Keywords: thermodynamics
Loading...
Displaying 1-20 of 117 results.
1-D and 2-D Kinematics, Projectile Motion I Fall 2007
| Rating: | |
| Type: | Course Related Materials |
Abstract: 1-D and 2-D Kinematics, Projectile Motion I. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
1-D and 2-D Kinematics, Projectile Motion II Fall 2007
| Rating: | |
| Type: | Course Related Materials |
Abstract: 1-D and 2-D Kinematics, Projectile Motion II. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
2-D Kinematics, Forces and Newton's Laws I Fall 2007
| Rating: | |
| Type: | Course Related Materials |
Abstract: 2-D Kinematics, Forces and Newton's Laws I. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
2-D Kinematics, Forces and Newton's Laws II Fall 2007
| Rating: | |
| Type: | Course Related Materials |
Abstract: 2-D Kinematics, Forces and Newton's Laws II. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
2-D Kinematics, Forces and Newton's Laws III Fall 2007
| Rating: | |
| Type: | Course Related Materials |
Abstract: 2-D Kinematics, Forces and Newton's Laws III. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
A Radically Modern Approach to Introductory Physics Volume 1
| Rating: | |
| Type: | Course Related Materials |
Abstract: This is the first part (chapters 1-12) of a pdf textbook for a one-year introductory physics course. The text was developed out of an alternate beginning physics course at New Mexico Tech designed for students with a strong interest in physics. A broad outline of the text is as follows: Waves in One ... More »
A Radically Modern Approach to Introductory Physics Volume 2
| Rating: | |
| Type: | Course Related Materials |
Abstract: This is the second part (chapters 13-24) of a pdf textbook for a one-year introductory physics course. The text was developed out of an alternate beginning physics course at New Mexico Tech designed for students with a strong interest in physics. A broad outline of the text is as follows: Newton's Law ... More »
AP Physics
| Rating: | |
| Type: | Course Related Materials |
Abstract: Relevant material from MIT's introductory courses to support students as they study and educators as they teach the AP Physics curriculum.
Atomistic Computer Modeling of Materials (SMA 5107), Spring 2005
| Rating: | |
| Type: | Course Related Materials |
Abstract: This course uses the theory and application of atomistic computer simulations to model, understand, and predict the properties of real materials. Specific topics include: energy models from classical potentials to first-principles approaches; density functional theory and the total-energy pseudopotential ... More »
Balloons & Buoyancy
| Rating: | |
| Type: | Course Related Materials |
Abstract: Experiment with a helium balloon, a hot air balloon, or a rigid sphere filled with different gases. Discover what makes some balloons float and others sink.
Blackbody Spectrum
| Rating: | |
| Type: | Course Related Materials |
Abstract: How does the blackbody spectrum of the sun compare to visible light? Learn about the blackbody spectrum of the sun, a light bulb, an oven, and the earth. Adjust the temperature to see the wavelength and intensity of the spectrum change. View the color of the peak of the spectral curve.
Building Technology Laboratory, Spring 2004
| Rating: | |
| Type: | Course Related Materials |
Abstract: Concepts of building technology and experimental methods. Projects vary yearly and have included design and test of strategies for daylighting, passive heating and cooling, and improved indoor air quality. Experimental methods focus on measurement and analysis of thermally driven and wind-driven airflows, ... More »
Chemical Engineering Thermodynamics, Fall 2003
| Rating: | |
| Type: | Course Related Materials |
Abstract: This course aims to connect the principles, concepts, and laws/postulates of classical and statistical thermodynamics to applications that require quantitative knowledge of thermodynamic properties from a macroscopic to a molecular level. It covers their basic postulates of classical thermodynamics and ... More »
Computational Quantum Mechanics of Molecular and Extended Systems, Fall 2004
| Rating: | |
| Type: | Course Related Materials |
Abstract: The theoretical frameworks of Hartree-Fock theory and density functional theory are presented as approximate methods to solve the many-electron problem. A variety of ways to incorporate electron correlation are discussed. The application of these techniques to calculate the reactivity and spectroscopic ... More »
Conservation Laws
| Rating: | |
| Type: | Course Related Materials |
Abstract: Some of the topics addressed in this book are: Conservation of energy; the transfer of mechanical energy; conservation of momentum; conservation of angular momentum; thermodynamics.
Conservation Laws I Fall 2007
| Rating: | |
| Type: | Course Related Materials |
Abstract: Conservation Laws I. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper division study in biology ... More »
Conservation Laws II Fall 2007
| Rating: | |
| Type: | Course Related Materials |
Abstract: Conservation Laws II. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper division study in biology ... More »
Conservation Laws III Fall 2007
| Rating: | |
| Type: | Course Related Materials |
Abstract: Conservation Laws III. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper division study in biology ... More »
Dynamics: Forces, Motion and Newton's Laws I Fall 2007
| Rating: | |
| Type: | Course Related Materials |
Abstract: Dynamics: Forces, Motion and Newton's Laws I. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
Dynamics: Forces, Motion and Newton's Laws II Fall 2007
| Rating: | |
| Type: | Course Related Materials |
Abstract: Dynamics: Forces, Motion and Newton's Laws II. From Physics 8A: Introductory Physics - Fall 2007. Introduction to forces, kinetics, equilibria, fluids, waves, and heat. This course presents concepts and methodologies for understanding physical phenomena, and is particularly useful preparation for upper ... More »
