Institutional Learning Outcomes: Teamwork Students will utilize vector calculus to calculate static electric and magnetic fields, both in vacuum and in materials. Dynamic electric and magnetic fields will be examined by students, culminating in a derivation of Maxwell's equations. Students will explore the electromagnetic nature of light by solving Maxwell's equations for electric and magnetic fields in source-free regions. Content is delivered with an emphasis on the foundations and application of productive teamwork. Prerequisite: PHYS 1100 and PHYS 1200; or PHYS 1103 and PHYS 1105 and PHYS 1203 and PHYS 1205; or MATH 1150 and MATH 1250 (with permission of the instructor) and MATH 1130 and MATH 1230; or MATH 1140 and MATH 1240; or MATH 1150 and MATH 1250; and MATH 2110 or MATH 2111 Note: Students can only get credit for one of PHYS 2250, EPHY 2250
Institutional Learning Outcomes: Teamwork Students will utilize vector calculus to calculate static electric and magnetic fields, both in vacuum and in materials. Dynamic electric and magnetic fields will be examined by students, culminating in a derivation of Maxwell's equations. Students will explore the electromagnetic nature of light by solving Maxwell's equations for electric and magnetic fields in source-free regions. Content is delivered with an emphasis on the foundations and application of productive teamwork. Prerequisite: PHYS 1100 and PHYS 1200; or PHYS 1103 and PHYS 1105 and PHYS 1203 and PHYS 1205; or MATH 1150 and MATH 1250 (with permission of the instructor) and MATH 1130 and MATH 1230; or MATH 1140 and MATH 1240; or MATH 1150 and MATH 1250; and MATH 2110 or MATH 2111 Note: Students can only get credit for one of PHYS 2250, EPHY 2250
