Geometry of Vector Fields

After students have spent time working with both the algebra and geometry of scalar fields, they move on to vector fields in the context of electric fields. Vector fields can be considered more complicated than scalar fields because at each point there is a vector with both a magnitude and direction while scalar fields have one value at each point. Not only does this increase the difficulty in representing the field, but there are also additional properties of vector fields–divergence and curl. Building off the previous activities on the electrostatic potential, a scalar field, students begin to wrestle with the more complicated geometry of vector fields.

These activities can be used independently of the others in order to address a particular property of vector fields, or they can be used as a sequence to address important aspects of vector fields in physics. Curvilinear Basis Vectors, Visualizing Gradient, Visualizing Divergence, and Visualizing Curl describe vector fields in general and do not specifically address vector fields in a physical context. Visualizing Divergence and Visualizing Curl can be paired together to address the geometric meanings of divergence and curl using similar methods with Mathematica.

Activities

FIXME Add quantum activities, add a verbal description of this sequence including problems visualizing scalar field in 3 dimensions–use of color.