The document lists the course requirements for an engineering degree with a focus on renewable energy, including introductory and advanced courses in chemistry, physics, mathematics, engineering fundamentals, renewable energy topics like fuel cells and power systems, a technical elective, and humanities/social science electives. Core engineering courses cover circuit theory, thermodynamics, heat transfer, dynamics, and a senior capstone project, with renewable energy courses addressing specific systems like wind and solar energy.
The document lists the course requirements for an engineering degree with a focus on renewable energy, including introductory and advanced courses in chemistry, physics, mathematics, engineering fundamentals, renewable energy topics like fuel cells and power systems, a technical elective, and humanities/social science electives. Core engineering courses cover circuit theory, thermodynamics, heat transfer, dynamics, and a senior capstone project, with renewable energy courses addressing specific systems like wind and solar energy.
The document lists the course requirements for an engineering degree with a focus on renewable energy, including introductory and advanced courses in chemistry, physics, mathematics, engineering fundamentals, renewable energy topics like fuel cells and power systems, a technical elective, and humanities/social science electives. Core engineering courses cover circuit theory, thermodynamics, heat transfer, dynamics, and a senior capstone project, with renewable energy courses addressing specific systems like wind and solar energy.
The document lists the course requirements for an engineering degree with a focus on renewable energy, including introductory and advanced courses in chemistry, physics, mathematics, engineering fundamentals, renewable energy topics like fuel cells and power systems, a technical elective, and humanities/social science electives. Core engineering courses cover circuit theory, thermodynamics, heat transfer, dynamics, and a senior capstone project, with renewable energy courses addressing specific systems like wind and solar energy.
Download as DOCX, PDF, TXT or read online from Scribd
Download as docx, pdf, or txt
You are on page 1of 1
CHEM 105 General Chemistry I
CHEM 106 General Chemistry II
ENGR 101 Introduction to Engineering ENGR 102 Computer Aided Design ENGR 104 Computer Aided Engineering ENGR 110 Technical Communication ENGR 117 Engineering Foundations II ENGR 220 Circuit Theory I ENGR 305 Engineering Statistics ENGR 306 Engineering Economics ENGR 395 Engineering Design ENGR 490 Senior Capstone Project MATH 151 Calculus I MATH 152 Calculus II MATH 253 Calculus III MATH 271 Differential Equations MECH 212 Dynamics MECH 320 Thermodynamics I MECH 324 Fluid Mechanics I MECH 326 Heat Transfer MECH 354 Mechatronics MECH 422 Control Systems MECH 435 Industrial Controls PHYS 125 Physics I PHYS 126 Physics II RNEW 201 Intro to Renewable Energy RNEW 255 Power Systems and Economics RNEW 303 Software Engineering RNEW 310 Fuel Cell Principles and Techniques RNEW 320 Circuit Theory II RNEW 322 Signals and Systems RNEW 431 Wind Energy Systems RNEW 432 Solar Energy Systems RNEW 468 Electric Machinery Technical Elective Humanities, Social Science and Arts electives