Physics: Fluidodynamics, Oscillations and Waves

Course title

M2045000

	rajagopalan umamaheswari
	dita puspita sari

Course description

This lecture introduces the fundamental understanding of fluid (liquid and gases) and its kinematics statically and dynamically, or it can be called hydrodynamics. This lecture introduces the Pascal, Archimedes, and Bernoulli’s principles as well as Equation of continuity which includes the physical quantity variable, temperature, pressure, force, and the characteristic of the fluid (viscosity). The hydrodynamics principles of will be introduced in a mathematical form. After the midterm, the students will learn more about the application of this principles in engineering and bioscience.

Purpose of class

To understand the state of matter (gas, liquid, and solid) whereas the physics concept applies to the fluid (gas and liquid) statistically and dynamically. Students shall understand the fundamental principles works on the fluid containing of temperature, pressure, force, and equation of continuity. The students will finally introduce to the concept of viscosity and surface tension. The students are also expected to understand the application of this principles in the engineering field such as airplane, pump, and venturi meter, and in the bioscience field such as blood flow in human body, and the heart system.

Goals and objectives

	Goals and objectives	Course Outcomes
1.	The students understand the phase of matter, Pascal, Archimedes, and Bernoulli’s principles	A-1
2.	The students learn the Equation of Continuity and its application	A-1
3.	The students learn the Bernoulli’s Equation and its application	A-1
4.	The students learn the fluid dynamics and its application in the engineering and bioscience	A-1

Language

English

Class schedule

	Class schedule	HW assignments (Including preparation and review of the class.)	Amount of Time Required
1.	Phase of Matter	Review of the lecture	100分
1.	Phase of Matter	solve problems	90分
2.	Fluid Statics: Pressure in Fluids	Review of the lecture	100分
2.	Fluid Statics: Pressure in Fluids	solve problems	90分
3.	Pascal Principles	Review of the lecture	100分
3.	Pascal Principles	solve problems	90分
4.	Archimedes Principles	Review of the lecture	100分
4.	Archimedes Principles	solve problems	90分
5.	Fluid’s Dynamics: Flow Rate and the Equation of Continuity	Review of the lecture	100分
5.	Fluid’s Dynamics: Flow Rate and the Equation of Continuity	solve problems	90分
6.	Fluid’s Dynamics: Flow Rate and the Equation of Continuity	Review of the lecture	100分
6.	Fluid’s Dynamics: Flow Rate and the Equation of Continuity	solve problems	90分
7.	review and practice in view of the coming midterm exam	Review of the lecture	100分
7.	review and practice in view of the coming midterm exam	Exercise	90分
8.	Bernoulli’s equation	Review of the lecture	100分
8.	Bernoulli’s equation	review exam solutions	90分
9.	Application of Bernoulli’s Principle: Torricelli, Baseballs,	Review of the lecture	100分
9.		solve problems	90分
10.	Application of Bernoulli’s Principle: Airplane, Venturi tube	Review of the lecture	100分
10.		solve problems	90分
11.	Turbulent Flow	Review of the lecture	100分
11.	Turbulent Flow	solve problems	90分
12.	Viscosity, Laminar Viscous Flow	Review of the lecture	100分
12.	Viscosity, Laminar Viscous Flow	solve problems	90分
13.	Flow in tube: Poiseuille’s Equation, Blood Flow	Review of the lecture	100分
13.	Flow in tube: Poiseuille’s Equation, Blood Flow	solve problems	90分
14.	Final exam and discussion on the solutions	Review of the lecture	100分
14.	Final exam and discussion on the solutions	review solution of exam	120分
Total.	-	-	2690分

Relationship between 'Goals and Objectives' and 'Course Outcomes'

	Homew.+ particip.	Midterm exam	Final exam	Total.
1.	3%	10%		13%
2.	10%	10%		20%
3.	10%	10%	20%	40%
4.	7%		20%	27%
Total.	30%	30%	40%	-

Evaluation method and criteria

1) class participation; 2) homework problem (emphasis put on originality of solutions); 3) midterm exam; 4) final exam, with relative weights of 30% (1+2), 30%(3), 40%(4). A minimum of 60% of the full score is required to pass the course. That is to say two exams are sufficient (midterm and final) releasing therefore the pressure of having to score the maximum in one exam only.

Textbooks and reference materials

1. Physics for Scientists and Engineers with Modern Physics by Douglass C. Giancoli fourth edition Chapter 13 (Pearson New International Edition 2014)
2. A Course in classical Physics 2 – Fluids and Thermodynamics (Undergraduate Lecture Notes in Physics) Chapter 1 by Alessandro Bettini (Springer International Publishing Switzerland 2016)

Prerequisites

Methodics in Physics and Linear Algebra, Physics Mechanics, Calculus.
As for Calculus, more than the courses offered to the students up to this point is needed, in particular notions of differential equations.
The concepts not yet studied will be developed in this course.

Office hours and How to contact professors for questions

Available time at room 4303-2:
Monday 15:00 - 18:00 pm;
email: dita@shibaura-it.ac.jp

Regionally-oriented

Non-regionally-oriented course

Development of social and professional independence

Course that cultivates an ability for utilizing knowledge
Course that cultivates a basic problem-solving skills

Active-learning course

Most classes are interactive

Course by professor with work experience

Work experience	Work experience and relevance to the course content if applicable
N/A	N/A

Education related SDGs:the Sustainable Development Goals

Last modified : Sun Mar 21 14:55:21 JST 2021