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Short Activity Sequences
Sequences are 3 or more activities that are used together to explore a particular topic from several different viewpoints to allow students to explore how information and ideas tie together.
E & M Sequences
- Curvilinear Coordinates: Introduces curvilinear coordinate systems including the associated basis vectors and integration measures on curves, surfaces, and volumes.
- Geometry of Scalar Fields: Develops students' geometrical understanding of scalar fields in the context of electrostatic potentials.
- Representations of Two-Dimensional Scalar Fields Use a sequence of activities to develop representations of scalar fields of two-dimensions.
- Geometry of Vector Fields: Develops students' geometrical understanding of vector fields in the context of electric and magnetic fields.
- Superposition of Electrostatic Potentials due to Point Charges Use a sequence of activities to introduce the superposition principle in the context of electrostatic potentials due to point charges.
- Plane Wave Sequence: Use a sequence of activities to help students understand what is planar about plane waves.
- Power Series Sequence: Introduces students to making approximations with power series expansions and help students exploit power series ideas to visualize the electrostatic potential due to a pair of charges. The final activity of this sequence is the first activity in the ring sequence.
- Ring Sequence: Activities with similar geometries help students learn how to solve a hard activity by breaking it into several steps. (A Master's Thesis about the Ring Sequence)
- Geometry of the Gradient: Students use the geometry of the gradient to relate electrostatic potentials and electric fields.
- The Geometry of Flux: Students explore a geometrical understanding of flux.
- Gauss's Law (Integral Form): Students use the integral form of Gauss's law to find electric fields in situations with high symmetry. These activities have a special emphasis on helping students make clean, coherent symmetry arguments using Proof by Contradiction.
- Ampere's Law (Integral Form): Students use the integral form of Ampere's law to find magnetic fields in situations with high symmetry. These activities have a special emphasis on helping students make clean, coherent symmetry arguments and to use Proof by Contradiction.
- The Differential Form of Maxwell's Equations: Students explore the relationship between the integral and differential versions of Maxwell's equations. Included are activities that address the geometric interpretations of flux, divergence, and curl and also derivations of the Divergence theorem, Stokes' theorem, and using these theorems to derive the differential versions of Maxwell's equations from the integral versions.
- Boundary Conditions: Helps students derive the boundary conditions for electromagnetic fields across charged surfaces or surface currents.
Quantum Mechanics Sequences
- Visualizing Complex Numbers: Use a sequence of activities to develop representations of complex numbers and functions in the context of spin-1/2 systems
- Quantum Operators Sequence: Use a sequence of activities to help students understand allegorically what does (and does NOT) go on inside a quantum measuring device.
- QM Ring Sequence: Use a sequence of activities to help students understand what questions can be asked about a particle confined to a ring in different representations.
- Visualizing Ring-Sphere-Atom Sequence: Use a sequence of activities to help students gain skills for working with quantum systems that progressively increase in dimension and complexity.
Vector Calculus Sequences
Thermo And Stat Mech Sequences
- Name the Experiment: Use of sequence of activities to connect thermodynamic derivatives with experiments
- The Partial Derivative Machine: Use a sequence of activities to introduce students to partial derivatives in the context of physics
Overarching Sequences: Under Construction
Some sequences (or stories or themes) occur over several Paradigms and Capstone courses:
Short Sequences: Under Construction
E & M Sequences
- Scalar Integration in Curvilinear Coordinates Use a sequence of activities to introduce students to integration in various coordinates in order to determine the total charge in an area or volume
- Total Charge in Curvilinear Coordinates Use a sequence of activities to introduce students to finding total charge from charge densities in Cartesian, cylindrical, and spherical coordinates
- Integration in One Dimension Use a sequence of activities to introduce students to integration in the context of physics
- Internal Energy of a One Dimensional System Use a sequence of activities to introduce students to experimentally determining the internal energy of a nonlinear, one dimensional system
- Flux Integration Use a sequence of activities to develop student skills to perform integration involving various forms of flux prior to the introduction of Gauss's law
- Representations of Ordinary Derivatives Use a sequence of activities to develop representations of ordinary derivatives
- Direct Integration to Determine Electrostatic Potential Use a sequence of activities to introduce students to using direct integration through finding the electrostatic potential due to a ring of charge