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Mécanique : Solide Indéformable
by Jean-Philippe Ansermet , Paul-Salomon Ngohe-Ekam- 4.8
Approx. 34 hours to complete
Ces quelques leçons de mécanique du solide indéformable font partie d'un cours de formation de base en mécanique Newtonienne présenté sous la forme d'un MOOC en quatre parties : 1. Lois de Newton https://www. coursera. org/learn/mecanique-newton 2. Mécanique du point matériel https://www. coursera. org/learn/mecanique-point-materiel 3. Mécanique du Solide Indéformable Cette partie traite la mécanique du solide indéformable....
Mechanics: Motion, Forces, Energy and Gravity, from Particles to Planets
by Prof. Joe Wolfe , Dr Elizabeth J. Angstmann , Mr Sebastian Fricke- 4.7
Approx. 29 hours to complete
Most of the phenomena in the world around you are, at the fundamental level, based on physics, and much of physics is based on mechanics. Mechanics begins by quantifying motion, and then explaining it in terms of forces, energy and momentum. (The survey tells us that it's often used by science teachers, too....
Элементы атомной и ядерной физики
- 4.7
Approx. 12 hours to complete
Сегодня в эпоху высоких технологий знание основ атомной и ядерной физики необходимо любому человеку, считающему себя образованным. Эти знания помогут в успешном обучении в любом техническом вузе, при выстраивании карьеры в области не только физики, но и в сфере информационных технологий, в области химии, экологии, биологии, медицины и т. д. Глобальные источники энергии...
Density Functional Theory
by Francesco Sottile , Lucia Reining- 4.9
Approx. 25 hours to complete
The aim of this course is to give a thorough introduction to Density Functional Theory (DFT). DFT is today the most widely used method to study interacting electrons, and its applicability ranges from atoms to solid systems, from nuclei to quantum fluids. In this course, we introduce the most important concepts underlying DFT, its foundation, and basic ideas....
Processing of Space Monitoring Information
by Elena Gundrova , Kolessa Alexey , Alexander G Tartakovsky , Sergey Ravdin , Alexey Pruglo- 0.0
Approx. 14 hours to complete
Observation of near-Earth outer space is an important task for astronomers and scientists at the present time. This task is to determine the coordinate and non-coordinate characteristics of artificial space objects. According to data obtained, a catalogue of objects is created, which should be maintained and updated. For this, optical means (telescopes) can be involved....
Spacecraft Dynamics Capstone: Mars Mission
by Hanspeter Schaub- 4.7
Approx. 44 hours to complete
The goal of this capstone spacecraft dynamics project is to employ the skills developed in the rigid body Kinematics, Kinetics and Control courses. An exciting two-spacecraft mission to Mars is considered where a primary mother craft is in communication with a daughter vehicle in another orbit. Tasks 8-11 simulate the closed-loop attitude performance for the three attitude modes....
Physics 101 - Energy and Momentum
by Jason Hafner- 0.0
Approx. 23 hours to complete
This course serves as an introduction to the physics of energy and momentum. Upon completion, learners will have an understanding of how mathematical laws and conservation principles describe the motions and interactions of objects all around us. They will gain experience in solving physics problems with tools such as graphical analysis, algebra, vector analysis, and calculus....
Теория функций комплексного переменного
by Родионов Ярослав Игоревич , Тихонов Константин Сергеевич- 0.0
Approx. 46 hours to complete
Курс призван дать студенту уверенное владение основными методами теории функций комплексного переменного. Для его успешного освоения, студенту понадобятся знания теории дифференцирования и интегрирования функций одной и нескольких переменных, а также базовые навыки решения простейших дифференциальных уравнений. В процессе работы над курсом студент познакомится с теорией интегрирования и дифференцирования аналитических функций, пройдет теорию простейших специальных функций, овладеет начальными навыками асимптотического анализа....
电磁学上——恒定电场
by Ms 王稼军 WangJiaJun- 4.9
Approx. 14 hours to complete
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、恒磁场、电磁感应、电磁介质、电路、麦克斯韦电磁场理论、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。本课程作为中国大学先修课(AP课程)向有志于学习物理及相关专业的学有余力的优秀中学生开放,培养学科兴趣,提高科学素养,打下扎实的物理基础。 2014年9月以来《电磁学》已经两度上线开课,教学内容是按周上载,共有十三周课程。考虑到很多大学生和中学生不一定有条件按照我们原来按周上载课件的节奏学习,有的同学反映开始拉下了进度,后面就跟不上了,练习也是有时限的,过了时限就没法记录练习的成绩了。因此我们团队决定将原来上线的《电磁学》课程拆分成两个学习进程在on demand上线,在on demand上,我们将所有课程内容全部上载,没有教学时限,由学生自行安排学习时间和进度,自己完成课后练习,以便随时为需要的学生提供学习的资料和练习。练习题可以多次尝试,只是必须做对每个模块练习题的80%,才可以通过。又考虑到《电磁学》内容比较多,因此将原来十三周的教学内容分成两个学习阶段。《电磁学上》包含的内容是《大学物理通用教程》电磁学的前三章即静电场、导体和电介质以及直流电。这三部分内容属于恒定电场范畴,这些内容应该是深入学习电磁学的基础,在这部分课程结尾,设置了一个结业考试,相当于大学课程的期中考试。第二个学习进程《电磁学下》包含的内容是《大学物理通用教程》电磁学的后五章即恒磁场、磁介质,电磁感应、交流电和电磁场电磁波。建议大家学习了第一进程,通过了结业考试以后再进入第二学习进程《电磁学下》的学习。 本课程的课程是按照知识点设置模块,《电磁学上》包含5个模块,《电磁学下》包含6个模块。每个模块又包含几节课,每个模块结束有一个小测,同学们可以自我测试,没有时间限制,大家可以根据自己的需要和时间安排来自主学习,以免一步跟不上,步步跟不上,这对于学习我们这种理论性比较强的课是有利的,已经明白的可以跳过去,不清楚的可以重点学习。 《电磁学上》包含以下五个模块 模块一 库仑定律和电场强度 模块二 高斯定理和环路定理 模块三 导体与静电平衡 模块四 电介质与电场能量 模块五 直流电 欢迎大家选课! 欢迎学习 介绍视频 模块一 : 库仑定律和电场强度 1. 0a前言 1. 11库仑定律 1. 12库仑定律成立条件 1. 13库仑定律的适用范围和精度 1. 14电量定义、单位制 电场强度 求电偶极子延长线和中垂面上场强 求有限长均匀带电线中垂面上的场强 求均匀带电圆环中垂线上一点的场强 模块1测验题(Quizzes of Module 1) 模块二 : 高斯定理和环路定理 2. 11通量和环流 2. 12高斯定理及其证明 2. 13关于高斯定理的讨论 2. 14高斯定理应用之一...
Analyzing the Universe
by Dr. Terry A. Matilsky- 4.7
Approx. 22 hours to complete
Using publicly available data from NASA of actual satellite observations of astronomical x-ray sources, we explore some of the mysteries of the cosmos, including neutron stars, black holes, quasars and supernovae. We will analyze energy spectra and time series data to understand how these incredible objects work. Each week we will explore a different facet of x-ray astronomy....