assignments
due Fri Jan 20
Reading Jan 20
- Review the first part of chapter 12 (Book I)
- Read Chapter 12 (Book I): The vector description of Rotational motion
due Mon Jan 23
Reading Jan 23
- Finish to read Chapter 12
- Conceptual Questions: 12, 13
due Wed Jan 25
Assignment 1 - Jan 25
- Read Chapter 13 (Book I): 13.1, 13.2, 13.3
- Student Learning Objectives
- To extend the particle model to the rigid-body model.
- To understand the equilibrium of an extended object.
- To understand rotation about a fixed axis.
- To understand rolling motion.
- To introduce the vector description of rotational motion and angular momentum.
Chapter 12: 78, 71, 83, 87, 88
due Mon Jan 30
Reading Jan 30
- Read Chapter 13 (Book I): Finish the chapter
- Conceptual Questions:3, 5, 7, 8, 10
due Wed Feb 1
Assignment 2 - Feb 1
- Book volume 1 - Chapter 14: sections 14.1, 14.2, 14.3
- To study the dynamics and energy associated with a distance-dependent force.
- To understand the basic observations of satellite and planetary motion.
- To practice force and energy ideas that will be essential for understanding electricity.
Chapter 13: 34, 42, 44, 50, 54 (if you have done it for Monday), 66
due Fri Feb 3
Reading Feb 3
- Book volume 1 - Chapter 14: to the end of the Chapter
- Conceptual Questions: 1-3-7-4-5-8-9
due Mon Feb 6
Reading Feb 6
due Wed Feb 8
Assignment Feb 8
- To understand the physics and mathematics of oscillations.
- To draw and interpret oscillatory graphs.
- To learn the concepts of phase and phase constant.
- To understand and use energy conservation in oscillatory systems.
- To understand the basic ideas of damping and resonance.
Problems: 14.30, 14.35, 14.40, 14.49, 14.77, 14.80
due Fri Feb 10
Reading Feb 10
- Reading Chapter 15: 15.1, 15.2, 15.3
- Conceptual Questions: 2, 4, 5
due Mon Feb 13
Reading Feb 13
- Reading Chapter 15: 15.4, 15.5
- Conceptual Questions: 6, 7, 9, 10
due Wed Feb 15
Reading Feb 15
due Fri Feb 17
Assignment Feb 17
- Reading, Volume 2, Chapter 16.
Student Learning Objectives Chapter 15
- To understand pressure in liquids and gases.
- To practice using a variety of pressure units.
- To use Archimedes’ principle to understand buoyancy.
- To use an ideal-fluid model to study fluid flow.
Please, come to my office or talk with the physics tutor if you feel that you need clarification about any of the topics listed in the learning objectives.
- Chapter 15, Problems: 33, 40, 50, 53, 60, 63
due Mon Feb 20
In class work - Feb 20
I will be in Atlanta for a conference. Forest will be there to help you. Here is the work you will have to do:
- Work as a group: summarize the main points of section 16.4, 16.5, 16.6. Please, take notes, we will discuss them on Wednesday.
- Solve as many as you can of the following problems: 5, 6, 8, 13, 14, 18, 26, 29, 50, 57. Discuss your solution at the end of each problem. If your solutions are different you should discuss how, and understand if they are both valid.
due Wed Feb 22
In class work - Feb 22
- We will discuss the work don on today and chapter 16
due Fri Feb 24
Assignment Feb 24
Chapter 17 reading: 17.1, 17.2, 17.3
Student Learning Objectives chapter 16
- To develop atomic-level models of solids, liquids, and gases.
- To recognize and use the state variables that characterize macroscopic phenomena.
- To understand the idea of phase change and interpret a phase diagram.
- To understand and use the ideal-gas law.
- To understand and practice using pV diagrams for ideal-gas processes.
Please, come to my office or talk with the physics tutor if you feel that you need clarification about any of the topics listed in the learning objectives.
- Chapter 16, Problems: 34, 35, 45, 58, 64, 72
due Mon Feb 27
Reading Feb 27
- Reading Chapter 17: Finish the chapter
- Conceptual Questions: 2, 4, 7, 10, 11, 12
due Wed Mar 1
Reading March 1
due Fri Mar 3
Assignment March 3
Reading: 18.1, 18.2 (These sections are more math intensive, please read carefully and analyses the reasoning of the book step by step)
Student Learning Objectives
- To understand energy conservation as expressed in the first law of thermodynamics.
- To begin the process of understanding the concept of heat.
- To learn how heat is related to temperature change through specific heats and molar specific heats.
- To apply heat transfer ideas to practical situations of calorimetry.
- To understand adiabatic processes.
Chapter 17: 38, 48, 59, 62, 79 (this is a multi steps problem, there is a lot of thinking to do), 82
due Mon Mar 6
Reading March 6
reading: 18.3, 18.4
Conceptual questions:3, 4, 6, 7
due Wed Mar 8
Mid-term
due Wed Mar 8
Reading March 8
Finish chapter 18
Conceptual questions: 8, 9
due Fri Mar 10
Assignment March 10
Student Learning Objectives
- To recognize the connection between temperature, thermal energy, and the average translational kinetic energy of the molecules in the system.
- To understand the molecular basis for pressure and the ideal-gas law.
- To use the micro/macro connection to predict the molar specific heats of gases and solids.
- To understand how heat is transferred via molecular collisions and how thermally interacting systems reach equilibrium.
- To obtain a qualitative understanding of entropy, the second law of thermodynamics, and some of the implications of the second law.
Problems: 18.39, 18.45, 18.46, 18.51, 18.54, 18.60, 18.65
due Mon Mar 27
Reading March 27
- Submit assignment due on 10
- Reading 19: 19.1, 19.2, 19.3
- Conceptual Questions: 1, 2, 3
due Wed Mar 29
Reading March 29
- Reading 19: 19.4, 19.5, 19.6
- Conceptual Questions: 4, 5, 6, 7
due Fri Mar 31
Assignment March 31
Student Learning Objectives
- To understand the thermodynamics of the four basic processes of an ideal gas.
- To understand the physics of simple heat engines and refrigerators.
- To recognize that thermodynamics has practical applications to real devices.
- To learn that there is a limit to the efficiency of a heat engine.
Please, come to my office or talk with the physics tutor if you feel that you need clarification about any of the topics listed in the learning objectives.
Chapter 19: 35, 42, 46, 48, 59
due Mon Apr 3
Reading April 3
- We will spend today review Thermodynamic. Please, come to class with questions you have and topics you want to review.
- Chapter 19: 70, 71, 72
- if we have time we will start the new chapter: Reading from volume 3: 20.1, 20.2
due Wed Apr 5
Reading April 5
- if we have time we will start the new chapter: Reading from volume 3: 20.1, 20.2, 20.3
due Fri Apr 7
Reading April 7
- Finish chapter 20
- Conceptual Questions: 2, 3, 4, 7, 9, 11, 12
due Mon Apr 10
Assignment April 10
Student Learning Objectives
- To use the wave model and understand how it differs from the particle model.
- To visualize wave motion and develop intuition about waves.
- To work with functions of two variables, using both graphical and mathematical representations.
- To become familiar with the properties of sinusoidal waves, such as wavelength, wave number, phase, and frequency.
- To study important characteristics of sound waves and light waves.
- To understand the Doppler effect.
- Problems: 20.40, 20.44, 20.58, 20.59, 20.68, 20.73, 20.78
due Wed Apr 12
Reading April 12
Chapter 21: 21.1, 21.2, 21.3
due Fri Apr 14
Reading April 14
Chapter 21: 21.5, 21.6
Conceptual questions: 1, 3, 4, 5, 7
due Mon Apr 17
Reading April 17
Finish chapter 21
due Wed Apr 19
Assignment April 19
Reading 22.1, 22.2, 22.3, 22.4
Student Learning Objectives CH 21
- To understand and apply the principle of superposition.
- To understand that standing waves are the superposition of two traveling waves.
- To study the basic properties of standing waves.
- To understand how and why interference occurs in one dimension and in two and threedimensions.
- To understand beats as the superposition of two waves of unequal frequency
Problems: 21.39, 21.44, 21.50, 21.55, (21.63, 21.67, we haven't over this in class, try them out, we will start from this topic), 21.75
due Mon Apr 24
Reading April 24
- Finish chapter 22
- conceptual questions: 1, 2, 3, 5, 7
due Wed Apr 26
Reading April 26
Reading: 23.1, 23.2, 23.3, 23.4, 23.5 23,6
Student Learning Objectives CH 22
- To introduce and use the wave model of light.
- To understand how and why interference of light occurs.
- To understand the interference patterns of double slits and diffraction gratings.
- To study the inevitable spreading of waves due to diffraction.
Problems: 22.37, 22.41, 22.45, 22.58, 22.61, 22.67, 22.75
due Fri Apr 28
Reading April 28
- Reading: 23.6, 23.7, 23.8
- Conceptual questions:2, 3, 5, 9, 10, 11, 12
due Mon May 1
Assignment May 1
- Come to class with with questions, problems, and topic of discussion for this class and the next. They can be on any of the topics studied this semester.
due Wed May 3
Assignment May 3
Student Learning Objectives CH 23
- To understand the ray model of light and its domain of applicability.
- To understand reflection and refraction.
- To apply ray tracing from situations ranging from apertures to image formation.
- To understand how, when, and why images are seen.
- To apply these ideas to thin lenses and spherical mirrors.
Chapter 23: 23.39, 23.45, 23.48, 23.53, 23.62, 23.79
due Mon May 8
Second test
I will send an email on Thursday
In class exam
Course Grade
