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化学131C.Lec。10热力学和化学动力学。吉姆·焦耳

Chem 131C. Lec. 10. Thermodynamics and Chemical Dynamics. Jim Joule
课程网址: http://ocw.uci.edu/lectures/chem_131c_lec_10_thermodynamics_and_c...  
主讲教师: Reginald Penner
开课单位: 加州大学尔湾分校
开课时间: 2012-04-25
课程语种: 英语
中文简介:
UCI C[url]em 131C热力学和化学动力学(2012年春季)课程11.热力学和化学动力学中期我复习查看完整的课程:[url]ttp://[url]cw.uci.edu/c[url]urses/c[url]em_131c_t[url]erm[url]dynamics_and_c[url]emical_dynamics.[url]tml讲师:Reginald Penner,博士学位许可证:由NC SA使用的知识共享使用条款:[url]ttp://[url]cw.uci.edu/inf[url]。更多课程位于[url]ttp://[url]cw.uci.edu描述:在化学131C中,学生将学习如何计算系统的宏观化学性质。本课程将建立在微观理解(化学物理学)的基础上,以增强和扩展您对通用化学(物理化学)中基本热化学概念的理解。然后,我们继续研究如何根据分子性质测量和计算化学反应速率。涵盖的主题包括:能量,熵和热力学势;化学平衡;热力学和化学动力学(C[url]em 131C)是OpenC[url]em的一部分:[url]ttp://[url]cw.uci.edu/[url]penc[url]em/该视频是由UC教授的名为“热力学和化学动力学”的27门本科课程的一部分。 Reginald M.Penner教授于Irvine.2012年4月25日录制。主题索引:00:05公告00:28期中考试00:52分区功能:享受四种口味中的任何一种... 01:51示例:NO分子具有一个双重简并... 03:24绘制它:05:01 ...(b)对摩尔内能的电子贡献... 05:08方程05:22更多方程05:38(图)摩尔内部能量... 06:32这是几年前的期中考试问题。08:42我需要哪个方程?10:31如果您被问到:计算分子的分数... 10 :48那么我们又问了什么? B.现在一摩尔... 12:06等分定理:13:33现在您会记得热容... 14:15公式:等分定理告诉我们... 14:17等分定理告诉我们翻译是有贡献的... 14:41图:分子翻译的贡献... 14:55公式:...这也是所有单原子气体的热容16:01线性分子:16:44的图:平移旋转16:53对于非线性分子:17:45 ...好吧,让我们再次回到经典的哈密顿量。18:12,然后继续进行等分的预测... 18:58公式:在特定情况下的双原子,我们得到:19:02公式图:19:10示例:使用均分定理来估计... 20:05太主观了,让我们使用以下经验法则:必需的归因:Penner,Reginald热力学和化学动力学131C(UCI OpenC[url]urseWare:加州大学尔湾分校),[url]ttp://[url]cw.uci.edu/c[url]urses/c[url]em_131c_t[url]erm[url]dynamics_and_c[url]emi cal_dynamics.[url]tml。 [访问日期]。许可证:创用CC署名S[url]areAlike 3.0美国许可证。
课程简介: UCI C[url]em 131C T[url]ermodynamics and C[url]emical Dynamics (Spring 2012)Lec 11. T[url]ermodynamics and C[url]emical Dynamics -- Midterm I Review --View t[url]e complete course: [url]ttp://ocw.uci.edu/courses/c[url]em_131c_t[url]ermodynamics_and_c[url]emical_dynamics.[url]tmlInstructor: Reginald Penner, P[url].D.License: Creative Commons BY-NC-SATerms of Use: [url]ttp://ocw.uci.edu/info.More courses at [url]ttp://ocw.uci.eduDescription: In C[url]emistry 131C, students will study [url]ow to calculate macroscopic c[url]emical properties of systems. T[url]is course will build on t[url]e microscopic understanding (C[url]emical P[url]ysics) to reinforce and expand your understanding of t[url]e basic t[url]ermo-c[url]emistry concepts from General C[url]emistry (P[url]ysical C[url]emistry.) We t[url]en go on to study [url]ow c[url]emical reaction rates are measured and calculated from molecular properties. Topics covered include: Energy, entropy, and t[url]e t[url]ermodynamic potentials; C[url]emical equilibrium; and C[url]emical kinetics.T[url]ermodynamics and C[url]emical Dynamics (C[url]em 131C) is part of OpenC[url]em: [url]ttp://ocw.uci.edu/openc[url]em/T[url]is video is part of a 27-lecture undergraduate-level course titled "T[url]ermodynamics and C[url]emical Dynamics" taug[url]t at UC Irvine by Professor Reginald M. Penner.Recorded on April 25, 2012.Index of Topics:00:05 - Announcements00:28 - Midterm Exam00:52 - Partition Functions: Enjoy in any of Four Flavors...01:51 - Example: T[url]e NO molecule [url]as a doubly degenerate...03:24 - Plot It:05:01 - ...(b) t[url]e electronic contribution to t[url]e molar internal energy...05:08 - Equations05:22 - More Equations05:38 - (Diagram) T[url]e electronic contribution to t[url]e molar internal energy...06:32 - Here's a midterm exam question from a couple of years ago.08:42 - W[url]ic[url] equation(s) do I need?10:31 - If you are asked: calculate t[url]e fraction of molecules...10:48 - so w[url]at were we asked again? B. Now one mole of...12:06 - T[url]e equipartition t[url]eorem:13:33 - now you'll recall t[url]at t[url]e [url]eat capacity...14:15 - Formula: t[url]e equipartition t[url]eorem tells us...14:17 - t[url]e equipartition t[url]eorem tells us t[url]at translation contributes...14:41 - Grap[url]: t[url]e contribution of molecular translation...14:55 - Formula: ...t[url]is is also t[url]e [url]eat capacity for all monoatomic gases16:01 - For a linear molecule:16:44 - Grap[url]: translation + rotation16:53 - For nonlinear molecule:17:45 - ...well, let's go back to t[url]e classical Hamiltonian again.18:12 - so following t[url]roug[url] wit[url] t[url]e predictions of t[url]e equipartition...18:58 - Formula: in t[url]e specific case of a diatomic, we get:19:02 - Formula Grap[url]:19:10 - Example: Use t[url]e equipartition t[url]eorem to estimate...20:05 - Too subjective, let's use t[url]is rule of t[url]umb:Required attribution: Penner, Reginald T[url]ermodynamics and C[url]emical Dynamics 131C (UCI OpenCourseWare: University of California, Irvine),  [url]ttp://ocw.uci.edu/courses/c[url]em_131c_t[url]ermodynamics_and_c[url]emical_dynamics.[url]tml. [Access date]. License: Creative Commons Attribution-S[url]areAlike 3.0 United States License.
关 键 词: 热力学; 物理; 化学动力学
课程来源: 视频讲座网
最后编审: 2020-10-27:yxd
阅读次数: 64

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