Dino 101: Dinosaur Paleobiology is a 12-lesson course teaching a comprehensive overview of non-avian dinosaurs. Topics covered: anatomy, eating, locomotion, growth, environmental and behavioral adaptations, origins and extinction. Lessons are delivered from museums, fossil-preparation labs and dig sites.
In Dino 101: Dinosaur Paleobiology, students will learn about the many kinds of non-avian dinosaurs that roamed the earth during the Mesozoic Era, from 250 to 65 million years ago. Numerous topics are covered in order to deliver a comprehensive survey of this important group of animals. These include adaptations for attack and defence, anatomy, appearances, behaviors, birth, deep time, evolutionary theory, feeding, fossilization, growth, integumentary structures, locomotion, major groupings, origins, paleogeography, plate tectonics, reproduction, species definition, stratigraphy, and the extinction event that brought their dominance to an end.
Course material is delivered in a student-friendly short-form fashion, with numerous formative feedback sections. Many lessons are delivered from actual dinosaur dig sites. Students will gain access to a number of special interactive modules designed specifically for this course. These modules will grant users access to their very own virtual fossil collection, allow them to build dinosaur skeletons and provide them with an interactive visual representation of geologic time. This course's unique lesson delivery, combined with a classic quiz structure, will enable students to quickly gain a solid foundation for understanding dinosaurs, their adaptations and behaviours, and their place in the long history of earth.
Gain an introductory understanding of evolution, including how we evolved from primates and became human. Impressively, humans are the only creatures produced by evolution that are capable of understanding evolution. In Becoming Human: Anthropology, you can explore how evolution works and how variation arises. Find out why, of all the orders of life, primates produced us. How did apes start to look like us, walk on two feet and grow big brains that over the past 200,000 years have figured out where we came from? This subject will give you some thought-provoking answers.
In this course, we will see how evolutionary trees resolve quandaries from finding the origin of a deadly virus to locating the birthplace of modern humans. We will then use methods from computational proteomics to test whether we can reconstruct Tyrannosaurus rex proteins and prove that birds evolved from dinosaurs.
The course presents an overview of the theory behind biological diversity evolution and dynamics and of methods for diversity calculation and estimation. We will become familiar with the major alpha, beta, and gamma diversity estimation techniques.
In this course, featuring many researchers at the University of Zurich, you will learn about the amazing diversity of biological organisms in the world around us. You will discover the field of "biodiversity science", experience the countless forms that biodiversity takes, look at the values and importance of this diversity, understand the processes that create and maintain diversity, and hear about how biodiversity is distributed across the Earth. You will also experience how biodiversity is threatened, and what conservation, management, and individual actions can do for its protection. Having been equipped with such knowledge through the course, we encourage you to take action, however small, to positively influence the future of biodiversity, and thereby become a Biodiversity Ambassador.
This course presents the principles of evolution and ecology for citizens and students interested in studying biology and environmental sciences. It discusses major ideas and results. Recent advances have energised these fields with evidence that has implications beyond their boundaries: ideas, mechanisms, and processes that should form part of the toolkit of all biologists and educated citizens.
Paleontology: Theropod Dinosaurs and the Origin of Birds is a five-lesson course teaching a comprehensive overview of the origins of birds. This course examines the anatomy, diversity, and evolution of theropod dinosaurs in relation to the origin of birds. Students explore various hypotheses for the origin of flight.
Paleontology: Early Vertebrate Evolution is a four-lesson course teaching a comprehensive overview of the origin of vertebrates. Students will explore the diversity of Palaeozoic lineages within a phylogenetic and evolutionary framework .This course examines the evolution of major vertebrate novelties including the origin of fins, jaws, and tetrapod limbs.
Introduction to Genetics and Evolution is a college-level class being offered simultaneously to new students at Duke University. The course gives interested people a very basic overview of some principles behind these very fundamental areas of biology. We often hear about new "genome sequences," commercial kits that can tell you about your ancestry (including pre-human) from your DNA or disease predispositions, debates about the truth of evolution, why animals behave the way they do, and how people found "genetic evidence for natural selection."
We currently face unprecedented challenges on a global scale. These problems do not neatly fall into disciplines. They are complicated, complex, and connected. Join us on this epic journey of 13.8 billion years starting at the Big Bang and travelling through time all the way to the future. Discover the connections in our world, the power of collective learning, how our universe and our world has evolved from incredible simplicity to ever-increasing complexity.
MOOCs – Massive Open Online Courses – enable students around the world to take university courses online. This guide, by the instructors of edX’s most successful MOOC in 2013-2014, Principles of Written English (based on both enrollments and rate of completion), advises current and future students how to get the most out of their online study, covering areas such as what types of courses are offered and who offers them, what resources students need, how to register, how to work effectively with other students, how to interact with professors and staff, and how to handle assignments. This second edition offers a new chapter on how to stay motivated. This book is suitable for both native and non-native speakers of English, and is applicable to MOOC classes on any subject (and indeed, for just about any type of online study).