The Mechanical Undergraduate Program Term 3 1 2013 Stevens Institute of Technology
ME Major Term 3 This presentation covers the courses in the standard Mechanical major Term 3 Study Plan Individual students course registration in Term 3 may vary due to AP or transfer credit, reduced load, ROTC, Scholar s Program, etc. More information on ME courses can be found on the ME website, www.stevens.edu/ses/me 2 2013 Stevens Institute of Technology
ME Major Term 3 Science Core Design Spine Core 3 2013 Stevens Institute of Technology
Term 3 Course Selection Advice Priority should be given to the Technical Courses in Term 3 If you are behind schedule (which is not uncommon), delay the course to a later term 4 2013 Stevens Institute of Technology
Prerequisite: MA 124 Covers ordinary differential equations of first and second order, homogeneous and nonhomogeneous equations; improper integrals, Laplace transforms; review of infinite series, series solutions of ordinary differential equations near an ordinary point; boundary value problems; orthogonal functions; Fourier series; separation of variables for partial differential equations. Science core 5 2013 Stevens Institute of Technology
Electricity and Prerequisites: MA 122, PEP 111 Covers Coulomb s law, concepts of electric field and potential, Gauss law, capacitance, current and resistance, DC and R C transient circuits, magnetic fields, Ampere s law, Faraday s law of induction, inductance, A/C circuits, electromagnetic oscillations, Maxwell s equations and electromagnetic waves Science core 6 2013 Stevens Institute of Technology
Prerequisite: E 122 Co requisite: Continues the experiential sequence in design. Design projects are linked with topics taught concurrently. Core design themes are further developed. Design spine 7 2013 Stevens Institute of Technology
Prerequisites: PEP 111, MA 122 Covers fundamental concepts of particle statics, equivalent force systems, equilibrium of rigid bodies, analysis of trusses and frames, forces in beam and machine parts, stress and strain, tension, shear and bending moment, flexure, combined loading, energy methods, statically indeterminate structures. core 8 2013 Stevens Institute of Technology
Circuits and Co requisites:, Covers ideal circuit elements; Kirchoff laws and nodal analysis; source transformations; Thevenin/ Norton theorems; operational amplifiers; response of RL, RC and RLC circuits; sinusoidal sources and steady state analysis; analysis in frequenct domain; average and RMS power; linear and ideal transformers; linear models for transistors and diodes; analysis in the s domain; Laplace transforms; transfer functions. core 9 2013 Stevens Institute of Technology
After completing CAL 103 and CAL 105, ME students must take 4 additional courses: At least 1 100/200 level course At least 1 300/400 level course in 2 different humanities disciplines humanities 10 2013 Stevens Institute of Technology
PE A total of 4 semesters of non repeating PE courses are required for graduation 11 2013 Stevens Institute of Technology
Further Information For further information: ME department website at www.stevens.edu/ses/me Stevens catalog online at www.stevens.edu/catalog/2012 2013/ ME Student Support Center website resources at www.stevens.edu/ses/me/meac OR email the ME Student Support Center at meac@stevens.edu 12 2013 Stevens Institute of Technology