This document provides information about a classical mechanics course, including:
1) Classical mechanics describes the motion of macroscopic objects under the influence of forces, and provides accurate results for large objects and speeds not approaching light speed.
2) The course will cover fundamental principles of classical mechanics, variational principles, oscillations, relativity, Hamiltonian mechanics, and continuous systems.
3) Assessment will include quizzes, assignments, exams, and class participation, with midterm and final exams accounting for 30% and 50% of the grade respectively. Homework will be assigned for practice but not collected or graded.
Introduction to Classical Mechanics:
UNIT-I : Elementary survey of Classical Mechanics: Newtonian mechanics for single particle and system of particles, Types of the forces and the single particle system examples, Limitation of Newton’s program, conservation laws viz Linear momentum, Angular Momentum & Total Energy, work-energy theorem; open systems (with variable mass). Principle of Virtual work, D’Alembert’s principle’ applications.
UNIT-II : Constraints; Definition, Types, cause & effects, Need, Justification for realizing constraints on the system
Schrodinger equation and its applications: Chapter 2Dr.Pankaj Khirade
Wave function and its physical significance, Schrodinger time dependent equation, Separation in time dependent and time independent parts, Operators in quantum Mechanics, Eigen functions and Eigen values, Particle in one dimensional and three dimensional box (Energy eigen values). Qualitative analysis of potential barrier Tunneling effect). Simple Harmonic Oscillator (Qualitative analysis of Zero point energy)
Introduction to Classical Mechanics:
UNIT-I : Elementary survey of Classical Mechanics: Newtonian mechanics for single particle and system of particles, Types of the forces and the single particle system examples, Limitation of Newton’s program, conservation laws viz Linear momentum, Angular Momentum & Total Energy, work-energy theorem; open systems (with variable mass). Principle of Virtual work, D’Alembert’s principle’ applications.
UNIT-II : Constraints; Definition, Types, cause & effects, Need, Justification for realizing constraints on the system
Schrodinger equation and its applications: Chapter 2Dr.Pankaj Khirade
Wave function and its physical significance, Schrodinger time dependent equation, Separation in time dependent and time independent parts, Operators in quantum Mechanics, Eigen functions and Eigen values, Particle in one dimensional and three dimensional box (Energy eigen values). Qualitative analysis of potential barrier Tunneling effect). Simple Harmonic Oscillator (Qualitative analysis of Zero point energy)
The presentation opens up by introducing Schrodinger's time dependent and independent wave equation. Then it covers the derivation of time independent wave equation, followed by its applications.
origin of quantum physics -
Inadequacy of classical mechanics and birth of QUANTUM PHYSICS
ref: Quantum mechanics: concepts and applications, N. Zettili
CHAPTER 6 Quantum Mechanics II
6.0 Partial differentials
6.1 The Schrödinger Wave Equation
6.2 Expectation Values
6.3 Infinite Square-Well Potential
6.4 Finite Square-Well Potential
6.5 Three-Dimensional Infinite-Potential Well
6.6 Simple Harmonic Oscillator
6.7 Barriers and Tunneling in some books an extra chapter due to its technical importance
The presentation opens up by introducing Schrodinger's time dependent and independent wave equation. Then it covers the derivation of time independent wave equation, followed by its applications.
origin of quantum physics -
Inadequacy of classical mechanics and birth of QUANTUM PHYSICS
ref: Quantum mechanics: concepts and applications, N. Zettili
CHAPTER 6 Quantum Mechanics II
6.0 Partial differentials
6.1 The Schrödinger Wave Equation
6.2 Expectation Values
6.3 Infinite Square-Well Potential
6.4 Finite Square-Well Potential
6.5 Three-Dimensional Infinite-Potential Well
6.6 Simple Harmonic Oscillator
6.7 Barriers and Tunneling in some books an extra chapter due to its technical importance
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A Strategic Approach: GenAI in EducationPeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
Welcome to TechSoup New Member Orientation and Q&A (May 2024).pdfTechSoup
In this webinar you will learn how your organization can access TechSoup's wide variety of product discount and donation programs. From hardware to software, we'll give you a tour of the tools available to help your nonprofit with productivity, collaboration, financial management, donor tracking, security, and more.
Macroeconomics- Movie Location
This will be used as part of your Personal Professional Portfolio once graded.
Objective:
Prepare a presentation or a paper using research, basic comparative analysis, data organization and application of economic information. You will make an informed assessment of an economic climate outside of the United States to accomplish an entertainment industry objective.
Embracing GenAI - A Strategic ImperativePeter Windle
Artificial Intelligence (AI) technologies such as Generative AI, Image Generators and Large Language Models have had a dramatic impact on teaching, learning and assessment over the past 18 months. The most immediate threat AI posed was to Academic Integrity with Higher Education Institutes (HEIs) focusing their efforts on combating the use of GenAI in assessment. Guidelines were developed for staff and students, policies put in place too. Innovative educators have forged paths in the use of Generative AI for teaching, learning and assessments leading to pockets of transformation springing up across HEIs, often with little or no top-down guidance, support or direction.
This Gasta posits a strategic approach to integrating AI into HEIs to prepare staff, students and the curriculum for an evolving world and workplace. We will highlight the advantages of working with these technologies beyond the realm of teaching, learning and assessment by considering prompt engineering skills, industry impact, curriculum changes, and the need for staff upskilling. In contrast, not engaging strategically with Generative AI poses risks, including falling behind peers, missed opportunities and failing to ensure our graduates remain employable. The rapid evolution of AI technologies necessitates a proactive and strategic approach if we are to remain relevant.
Francesca Gottschalk - How can education support child empowerment.pptxEduSkills OECD
Francesca Gottschalk from the OECD’s Centre for Educational Research and Innovation presents at the Ask an Expert Webinar: How can education support child empowerment?
Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
4. Mechanics: The branch of Physics concerned with motion and forces producing motion.
Mechanics: (i) Classical mechanics (Newtonian mechanics)
(ii) Quantum Mechanics
Classical mechanics is concerned with;
The set of Physical Laws describing the motion of bodies under the influence of a system of forces.
The study of the motion of bodies is an earliest one, making classical mechanics one of the oldest and largest subjects in
all branches of science.
Often Newtonian mechanics is considered, along with Lagrangian mechanics and Hamiltonian mechanics, as the three
main formalisms of classical mechanics.
Classical mechanics describes the motion of Macroscopic objects,
from Projectile to parts of machinery, and
astronomical objects, such as planets, stars and galaxies.
Within classical mechanics are sub-fields, including those that describe the behavior of solids, liquids and gases.
Classical mechanics provides extremely accurate results when studying large objects and speeds not approaching the
speed of light.
5. The term classical mechanics was coined in the early 20th century.
It describes the system of physics started by Newton and many other 17th century philosophers.
It is also built upon the earlier astronomical theories of J. Kepler, and
the studies of terrestrial projectile motion of Galileo. Since these aspects of physics were developed
long before the emergence of Quantum Mechanics and relativity.
• Relativistic mechanics, represents classical mechanics in its most developed and accurate form.
The earliest development of classical mechanics is often referred to as Newtonian mechanics. It
consists of the physical concepts employed by and the mathematical methods invented by Newton,
and others.
Later, more methods were developed, leading to the reformulations of classical mechanics known
as Lagrangian mechanics and Hamiltonian mechanics. These advances, made mostly in the 18th and
19th centuries, extend significantly beyond Newton's work.
6. Using just a few equations, scientists can describe;
the motion of a ball flying through the air and
the pull of a magnet, etc
The mathematical study of the motion of everyday objects and the forces that affect
them is called classical mechanics.
Classical mechanics is often called Newtonian mechanics because nearly the entire study
builds on the work of Newton.
Some mathematical laws and principles at the core of classical
mechanics include the following;
Newtons Laws of Motion:
Newton’s Law of Universal Gravitation:
Law of Conservation of Energy:
Law of Conservation of Momentum:
7.
8. FALL/WINTER - 2019
TEXT: Goldstein, “Classical Mechanics”, 3rd. Ed., Addison Wesley
Office Hour:
Problem Session:
Check LMS for up-to-date Class activities such as; schedule, information,
lectures, assignments etc
Email: hasnain.tariq@kfueit.edu.pk
Phone number: Not available Recommended Books:
1. John R Taylor “Classical Mechanics”, University Science
Books; null edition
2. Tai L. Chow “Classical Mechanics”, CRC Press; 2nd edition
3. Goldstein, “Classical Mechanics”, 3rd. Ed., Addison Wesley,
2008
4. Stephen T. Thornton , Jerry B. Mario, “Classical Dynamics
of Particles and Systems”, Cengage Learning; 5 edition
(July 7, 2003)
5. Fowles & Cassiday “Analytical Mechanics” 7th Edition,
Thomson
6. T W. B. Kibble, F H. Berkshir, “Classical Mechanics” World
Scientific Publishing Company; 5th edition 2004
WEDNESDAY – 5:00 to 8:00 pm
9. SYLLABUS
Advanced Classical Mechanics
1. Survey of the elementary principles,
2. Variational principles and Lagranges’s equations,
6. Oscillations,
7. The classical mechanics of the special theory of relativity,
8. The Hamiltonian equations of motion,
9. Canonical transformations,
10. Hamilton-Jacobi theory and Action angle variable,
11. Classical Chaos ,
12. Canonical perturbation theory,
13. Introduction to the Lagrangian and Hamiltonian formulations for continuous systems and fields,
Classical mechanics of liquids and deformable solids; stress, deformation and strain
flow.
Recommended Books:
1. Classical Mechanics by Landua & Lifshitz, (Butterworth-Heinemann, 3rd edition,1976).
2. Classical Mechanics by John R Taylor, (University Science Books
3. Classical Mechanics by Goldstein, (AddisonWesley, 3rd edition, 2008).
4. Classical Dynamics of Particles and Systems by Stephen T. Thornton and Jerry B. Mario, (Cengage
Learning, 5th edition, 2003).
10. COURSE REQUIREMENTS:
• THINK about the physics we discuss, of course you have to be awake.
• Read the textbook before class.
• Lecture presentations/topics will be posted online (LMS) before class in pdf format.
• During class, concentrate on understanding; copying the lecture notes is secondary.
• I anticipate your involvement and feedback throughout the lecture, in the form of
Q/A’s, discussions, demonstrations, etc.
• At the end of each class, I encourage you to write a short note, describing what
you’ve learned, what you don’t understand, and comment on my pace and teaching
style, suggestions, etc.
• Summarize the lecture for yourself too.
!Attending the lectures is required.
Classroom Participation means responding to questions posed in the class by any class
mate.
11. GRADING POLICY:
Exams & Evaluation
• Sessional marks (Quizzes, Assignments, presentations,
class participation, ….): 20%
• Mid term exam/marks: 30% (3rd week - Dec 2019*)
• End semester exam/marks: 50% (last week - Feb 2020*)
Quizzes – Occasional (after lecture, surprise, announced . . . )
Assignments – Occasional - weightage (Deadline)
Homework- No weightage (practice work)
* Subject to change by Exam department
12. HOMEWORK AND EXAMS:
• Homework will be assigned but not collected.
• You are expected to have completed the homework by the quiz/exam date prior to class.
• There will be several 15-min, closed book and notes quizzes at the end of lecture on the
dates specified or surprise.
• The quiz will consist of a few slightly modified homework problems (numbers changed, etc).
• The homework problems are a very important part of the course and those assigned are
considered the simple minimum necessary to understand the course material.
• There will be one mid-term exam and a final exam,
• The problems in midterms & final will be similar to those in your homework, but may be
asked differently.
• Do not expect “plug & play” type of questions.
• You need to really understand the course materials to solve the problems.