognitive science, social psychology and anthropology.
This course is a continuation of CHEM103 [1]: Organic Chemistry I. As you progress through the units below, you will continue to learn the different chemical reactions characteristic of each family of organic compounds. We will focus on four most important classes of reactions: electrophilic substitution at aromatic rings, nucleophilic addition at carbonyl compounds, hydrolysis of carboxylic acids, and carbon-carbon bond formation using enolates. The enolate portion of this course will cover the reactivity of functional groups. We will also look at synthetic strategies for making simple, small organic molecules, using the knowledge of organic chemistry accumulated thus far. At the end of this course, you will possess the tools you need to plan the synthesis of fairly complicated molecules, like those used in pharmaceutics. From the perspective of a synthetic organic chemist, the two most challenging aspects of synthesizing drug molecules are the incorporation of "molecular rings" (rings of 5, 6,…
Spectroscopy is the study of the interaction between matter and electromagnetic radiation. Molecules respond to different types of radiation in different ways, depending on the frequency (?) or wavelength (?) of the radiation. In General Chemistry, we studied spectroscopy as a tool for explaining the quantum mechanical model of the atom. In that course, we learned that light is an electromagnetic radiation of a wavelength that is visible to the human eye. We also learned that light, which exists in tiny “packets” called photons, exhibits properties of both waves and particles, a characteristic referred to as the wave-particle duality. The quantized relationship is defined as E = hv, where E is energy, h is Plank’s constant, and v is frequency. Spectroscopy and spectrometry are often used in chemistry for the identification of substances through the spectrum from which they are emitted or by which they are absorbed. The type of spectroscopic technique is defined by the type of radia…
Developmental psychology concerns itself with the changes (psychological and otherwise) that occur as a result of our physical and mental maturation. Typically, “development” refers to the systematic changes that take place between our conception and death. While this definition may seem quite broad, it will serve as a good starting point in our quest to understand the field of developmental psychology. The first thing we must realize as developmental psychologists is that our change is systematic. This means that the process by which we grow and mature over time is not defined by random, isolated events but by orderly and relatively long-term patterns. This also means that while individuals themselves may differ quite a bit, the developmental patterns that they undergo are similar. These concepts are crucial in that they allow us, as psychologists, to study the way in which people develop and to make predictions about the future based on that development. Developmental psychologists study both continuiti…
Physics 101 is the first course in the Introduction to Physics sequence. In general, the quest of physics is to develop descriptions of the natural world that correspond closely to actual observations. Given this definition, the story behind everything in the universe is one of physics. In practice, the field of physics is more often limited to the discovery and refinement of the basic laws that underlie the behavior of matter and energy. While biology is founded upon physics, in practice, the study of biology generally assumes that the present understanding of physical laws is accurate. Chemistry is more closely dependent on physics and assumes that physical laws provide accurate predictions. Engineering, for the most part, is applied physics. In this course, we will study physics from the ground up, learning the basic principles of physical laws, their application to the behavior of objects, and the use of the scientific method in driving advances in this knowledge. This first course o…
Neurobiology is all about the biology of our nervous system, from the spinal cord to the brainand everything in between. The nervous system allows us to have conscious thoughts, enables us to learn, and gives us voluntary control of our muscles. Our understanding of neuroscience begins with the ancient Egyptians, who practiced surgical drilling to treat certain neurological disorders. The earliest philosophers believed that the heart (not the brain) was the center of consciousness and intelligence. As scientific knowledge matured and developed, philosophers disproved that belief but discovered that there is much more to neurobiology than “the brain.” Researchers found that there are literally hundreds of billions of nerves and other cells that cooperate and share information to make the nervous system work. Accordingly, neurobiology is an extremely complex field of study. This course is designed to provide you with an overview of the most important areas of neurobiological study. We will not pay much…
Organic chemistry is a branch of chemistry that focuses on a single element: carbon! Carbon bonds strongly with other carbon atoms and with other elements, forming numerous chain and ring structures. As a result, there are millions of distinct carbon compounds known and classified. The vast majority of the molecules that contain carbon are considered organic molecules, with few debatable exceptions such as carbon nanotubes, diamonds, carbonate ions, and carbon dioxide. Carbon is central to the existence of life as it is an essential component of nucleic acids (DNA and RNA), sugars, lipids, and proteins. A well-rounded student of science must take courses in organic chemistry to understand its application to various topics, such as the study of polymers (plastics and other materials), hydrocarbons, pharmaceuticals, molecular biology, biochemistry, and other life sciences. In the first semester of organic chemistry, you will learn the basic concepts needed to understand the three-dimensional structu…
Analytical chemistry is the branch of chemistry dealing with measurement, both qualitative and quantitative. This discipline is also concerned with the chemical composition of samples. In the field, analytical chemistry is applied when detecting the presence and determining the quantities of chemical compounds, such as lead in water samples or arsenic in tissue samples. It also encompasses many different spectrochemical techniques, all of which are used under various experimental conditions. This branch of chemistry teaches the general theories behind the use of each instrument as well analysis of experimental data. This course begins with a review of general chemistry and an introduction to analytical terminology. You will learn terms relevant to the process of measuring chemical compounds, such as sensitivity and detection limit. The course continues with a unit on common spectrochemical methods, followed by an extension of these methods in a unit on atomic spectroscopy. These methods allow…
This is an introductory course in biochemistry, designed for both biology and chemical engineering majors. A consistent theme in this course is the development of a quantitative understanding of the interactions of biological molecules from a structural, thermodynamic, and molecular dynamic point of view. A molecular simulation environment provides the opportunity for you to explore the effect of molecular interactions on the biochemical properties of systems. This course assumes that students have taken introductory chemistry, including basic thermodynamics, as well as introductory organic chemistry. An introductory biology course is not a prerequisite for the course, but students would benefit from some prior exposure to biology, even at the high school level. Required mathematical skills include simple algebra and differential calculus.
This lab course supplements BIO304: Human Physiology [1]. Although we cannot virtually replicate the lab experience, this “lab” will familiarize you with scientific thinking and techniques and will enable you to explore of some key principles of human physiology. The material in this lab supplement relates to the material covered in the lecture and reading portion of the course. While the lecture and reading portion focuses on big-picture concepts, here we will focus more on visual understanding, manipulation, and practical use of your knowledge. You will review the physiology of the organ systems by using images of models, experiments, and videos. Then you will be asked to assess your knowledge, which eventually can be put to practical or experimental use. Co-requisite: BIO304: Human Physiology [2]. [1] http://www.saylor.org/courses/bio304/ [2] http://www.saylor.org/courses/bio304/…
This course introduces learners to the principles of learning and behavior by surveying relevant theoretical and empirical approaches within psychology. The overall emphasis is on the theoretical foundations of psychology as they relate to human learning and behavior. The following topics will be reviewed: historical perspectives of early learning theories, prevailing theories of human development, classical and operant conditioning, effects stimuli have on learning and behavior, social learning, motivation, cognitive developmental theory in the context of learning stages and processes, memory and human information processing models, and problem-solving methods. Understanding these human processes is an integral part of psychology and other domains of human behavior, such as marketing, sports, health, education and relationships. Learning theories are an outgrowth from philosophies of thought. The philosophical approaches of rationalism and empiricism, and the works of Plato and Descarte form the…
This course will introduce you to the psychology behind gender and sexuality, or the study of the different ways our gender roles and sexual identities impact our lives. Although the terms “gender” and “sex” are often used synonymously in everyday speech, this course will assign the terms two different meanings. “Sex” refers to biological differencei.e. whether you are a female or male from a biological standpoint. “Gender” refers to the social and psychological attributes that come along with one’s sex. Though these terms are similar and relate to one another, there is a distinct difference between the two that you should recognize for the purposes of this course. In this course, we will take a look at how our understanding of our own gender and sex can affect different aspects of our functioning, while also identifying the factors in our lives that can impact our gender and sex. While we often assume we know a lot about how gender affects our lives and the lives of the opposite gender, t…
This Research Methods Lab course is part two of the Research Methods series. You should not attempt this course without having first completed the Research Methods course (PSYCH202A [1]). This Lab extends beyond the basics of research methodology and the logic of experimental design, concepts you learned in PSYCH202A [2]. You will learn to put these concepts into practice while conducting laboratory experiments. While we may not explicitly apply all of the concepts introduced in the Research Methods lecture course, remember that each of them will remain relevant during the evaluation and review phases of your research. This course intends to acquaint the student with a variety of different research techniques. Students will participate in every stage of experimentation, from creation and editing to evaluation and review. As such, this course will not only review relevant concepts from the Research Methods lecture, but will also broach a number of practical matters, including the standard organizatio…
Organic Chemistry of Macromolecules covers the preparation, reactions, and properties of high molecular weight polymeric materials of both natural and synthetic origin. As a part of this course, U-M students collaboratively created and edited Wikipedia articles. Course Level: Graduate This Work, Chemistry 538 - Organic Chemistry of Macromolecules, by Anne McNeil is licensed under a Creative Commons Attribution-ShareAlike license.
In this second semester course, we will cover a wide-ranging field of topics, learning everything from the equation that made Einstein famous to why you can’t replace a dead car battery with a household battery. In General Chemistry I (CHEM101 [1]), we studied the basic tools you need to explore different fields in chemistry, such as stoichiometry and thermodynamics. This second-semester course will cover several of the tools needed to study chemistry at a more advanced level. We will identify the factors that affect the speed of a reaction, learn how an atom bomb works on a chemical level, and discover how chemistry powers a light bulb. Topics in advanced organic and inorganic chemistry courses will build upon what you learn in this class. We will end with discussion of organic chemistry, a topic that is as important to biology as it is to chemistry. [1] http:///courses/chem101/…
Biochemistry is the study of the chemical processes and compounds, such as cellular makeup, that bring about life in organisms. It is a combination of multiple science fields; you can think of it as general and cell biology coupled with organic and general chemistry. Although living organisms are very complex, from a molecular view, the material that constitutes “life” can be broken down into remarkably simple molecules, much like the breakdown of our English language to the English alphabet. Although there exists thousands upon thousands of molecules, they all breakdown into four core components: nucleic acids, amino acids, lipids, and carbohydrates. As we can make hundreds of thousands of words from just 26 letters, we can make thousands of different biomolecules from those 4 components. For example, the human genome, containing the necessary information to create a human being, is really just one very long strand of 4 different nucleotides. This course is structured around that approach, so…
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