Mechanics of fluid henter 4
1 Mechanics of Fluid
流体力学
2
Chapter 4 Similarity principle and dimensional analysis §4-1 Introduction D84-2 Similarity Principle 84-3 Similarity Criterion §44 Model laws 当§4-5兀 Law and application of Dimensional Analysis Chapter 4 Exercise
3 Chapter 4 Similarity Principle and Dimensional Analysis §4–1 Introduction §4–2 Similarity Principle §4–3 Similarity Criterion §4–4 Model Laws §4–5 Law and Application of Dimensional Analysis Chapter 4 Exercise
第四章相似原理和量纲分析 §4-1引言 §4-2相似原理 §4-3相似准则 §4-4模型规律 §45丌定理和量纲分析的应用 第四章习题
4 第四章 相似原理和量纲分析 §4–1 引言 §4–2 相似原理 §4–3 相似准则 §4–4 模型规律 §4–5 定理和量纲分析的应用 第四章 习 题
a Chapter 4 Similarity Principle and Dimensional Analysis 84-1 Introduction Experiment is the basis of developing theories as well as the yardstick of proving theories, sometimes science and technology problems cant be solved without the cooperation of experiments There are mainly two kinds of experiments in engineering fluid mechanic a. model experiment of engineering. For the purpose of forecasting the flow situation of large-scale machine or water power engineering which are being built b exploratory observing experiment. For the purpose of searching unknown flow laws, the theoretical foundation to direct these experiments are similarity principle and dimension analyse
5 Chapter 4 Similarity Principle and Dimensional Analysis §4-1 Introduction Experiment is the basis of developing theories as well as the yardstick of proving theories, sometimes science and technology problems can’t be solved without the cooperation of experiments. a. model experiment of engineering. For the purpose of forecasting the flow situation of large-scale machine or water power engineering which are being built. b. exploratory observing experiment. For the purpose of searching unknown flow laws, the theoretical foundation to direct these experiments are similarity principle and dimension analyse. There are mainly two kinds of experiments in engineering fluid mechanics: