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Physics for Scientists and Engineers
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Table of Contents

Section One: Mechanics
Chapter 1: Introduction to Physics
Chapter 2: Scalars and Vectors
Chapter 3: Kinematics, Motion in 1 Dimension
Chapter 4: Kinematics, Motion in 2 and 3 Dimensions
Chapter 5: Forces
Chapter 6: Work and Energy
Chapter 7: Linear Momentum, Collisions and Systems of Particles
Chapter 8: Rotational Motion and Angular Momentum
Chapter 9: Rolling Motion
Chapter 10: Statics
Chapter 11: Gravitation
Chapter 12: Fluids
Section Two: Waves and Oscillations
Chapter 13: Simple Harmonic Motion
Chapter 14: Travelling Waves
Chapter 15: Standing Waves
Section Three: Thermodynamics
Chapter 16: Temperature and Zeroth Law of Thermodynamics
Chapter 17: Heat and First Law of Thermodynamics
Chapter 18: The Second Law of Thermodynamics and Entropy
Section Four: Electricity, Magnetism, and Optics
Chapter 19: Electric Charges and Forces
Chapter 20: Electric Fields and Potentials
Chapter 21: Capacitors and Capacitance
Chapter 22: Moving charges – Electric current
Chapter 23: Magnetism and Magnetic Field
Chapter 24: Electromagnetic Induction
Chapter 25: AC Circuits
Chapter 26: Electromagnetic Waves
Chapter 27: Geometrical Optics
Chapter 28: Physical Optics

Section Five: Modern Physics
Chapter 29: Relativity
Chapter 30: Fundamental Discoveries of Modern Physics
Chapter 31: Introduction to Quantum Mechanics
Chapter 32: Introduction to Condensed Matter Physics
Chapter 33: Introduction to Nuclear Physics
Chapter 34: Introduction to Particle Physics

About the Author

Peter Williams is Dean of the Faculty of Pure and Applied Science and Professor of Physics at Acadia University and won the 2006 CAP Medal for Excellence in Teaching. Peter has developed and taught a great diversity of courses, has shown innovation in the classroom and has published a number of articles in teaching journals. Peter has a clear desire to provide his students with an exceptional learning experience and there is strong evidence, from the received testimonials, that his teaching has had a significant impact on the lives and career choices of his students. Peter devotes significant efforts to improving secondary and post-secondary physics education in Atlantic Canada. Peter is one of those rare individuals who can effectively combine the best of technology enhanced educational techniques while maintaining a strong personal approach to teaching. He has played a critical role in the development of studio physics modes of instruction at Acadia University, has developed several innovative courses, including most recently a Physics of Music course at Acadia. Furthermore, he has provided regional, national and international leadership in new modes of physics teaching through his writing and presentations, and set an exemplary model for applying research methodology to evaluation of the effectiveness of different modes of physics instruction. As a Lecturer in the Department of Physics and Astronomy since 2007, Firas Mansour's exceptional teaching style has gained respect and praise from his students. Firas currently teaches first year Physics classes to Engineers, Life Science and Physical Science students and has taught upper year elective Physics courses in the past. He is highly regarded for his quality of teaching, his enthusiasm in teaching, and his understanding of students' needs Firas' dedication to teaching is exemplary, as is his interest in outreach activities in bringing scientific knowledge beyond the university boundary. Firas is a 2012 Distinguished Teaching Award Recipient at the University of Waterloo. Javed Iqbal is the Director of Science Co-op Program and an Adjunct Professor of Physics at the University of British Columbia, Vancouver, Canada. At UBC he has taught first year physics for 20 years and has been instrumental in promoting the use of 'clickers' at UBC and other Canadian universities. In 2004, he was awarded the Faculty of Science Excellence in Teaching Award. In 2012, he was awarded The Killam Teaching Prize. His research areas include theoretical nuclear physics, computational modelling of light scattering from nanostructures and computational physics. Dr. Marina Milner-Bolotin is a science educator within the Department of Curriculum and Pedagogy at UBC. She specializes in science (physics) teaching and studies ways of using technology to promote student interest in science. For the last 20 years she has been teaching science and mathematics in Israel, US (Texas and New Jersey) and Canada. She has taught physics and mathematics to a wide range of students: from elementary gifted students to university undergraduates in science programs and future teachers. She also has led a number of professional development activities for science in-service and pre-service teachers and university faculty: from LoggerPro training workshops, to clicker and tablet training, and to physics content presentations at conferences and PD days. Since 1994, she has been engaged in science education research. Dr. Milner earned her M.Sc. in theoretical physics at Kharkov National University, Ukraine in 1991 and completed her M.A. and Ph.D. in science education at the University of Texas at Austin in 2001. At UT Austin she investigated how project-based instruction in science courses for future elementary teachers affected their interest in science and their ability to do and teach science. Before joining UBC she was an Assistant Professor of Physics at Ryerson University in Toronto. She is actively recruiting graduate students. Dr. Milner-Bolotin is a member of the Executive Board of the American Association of Physics Teachers (AAPT) and a President and a representative for BC Section of AAPT. Robert Hawkes is a Professor of Physics at Mount Allison University. As well as extensive experience in teaching introductory physics he has taught upper level courses in mechanics, relativity, electricity and magnetism, electronics and astrophysics, as well as education courses in science methods and technology in education. His research program is in solar system astrophysics using advanced electro-optical devices to study atmospheric meteor ablation, as well as complementary lab based techniques such as laser ablation. He has won a number of teaching awards including a 3M STLHE National Teaching Fellow, the Canadian Association of Physicists Medal for Excellence in Undergraduate Teaching and the Science Atlantic University Teaching Award. He has been an early adopter of a number of interactive teaching techniques, in particular collaborative learning in both introductory and advanced courses. He was the co-editor of the Physics in Canada special issue on physics education.

Reviews

Section One: Mechanics Chapter 1: Introduction to Physics Chapter 2: Scalars and Vectors Chapter 3: Kinematics, Motion in 1 Dimension Chapter 4: Kinematics, Motion in 2 and 3 Dimensions Chapter 5: Forces Chapter 6: Work and Energy Chapter 7: Linear Momentum, Collisions and Systems of Particles Chapter 8: Rotational Motion and Angular Momentum Chapter 9: Rolling Motion Chapter 10: Statics Chapter 11: Gravitation Chapter 12: Fluids Section Two: Waves and Oscillations Chapter 13: Simple Harmonic Motion Chapter 14: Travelling Waves Chapter 15: Standing Waves Section Three: Thermodynamics Chapter 16: Temperature and Zeroth Law of Thermodynamics Chapter 17: Heat and First Law of Thermodynamics Chapter 18: The Second Law of Thermodynamics and Entropy Section Four: Electricity, Magnetism, and Optics Chapter 19: Electric Charges and Forces Chapter 20: Electric Fields and Potentials Chapter 21: Capacitors and Capacitance Chapter 22: Moving charges - Electric current Chapter 23: Magnetism and Magnetic Field Chapter 24: Electromagnetic Induction Chapter 25: AC Circuits Chapter 26: Electromagnetic Waves Chapter 27: Geometrical Optics Chapter 28: Physical Optics Section Five: Modern Physics Chapter 29: Relativity Chapter 30: Fundamental Discoveries of Modern Physics Chapter 31: Introduction to Quantum Mechanics Chapter 32: Introduction to Condensed Matter Physics Chapter 33: Introduction to Nuclear Physics Chapter 34: Introduction to Particle Physics

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