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氣體自由程與輸運系數的研究
氣體自由程與輸運系數的研究
摘 要:氣體分子自由程和輸運系數是分子運動論的基本內容,它們在現代物理的許多分支中仍必不可少,但在現行教科書上對它們的證明及推導過于粗糙很難讓學生理解與掌握。針對這些缺點本文在現行的教材以及相關參考文獻的基礎上,首先根據麥克斯韋速率分布推導出氣體分子自由程,然后在計算推導實際氣體分子輸運系數時介紹1種比較好的勢模型Tang-Toennies(TT)勢模型為分子相互作用勢,在此基礎上提出了用物理力學方法計算輸運系數中關鍵的碰撞積分公式,并給出了碰撞積分公式中1些參數的確定以及關系,最后得出輸運系數的表達式并計算出結果。把計算結果與理想氣體輸運系數的對比分析。計算結果與理論值比較相符,同時說明選擇TT勢模型的正確性。
關鍵詞:氣體分子;自由程;輸運系數;相互作用勢
Research with the free path of gas and transfer factor
Abstract: Gas molecules and free transport coefficients-molecular-kinetic theory is the basic content. Modern physics in many branches still essential. However, the existing textbooks of their derivation proved too rough and difficult for students to understand and grasp. These papers address these shortcomings on the basis of the existing reference materials and related documents. First According to Maxwells distribution rate of gas molecules derived free path, Then in the calculation of actual gas molecules derived transport coefficients introduced a relatively good potential model Tang-Toenni es (TT) potential model for the molecular interaction potential, On this basis the use of physical and mechanical transport coefficients calculated key collision integral formula and gives the collision integral formula to determine the number of parameters and relationships,Came to the conclusion that the transport coefficients calculated expression results. Compared to the results and the ideal gas transport coefficients are Calculation results are consistent with theoretical values, and choose TT potential model is correct.
Key words: Gas molecules; Free path; Transfer factor; Interaction Potential
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