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=Part I=
 
=Part I=
请自选某环境状态,利用[http://www.albany.edu/~yfq/YuOnLineNucleation.html Professor Fangqun Yu's online nucleation rate calculation page],计算相对湿度(饱和比)在50%~150%范围内,不同核化机制的核化速率,并作图讨论。
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请自选某环境状态,利用[http://apm.asrc.albany.edu/nrc/ Professor Fangqun Yu's online nucleation rate calculation page],计算相对湿度(饱和比)在50%~103%范围内,不同核化机制的核化速率,并作图讨论。
  
 
请注明你假设的环境参量。
 
请注明你假设的环境参量。
  
注意,不是所有的核化机制在50%~150%饱和比范围内都能够工作,选画合理范围即可。
+
注意,不是所有的核化机制在50%~103%饱和比范围内都能够工作,选画合理范围即可。
  
 
=Part II=
 
=Part II=
 
Read [https://www.nature.com/articles/s41586-024-07547-1 Zhao et al. (2024), Nature]
 
Read [https://www.nature.com/articles/s41586-024-07547-1 Zhao et al. (2024), Nature]

Latest revision as of 09:28, 1 April 2025

Part I

请自选某环境状态,利用Professor Fangqun Yu's online nucleation rate calculation page,计算相对湿度(饱和比)在50%~103%范围内,不同核化机制的核化速率,并作图讨论。

请注明你假设的环境参量。

注意,不是所有的核化机制在50%~103%饱和比范围内都能够工作,选画合理范围即可。

Part II

Read Zhao et al. (2024), Nature

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