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- 在第二章中,我们学习了Budyko的能量平衡气候模型(Simple Energy Balance Climate Model),并用此模型来讨论了存在冰雪线的情况下,气候系统的稳定性问题。冰雪线的南北移动会引起行星反照率及热量的动力 ...2 KB (175 words) - 08:26, 23 September 2021
- 在第二章中,我们学习了Budyko的能量平衡气候模型(Simple Energy Balance Climate Model),并用此模型来讨论了存在冰雪线的情况下,气候系统的稳定性问题。冰雪线的南北移动会引起行星反照率及热量的动力 ...2 KB (175 words) - 01:36, 22 October 2019
- 在第二章中,我们学习了Budyko的能量平衡气候模型(Simple Energy Balance Climate Model),并用此模型来讨论了存在冰雪线的情况下,气候系统的稳定性问题。冰雪线的南北移动会引起行星反照率及热量的动力 ...2 KB (175 words) - 05:58, 11 October 2023
- ...long as the field is in place, however, the electrons will gain back that energy that they lost, and the process will continue. This "jolt" that electrons ...3 KB (536 words) - 13:33, 9 April 2017
- ...hot, but an inductor and a capacitor store the energy and can return that energy to the source when it goes down. ...5 KB (850 words) - 06:03, 26 June 2016
- where <math>G\,</math> is the [[Gibbs free energy]], <math>R\,</math> is the molar gas constant, and <math>V\,</math> is the ...1 KB (185 words) - 05:26, 9 December 2013
- In the following equations, n, n-a, n-b, etc. name [[wikt:energy|energy]] levels of an [[wikt:electron|electron]] in a [[wikt:hydrogen|hydrogen]] [ ...3 KB (510 words) - 06:32, 17 October 2014
- ...[[c]] is the [[speed of light]], and T<sub>μv</sub> is called the ''stress-energy tensor''. ...1 KB (189 words) - 07:34, 13 September 2016
- ...|circuit]], but rather than dissipating magnetic energy it stores magnetic energy. As an [[electric field]] causes an [[electric current]] to follow the [[p ...ses the reluctance of the magnetic circuit, and enables it to store more [[energy]] before core saturation. This effect is also used in the [[flyback transf ...5 KB (744 words) - 13:27, 25 September 2014
- 在第二章中,我们学习了Budyko的能量平衡气候模型(Simple Energy Balance Climate Model),并用此模型来讨论了存在冰雪线的情况下,气候系统的稳定性问题。冰雪线的南北移动会引起行星反照率及热量的动力 ...3 KB (216 words) - 08:59, 3 November 2020
- 在第二章中,我们学习了Budyko的能量平衡气候模型(Simple Energy Balance Climate Model),并用此模型来讨论了存在冰雪线的情况下,气候系统的稳定性问题。冰雪线的南北移动会引起行星反照率及热量的动力 ...3 KB (216 words) - 02:52, 5 October 2022
- # [[Simple energy balance climate model]] [Due: 2010.10.25] ([http://lamda.nju.edu.cn/yinyt/n # [[Energy cycle and E-P flux]] [Due: 2010.12.22] (See Assign3 for sample figures) ...12 KB (800 words) - 05:28, 11 March 2011
- [[Star]]<nowiki/>s, [[Galaxy|galaxies]] and other objects emit energy in the form of [[radiation]]. It is [[Measurement|measure]]<nowiki/>d in [[ ...1 KB (225 words) - 11:44, 21 June 2017
- ...ve out [[energy]]. These are [[exothermic reaction]]s. In other reactions, energy is taken in. These are [[endothermic reaction]]s. ...5 KB (701 words) - 12:12, 4 June 2017
- ...frequency [[angular momentum]]) and the highest (''i.e.'', zero) potential energy (zero‑frequency angular momentum).]] ...ous and Metamorphic Petrology]. John Wiley & Sons, 2013, p. 21. "Potential energy can be equated with the amount of work required to move a body from one po ...23 KB (3,626 words) - 09:52, 1 September 2017
- It must have finite energy. ...2 KB (280 words) - 16:47, 26 March 2017
- A '''water turbine''' is a rotary [[engine]] that takes energy from moving water. ...d for [[electric power]] generation. They harness a clean and [[renewable energy]] source. ...15 KB (2,242 words) - 18:49, 30 May 2017
- # [[Assignment 2, Fall 2023|Simple energy balance climate model]] [Due:2023.11.2] [[Namelist_Assignment_2_2023|上交作业人员 *能量和水汽循环 (Angular momentum, energy and water vapor)(2课时) ...10 KB (551 words) - 16:33, 29 November 2023
- # [[Assignment 2, Fall 2019|Simple energy balance climate model]] [Due:2019.10.23] *能量和水汽循环 (Angular momentum, energy and water vapor)(2课时) ...10 KB (587 words) - 00:52, 12 November 2019
- ...]] that contain an [[electric field]] and a [[magnetic field]] and carry [[energy]]. They travel at the [[speed of light]].<ref>This is always defined as the ...differ in [[wavelength]], [[frequency]] and [[Quantum mechanics|quantum]] energy. ...5 KB (694 words) - 03:58, 28 April 2017