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ALISON Free Physical Sciences

The Big Bang theory has revolutionized our understanding of how the Universe was formed. It presents the scientific proof that shows how the Universe expanded from an infinitely small point around 13.7 billion years ago. In this free online course the learner will discover how scientists calculated when the Big Bang happened and how the Universe expanded after the Big Bang. The formation of the first atoms is discussed and how they are responsible for the cosmic background radiation that is found throughout the Universe. This free online course will be of great interest to students of astronomy and physics and to all learners who would like to learn more about the Big Bang theory and what it has to say about the formation of the Universe. <br />

Starts : 2014-10-16
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Iversity Free Closed [?] Physical Sciences English Diencephalon History+of+Math

####**Course Summary** In this course, we will provide you with a basic introduction into crystallography. The focus is placed upon the symmetry elements, which occur in crystals. The arrangement of the atoms inside the crystal needs a more detailed description than the overall shape of the crystal (morphology). We want to show you how symmetry is classified in a hierarchical way. We want our students to gain the ability to discover symmetry on their own. ####**What will I learn?** At the end of the course you will be aware of the similarities between the patterns on wallpaper and the structures of crystals, be able to classify the innumerable appearances of crystals into the seven different crystal systems, know how to find crystallographic data and how to analyze it regarding symmetry, you will understand the International Tables for Crystallography and will be familiar with software for analyzing and drawing crystals structures. ####**What do I have to know?** Basic knowledge in chemistry (atoms, simple molecules). ####**Course Structure** | **Chapter** |

Starts : 2015-11-10
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Iversity Free Closed [?] Physical Sciences English History+of+Math How to Succeed

Course Summary

In this first part of Vehicle Dynamics, we illuminate the longitudinal dynamic aspects of vehicles.

Clear and brief: acceleration and braking.

In Detail: After an introduction, we will look at driving resistances and slip, explain the demand of power and limits of a car, then clarify the needs for a clutch and gears and look at the rear and front weights during acceleration and braking. The course will be finished by two applications from automotive mechatronics.

What will I learn?

By the end of the course you will …

  • understand basic principles of accelerating and braking a car.
  • know the driving resistances and their influences on vehicle dynamics.
  • understand the discrepancy between demands and limits of powertrain.
  • understand the necessity of gears and clutch.
  • understand the correlation between braking, wheel load and recovery of energy.
  • be able to calculate simple properties of a car.

What do I have to know?

Some basic understanding of the following subjects will help you successfully participate in this course: Algebra; Trigonometric Functions; Differential Calculus; Linear Algebra; Vectors; Coordinate Systems; Force, Torque, Equilibrium; Mass, Center of Gravity, Moment of Inertia; Method of Sections, Friction, Newton's Law, (Lagrange's Equation)

Course structure

This course has a total of 12 chapters, and the topics for each chapter are the following:

Chapter 1: Preliminaries

Chapter 2: Introduction and Rolling Resistance

Chapter 3: Resistances: Grading, Acceleration, Aerodynamic Drag

Chapter 4: Real and ideal characteristic maps

Chapter 5: Approximation of the ideal map: Clutch and transmission

Chapter 6: Driving performance and axle loads

Chapter 7: ABS: Anti-lock Braking System

Chapter 8: ACC

Chapter 9: Homework Solutions Chapters 1 -3

Chapter 10: Homework Solutions Chapter 4 - 5

Chapter 11: Homework Solutions Chapter 6 - 8

Chapter 12: Solution of the exam

Starts : 2016-02-15
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Iversity Free Closed [?] Physical Sciences English History+of+Math How to Succeed

Course Summary

In this second part of Vehicle Dynamics, we will illuminate the lateral dynamic aspects of vehicles.

Clear and brief: the cornering of a car.

In Detail: We will start with a simple single-track model and then describe the slip angle of a wheel. The slip angle results in cornering forces, which are essential for understanding lateral dynamics. After that, we will look at the dependency between longitudinal and lateral forces using Kamm’s circle and Krempel’s diagram. Then we will investigate steady state cornering, stability and the influence of different weight distributions between inner and outer side wheels of the car. The course will finish with two applications from automotive mechatronics.

What will I learn?

At the end of the course you will …

  • understand basic principles of cornering of a car.
  • know slip angle and cornering forces.
  • understand the single track model.
  • understand the steady state cornering, stability and the influence of different weight distribution between inner and outer side of the car.
  • be able to calculate simple properties of a car.

What do I have to know?

Some basic understanding of the following subjects will help you successfully participate in this course:

Algebra; Trigonometric Functions; Differential Calculus; Linear Algebra; Vectors; Coordinate Systems; Force, Torque, Equilibrium; Mass, Center of Gravity, Moment of Inertia; Method of Sections, Friction, Newton's Law, (Lagrange's Equation)

Course structure

This course has a total of 10 chapters, and the topics for each chapter are the following:

Chapter 1: Preliminaries

Chapter 2: Single-Track Model

Chapter 3: Tyre side slip

Chapter 4: Steady state cornering

Chapter 5: Solution of linear single track model

Chapter 6: Stability and step steer

Chapter 7: Wheelload transfer

Chapter 8: Suspension systems

Chapter 9: Active lateral systems

Chapter 10: Solutions Homework: Part 1

Chapter 11: Solutions Homework: Part 2

Starts : 2016-05-16
No votes
Iversity Free Closed [?] Physical Sciences English History+of+Math How to Succeed

Course Summary

In this third part of Vehicle Dynamics, we will illuminate the vertical dynamic aspects of vehicles. In short, we will describe the elements involved when a car drives on a bumpy or rough street.

We will start with a survey of suspensions and springs and dampers. After this, we will explain the description of rough streets and give an introduction to Fourier integrals. Next, we will take a closer look at vertical models. In the last fundamental part of the course, we will describe the conflict between driving safety and comfort. The course will be finished with two applications from automotive mechatronics.

What will I learn?

At the end of the course you will …

  • know different kinds of suspensions, springs and dampers.
  • know the description of rough and bumpy streets.
  • understand the Fourier integral.
  • understand the conflict between driving safety and comfort.
  • be able to calculate simple properties of a car.

What do I have to know?

Some basic understanding of the following subjects will help you successfully participate in this course:

Algebra; Trigonometric Functions; Differential Calculus; Linear Algebra; Vectors; Coordinate Systems; Force, Torque, Equilibrium; Mass, Center of Gravity, Moment of Inertia; Method of Sections, Friction, Newton's Law, (Lagrange's Equation)

Course structure

This course has a total of 11 chapters, and the topics for each chapter are the following:

Chapter 1: Overview

Chapter 2: Damped Oscillator

Chapter 3: Fourier integral

Chapter 4: Conflict: Comfort vs. Safety I

Chapter 5: Conflict: Comfort vs. Safety II

Chapter 6: Ideal active system and skyhook damper principle

Chapter 7: Vibration absorber in powertrains

Chapter 8: Models and nonlinearities

Chapter 9: Homework solutions of chapter 1, 2 and 3

Chapter 10: Homework solutions of chapter 4, 5 and 6

Chapter 11: Homework solutions of chapter 7 and 8

Exam for the Certificate Track users: 17.07-31.07.2016 (exam period has been pushed forward)

Starts : 2016-04-27
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edX Free Closed [?] Physical Sciences English product differentiation and variety Business Calculus I Nutrition

This physics course introduces the concept of tensor product states to discuss entanglement and Bell inequalities. You will learn about angular momentum and its representations. This is used to understand the spectrum of central potentials and to introduce hidden symmetries. Lastly, you will learn about the addition of angular momentum and an algebraic approach to the hydrogen atom spectrum.

This is the last of three courses offering a sophisticated view of quantum mechanics and its proper mathematical foundation.

To follow this course you should have taken Part 1: Wave Mechanics, and Part 2: Quantum Dynamics.

Completing the 3-part Quantum Mechanics series will give you the necessary foundation to pursue advanced study or research at the graduate level in areas related to quantum mechanics

The series will follow MIT’s on campus 8.05, the second semester of the three-course sequence on undergraduate quantum mechanics, and will be equally rigorous. 8.05 is a signature course in MIT's physics program and a keystone in the education of physics majors. 

Learner Testimonials

I’ve thought long and hard to come up with a better MOOC than this one (I’ve completed 25 of these things over the past 2 years) and can’t do it. 8.05x is #1 and I suspect will stay that way for some time to come.

 “Being an engineering student from India trying to shift to Physics, I am often faced with the requirement to study topics on my own. Very often this has led me to feel inadequate. 8.05x was the perfect opportunity for me to both gain knowledge and evaluate my understanding on a high quality international platform. It has really exceeded my expectations. Now, at the end of fifteen weeks, I feel more confident and hopefully I am more knowledgeable.

FAQ

Who can register for this course?

Unfortunately, learners from Iran, Cuba, Sudan and the Crimea region of Ukraine will not be able to register for this course at the present time. While edX has received a license from the U.S. Office of Foreign Assets Control (OFAC) to offer courses to learners from Iran and Sudan our license does not cover this course.

Separately, EdX has applied for a license to offer courses to learners in the Crimea region of Ukraine, but we are awaiting a determination from OFAC on that application. We are deeply sorry the U.S. government has determined that we have to block these learners, and we are working diligently to rectify this situation as soon as possible.

Starts : 2004-09-01
No votes
MIT OpenCourseWare (OCW) Free Closed [?] Physical Sciences Before 1300: Ancient and Medieval History Infor Information environments Information Theory Nutrition

The Acoustics of Speech and Hearing is an H-Level graduate course that reviews the physical processes involved in the production, propagation and reception of human speech. Particular attention is paid to how the acoustics and mechanics of the speech and auditory system define what sounds we are capable of producing and what sounds we can sense. Areas of discussion include:

  1. the acoustic cues used in determining the direction of a sound source,
  2. the acoustic and mechanical mechanisms involved in speech production and
  3. the acoustic and mechanical mechanism used to transduce and analyze sounds in the ear.

Related Content

Starts : 2014-09-16
No votes
edX Free Closed [?] Physical Sciences English product differentiation and variety Business Calculus I Nutrition

8.EFTx is an online version of MIT's graduate Effective Field Theory course. The course follows the MIT on-campus class 8.851 as it was given by Professor Iain Stewart in the Fall of 2013, and includes his video lectures, resource material on various effective theories, and a series of problems to facilitate learning the material. Anyone can register for the online version of the course. When the course is being taught on campus, students at MIT or Harvard may also register for 8.851 for course credit.

Effective field theory (EFT) provides a fundamental framework to describe physical systems with quantum field theory. In this course you will learn both how to construct EFTs and how to apply them in a variety of situations. We will cover the majority of the common tools that are used by different effective field theories. In particular: identifying degrees of freedom and symmetries, formulating power counting expansions (both dimensional and non-dimensional), field redefinitions, bottom-up and top-down effective theories, fine-tuned effective theories, matching and Wilson coefficients, reparameterization invariance, and various examples of advanced renormalization group techniques. Examples of effective theories we will cover are the Standard Model as an effective field theory, integrating out the massive W, Z, Higgs, and top, chiral perturbation theory, non-relativistic effective field theories including those with a large scattering length, static sources and Heavy Quark Effective Theory (HQET), and a theory for collider physics, the Soft-Collinear Effective Theory (SCET).

Course Flow

Since this is an advanced graduate physics course, you will find that self-motivation and interaction with others is essential to learning the material. The purpose of the online course is to set you up with a foundation, to teach you to speak the language of EFT, and to connect you with other students and researchers that are interested in learning or broadening their exposure to this subject. Each week you will complete automatically graded homework problems to test your understanding and to help you master the material. You are expected to discuss the homework with other people in the class, but your online responses must be done individually. To facilitate these interactions there will be a forum for student-to-student discussions, with threads to cover different topics, and moderators with experience in this field. Student learning and discussions will also be prompted by questions posed after each lecture topic.

There will be no tests or final exam, but at the end of the course each student will give a 30-minute presentation on an EFT topic of their choosing. The subject of effective field theory is rich and diverse, and far broader than we will be able to cover in a single course. The presentations will create an opportunity for you to learn about additional subjects beyond those in lecture from your fellow students. To facilitate this learning opportunity, each student will be required to watch and grade five presentations from among their fellow students.

Since this is a graduate course, we anticipate that learning the subject and having the 8.EFTx materials available as an online resource will be more valuable to most of you than obtaining a grade. Therefore anyone who registers for the course will be able to retain access to the course materials after the course has ended. Note that when the course is archival mode that the problems can be attempted and checked in the same manner as when the course was running.

Starts : 2015-06-02
No votes
edX Free Closed [?] Physical Sciences English Business Information policy Nutrition

Have you ever wondered about planets in other solar systems? Have you ever thought about the possibility of life elsewhere in the Universe? For the first time in human history, we know that planets around other stars not only exist, but are common!

Alien Worlds focuses on the search and characterization of planets orbiting other stars (called extrasolar planets or “exoplanets”). Over the course of nine modules, we will learn some of the techniques used to discover the thousands of known exoplanets and will discuss how we can use basic scientific tools to characterize the sizes, masses, compositions, and atmospheres of exoplanets. We will also learn about the diversity of stars in the Galaxy to understand how stellar properties affect exoplanet detection techniques and influence planetary formation and habitability.

In addition to the exploration of exoplanets, students in Alien Worlds will gain a basic understanding of light, gravity and motion, and be introduced to some of the most extreme life on planet Earth. We will hear from experts at the forefront of exoplanet science and interact with other participants and instructors through social media and online tools. Students will leave Alien Worlds with a better understanding of their place in the Universe and the skills to comprehend the wealth of new discoveries surrounding the countless worlds around distant stars.

Starts : 2014-04-22
No votes
edX Free Closed [?] Physical Sciences English Business Foreign+Language Information policy Nutrition

This is an introductory astronomy survey class that covers our understanding of the physical universe and its major constituents, including planetary systems, stars, galaxies, black holes, quasars, larger structures, and the universe as a whole. We will learn how modern astronomical observations and applications of physics we know from the planet Earth reveal the nature of these objects and explain their observed properties, and tell us how they form and evolve. We will also examine various cosmic phenomena, from variable or exploding stars to the expansion of the universe and the evidence for dark matter, dark energy, and the big bang. The universe as a whole and all of its major constituents are evolving, and we now have a fairly complete and consistent picture of these processes that is based on the objective evidence from observations and the laws of physics. The goal of this class is both to learn about the fascinating objects and phenomena that populate the universe, and to understand how we know all that.

Starts : 2015-03-02
No votes
Coursera Free Closed [?] Physical Sciences BabsonX Calculus I Nutrition

电磁学是普通物理系列中最重要的基础课之一,是高等学校每一个理工科学生必修课程,本课程包括静电场、导体与电介质、恒定电流、恒磁场、磁介质、电磁感应、交流电、电磁场与电磁波等内容,首次系统地向学生介绍“场”的概念和处理“场”的方法,对学生今后学习和工作有深远的影响。本课程作为北京大学首次向中学开放的中国大学先修课(AP课程)之一,为有志于学习物理及相关专业的学有余力的优秀中学生,培养学科兴趣,提高科学素养,打下扎实的物理基础提供学习的环境和应有的资源。

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