Activities for Static Vector Fields paradigm

• Partial Derivative Machine

• Acting out the Gradient

• Ampère's Law

• Magnetic Vector Potential Due to a Spinning Charged Ring

• Curvilinear Basis Vectors

• Magnetic Field Continuity Across a Boundary

• Magnetic Field Due to a Spinning Ring of Charge

• Acting Out Charge Densities

• Conductors

• Visualizing Curl

• Acting Out Current Density

• Surface and Volume Elements in Cylindrical and Spherical Coordinates

• Visualizing Divergence

• Drawing Electric Field Vectors

• Drawing Equipotential Surfaces

• Vector Differential

• Scalar Distance, Area, and Volume Elements

• Electric Field Continuity Across a Boundary

• Electrostatic Energy of Discrete Charges

• Electric Field Due to a Ring of Charge

• Calculation of Flux

• The Concept of Flux

• Visualizing Electric Flux

• Gauss's Law

• Visualizing Gradient

• Visualizing Gradient with Surfaces

• Navigating a Hill

• Relaxation Technique for Solving Laplace's Equation

• Getting Started with Maple

• Finding Potentials from Fields - The Murder Mystery Method

• Internal Energy of the "Partial Derivative Machine"

• Approximating Functions with Power Series

• Calculating Coefficients for a Power Series

• Pineapples and Pumpkins

• The Distance Between Two Points - Star Trek

• Charged Sphere

• Equipotential Surfaces

• Isoheight on Surfaces

• Number of Paths

• Work and Electric Field

• Theta Functions

• Total Charge

• Concept Map: VEUF

• Visualizing Electrostatic Potentials

• Potential Due to a Pair of Charges - Part 2

• Potential Due to a Pair of Charges - Part 1

• Electrostatic Potential Due to a Ring