PPT: Dimensional Analysis | Fluid Mechanics for Mechanical Engineering PDF Download

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 Page 1


Learning Objectives
1. Introduction to Dimensions & Units
2. Use of Dimensional Analysis
3. Dimensional Homogeneity
4. Methods of Dimensional Analysis
5. Rayleigh’s Method
Page 2


Learning Objectives
1. Introduction to Dimensions & Units
2. Use of Dimensional Analysis
3. Dimensional Homogeneity
4. Methods of Dimensional Analysis
5. Rayleigh’s Method
Learning Objectives
6. Buckingham’s Method
7. Model Analysis
8. Similitude
9. Model Laws or Similarity Laws
10. Model and Prototype Relations
Page 3


Learning Objectives
1. Introduction to Dimensions & Units
2. Use of Dimensional Analysis
3. Dimensional Homogeneity
4. Methods of Dimensional Analysis
5. Rayleigh’s Method
Learning Objectives
6. Buckingham’s Method
7. Model Analysis
8. Similitude
9. Model Laws or Similarity Laws
10. Model and Prototype Relations
? Many practical real flow problems in fluid mechanics can be solved by using 
equations and analytical procedures. However, solutions of some real flow 
problems depend heavily on experimental data. 
? Sometimes, the experimental work in the laboratory is not only time-consuming, 
but also expensive. So, the main goal is to extract maximum information from 
fewest experiments. 
?In this regard, dimensional analysis is an important tool that helps in correlating 
analytical results with experimental data and to predict the prototype behavior from 
the measurements on the model.
Introduction
Page 4


Learning Objectives
1. Introduction to Dimensions & Units
2. Use of Dimensional Analysis
3. Dimensional Homogeneity
4. Methods of Dimensional Analysis
5. Rayleigh’s Method
Learning Objectives
6. Buckingham’s Method
7. Model Analysis
8. Similitude
9. Model Laws or Similarity Laws
10. Model and Prototype Relations
? Many practical real flow problems in fluid mechanics can be solved by using 
equations and analytical procedures. However, solutions of some real flow 
problems depend heavily on experimental data. 
? Sometimes, the experimental work in the laboratory is not only time-consuming, 
but also expensive. So, the main goal is to extract maximum information from 
fewest experiments. 
?In this regard, dimensional analysis is an important tool that helps in correlating 
analytical results with experimental data and to predict the prototype behavior from 
the measurements on the model.
Introduction Dimensions and Units
In dimensional analysis we are only concerned with the nature of the 
dimension i.e. its quality not its quantity. 
? Dimensions are properties which can be measured. 
Ex.: Mass, Length, Time etc.,
? Units are the standard elements we use to quantify these dimensions.
Ex.: Kg, Metre, Seconds etc.,
The following are the Fundamental Dimensions (MLT)
? Mass kg M
? Length m L
? Time s T
Page 5


Learning Objectives
1. Introduction to Dimensions & Units
2. Use of Dimensional Analysis
3. Dimensional Homogeneity
4. Methods of Dimensional Analysis
5. Rayleigh’s Method
Learning Objectives
6. Buckingham’s Method
7. Model Analysis
8. Similitude
9. Model Laws or Similarity Laws
10. Model and Prototype Relations
? Many practical real flow problems in fluid mechanics can be solved by using 
equations and analytical procedures. However, solutions of some real flow 
problems depend heavily on experimental data. 
? Sometimes, the experimental work in the laboratory is not only time-consuming, 
but also expensive. So, the main goal is to extract maximum information from 
fewest experiments. 
?In this regard, dimensional analysis is an important tool that helps in correlating 
analytical results with experimental data and to predict the prototype behavior from 
the measurements on the model.
Introduction Dimensions and Units
In dimensional analysis we are only concerned with the nature of the 
dimension i.e. its quality not its quantity. 
? Dimensions are properties which can be measured. 
Ex.: Mass, Length, Time etc.,
? Units are the standard elements we use to quantify these dimensions.
Ex.: Kg, Metre, Seconds etc.,
The following are the Fundamental Dimensions (MLT)
? Mass kg M
? Length m L
? Time s T
Secondary or Derived Dimensions
Secondary dimensions are those quantities which posses more than one 
fundamental dimensions. 
1. Geometric
a) Area m
2
L
2
b) Volume m
3
L
3
2. Kinematic
a) Velocity m/s L/T L.T
-1
b) Acceleration m/s
2
L/T
2
L.T
-2
3. Dynamic
a) Force N ML/T M.L.T
-1
b) Density kg/m
3 
M/L
3
M.L
-3
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FAQs on PPT: Dimensional Analysis - Fluid Mechanics for Mechanical Engineering

1. What is dimensional analysis and why is it important in scientific calculations?
Ans. Dimensional analysis is a method used in science to analyze and solve problems involving units of measurement. It helps in converting between different units, checking the consistency of equations, and verifying the correctness of mathematical expressions. By considering the dimensions of physical quantities, dimensional analysis allows scientists to accurately perform calculations and ensure the validity of their results.
2. How does dimensional analysis help in solving real-world problems?
Ans. Dimensional analysis provides a systematic approach to solving real-world problems by breaking them down into manageable steps. It allows us to identify relevant physical quantities, set up conversion factors, and cancel out units to obtain the desired unit. By using dimensional analysis, we can solve problems related to unit conversions, scaling, proportionality, and deriving relationships between different physical quantities.
3. Can dimensional analysis be applied to any scientific field or only specific ones?
Ans. Dimensional analysis can be applied to a wide range of scientific fields, including physics, chemistry, engineering, and biology. Its principles are universal and can be used to analyze and solve problems in any field where units of measurement are involved. Whether it is calculating the speed of a chemical reaction, determining the efficiency of an engine, or estimating the growth rate of a population, dimensional analysis provides a valuable tool for scientists across various disciplines.
4. Is dimensional analysis only used for calculations involving SI units?
Ans. No, dimensional analysis can be used for calculations involving any system of units, not just SI units. While the SI (International System of Units) is the most widely used system in scientific research, dimensional analysis is applicable to any system as long as the units are understood and consistent. For example, dimensional analysis can be used with the US customary units, the metric system, or even non-standard units as long as the relationships between the units are known.
5. Are there any limitations or drawbacks to using dimensional analysis in scientific calculations?
Ans. While dimensional analysis is a powerful tool, it does have some limitations. It assumes that the relationship between physical quantities is purely mathematical and does not account for factors such as temperature, pressure, or other contextual variables. Additionally, dimensional analysis can sometimes lead to approximate solutions rather than exact values. It is important to understand the limitations and ensure that dimensional analysis is used appropriately in conjunction with other methods and considerations.
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