The attached guidelines provide course equivalencies for the following degree programs.

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Curriculum Articulation between the Engineering Science Program at and the School of Engineering Programs (Frist & SecondYear) at Rutgers, The State University of New Jersey This curriculum articulation between (MCCC) and Rutgers, The State University of New Jersey connects students in MCCC s Associate Degree Program in Engineering Science to various undergraduate programs in the School of Engineering at Rutgers. The successful implementation of the articulation depends upon communication of its contents to all involved participants, and assumptions of responsibility by both institutions for such communication. Periodic reviews and updates are essential. MCCC s A.S. degree program in Engineering Science prepares students to transfer to a baccalaureate degree in Engineering. Students develop a strong foundation in mathematics, physics, and chemistry, with emphasis on engineering applications and use of the computer as a problemsolving tool. A strong general education curriculum helps students develop communication and analytical skills. The B.Sc. degrees in Engineering at Rutgers prepare graduates to enter the modern day engineering profession. Students are trained to apply a broad knowledge of mathematics, science, analysis, and design to solving engineering problems. They are provided with opportunities to experience realworld engineering design and research challenges. The students are prepared for both postgraduate studies and careers in the industrial, government, or academia settings. The attached guidelines provide course equivalencies for the following degree programs. 1. Applied Sciences in Engineering 2. Bioenvironmental Engineering 3. Biomedical Engineering. Chemical Engineering 5. Civil Engineering. Electrical and Computer Engineering 7. Industrial Engineering 8. Materials Science and Engineering 9. Mechanical Engineering 1

Table A.1: Course Equivalency for Applied Sciences in Engineering CHE 101 General Chemistry I MAT 151 Calculus I 0:151 Calculus I PHY 115 University Physics I 750:12 CHE 102 General Chemistry II 10:10 3 CIV 103 Statics 3 0:221 Engineering Mechanics: Statics 3 MAT 152 Calculus II 0:152 Calculus II PHY 215 University Physics II MAT 251 Calculus III 0:251 Multivariable Calculus PHY 225 University Physics III 750:228 750:230 Analytical Physics IIB Analytical Physics IIB Lab MAT 252 Differential Equations 0:2 Differential Equations COS 101 Introduction to Computer Science 0:127 Introduction to Computers for Engineers 3 2

Table A.2: Course Equivalency for Bioenvironmental Engineering CHE 101 General Chemistry I MAT 151 Calculus I 0:151 Calculus I PHY 115 University Physics I 750:12 CHE 102 General Chemistry II 10:10 3 CIV 103 Statics 3 0:221 Engineering Mechanics: Statics 3 MAT 152 Calculus II 0:152 Calculus II PHY 215 University Physics II CIV 230 Mechanics of Solids 180:23 Mechanics of Solids 3 ENT 11 Engineering Graphics 2 180:215 Engineering Graphics 1 MAT 251 Calculus III 0:251 Multivariable Calculus PHY 225 University Physics III T1:Tec Technical Elective 3 MAT 252 Differential Equations 0:2 Differential Equations COS 101 Introduction to Computer Science 0:127 Introduction to Computers for Engineers 3 BIO 101 General Biology I 119:101 General Biology 0:222 Engineering Mechanics: Dynamics 3 375:203 Physics Prin. Envir. Sci. 3 332:373 Elem of Elec Engineering 3 3

Table A.3: Course Equivalency for Biomedical Engineering CHE 101 General Chemistry I MAT 151 Calculus I 0:151 Calculus I PHY 115 University Physics I 750:12 CHE 102 General Chemistry II 10:10 3 CIV 103 Statics 3 0:221 Engineering Mechanics: Statics 3 MAT 152 Calculus II 0:152 Calculus II PHY 215 University Physics II MAT 251 Calculus III 0:251 Multivariable Calculus PHY 225 University Physics III 750:228 750:230 Analytical Physics IIB Analytical Physics IIB Lab MAT 252 Differential Equations 0:2 Differential Equations COS 101 Introduction to Computer Science 0:127 Introduction to Computers for Engineers 3 BIO 101 BIO 102 General Biology I General Biology II (To obtain transfer credits, both Bio I & II have to be completed at MCCC) 119:101 119:102 General Biology I General Biology II (To obtain transfer credits, both Bio I & II have to be completed at MCCC) 125:201 Intro to Biomedical Engineering 3 125:208 Intro to Biomechanics 3

Table A.: Course Equivalency for Chemical Engineering CHE 101 General Chemistry I MAT 151 Calculus I 0:151 Calculus I PHY 115 University Physics I 750:12 CHE 102 General Chemistry II 10:10 3 CIV 103 Statics 3 0:221 Engineering Mechanics: Statics 3 MAT 152 Calculus II 0:152 Calculus II PHY 215 University Physics II MAT 251 Calculus III 0:251 Multivariable Calculus PHY 225 University Physics III T1:TEC Technical Elective 3 MAT 252 Differential Equations 0:2 Differential Equations COS 101 Introduction to Computer Science CHE 201 CHE 202 Organic Chemistry I Organic Chemistry II (To obtain transfer credits, both Org. Chem. I & II have to be completed at MCCC) 5 5 10:307 10:308 Organic Chemistry I Organic Chemistry II (To obtain transfer credits, both Org. Chem. I & II have to be completed at MCCC) 0:127 Introduction to Computers for Engineers 3 155:201 Analysis I 3 155:208 Thermodynamics I 3 5

Table A.5: Course Equivalency for Civil and Environmental Engineering CHE 101 General Chemistry I MAT 151 Calculus I 0:151 Calculus I PHY 115 University Physics I CHE 101 General Chemistry I 750:12 CIV 103 Statics 3 0:221 Engineering Mechanics: Statics 3 MAT 152 Calculus II 0:152 Calculus II PHY 215 University Physics II CIV 230 Mechanics of Solids 180:23 Mechanics of Solids 3 MAT 251 Calculus III 0:251 Multivariable Calculus PHY 225 University Physics III T1:TEC Technical Elective 3 MAT 252 Differential Equations 0:2 Differential Equations DRA 190 Introduction to C.A.D 2 COS 101 Introduction to Computer Sciences 0:222 Engineering Mechanics: Dynamics 3 0:127 Introduction to Computers for Engineers 3 180:21 Intro to CADD 3

Table A.: Course Equivalency for Electrical and Computer Engineering CHE 101 General Chemistry I MAT 151 Calculus I 0:151 Calculus I PHY 115 University Physics I 750:12 CHE 102 General Chemistry II 10:10 Science, Math, Engineering Elective 3 CIV 103 Statics 3 0:221 Engineering Mechanics: Statics 3 MAT 152 Calculus II 0:152 Calculus II PHY 215 University Physics II MAT 251 Calculus III 0:251 Multivariable Calculus PHY 225 University Physics III T1:TEC Technical Elective 3 COS 101 Introduction to Computer Science 0:127 Introduction to Computers for Engineers 3 332:221 332:223 332:231 332:233 332:222 332:22 Principles of E.E. I Principles of E.E. II Lab Digital Logic Design Digital Logic Design Lab Principles of E.E. II Principles of E.E. II Lab 332:22 Probability & Random Processing 3 332:252 332:25 Programming Methodology Program. Method I Lab MAT 252 Differential Equations 0:2 Differential Equations 7

Table A.7: Course Equivalency for Industrial Engineering CHE 101 General Chemistry I MAT 151 Calculus I 0:151 Calculus I PHY 115 University Physics I 750:12 CHE 102 General Chemistry II 10:10 3 CIV 103 Statics 3 0:221 Engineering Mechanics: Statics 3 MAT 152 Calculus II 0:152 Calculus II PHY 215 University Physics II ENT 11 Engineering Graphics 2 MAT 251 Calculus III 0:251 Multivariable Calculus PHY 225 University Physics III 750:228 750:230 Analytic Physics IIB Analytic Physics IIB Lab COS 101 Introduction to Computer Science MAT 252 Differential Equations 0:2 Differential Equations 0:127 Introduction to Computers for Engineers 3 CIV 230 Mechanics of Solids 180:23 Mechanics of Solids 3 50:201 Work Des and Ergo 3 50:202 Work Des Lab 1 50:213 IE Lab 1 0:222 Engineering Mechanic Dynamics 3 50:210 Engineering Probability 3 8

Table A.8: Course Equivalency for Materials Science and Engineering CHE 101 General Chemistry I MAT 151 Calculus I 0:151 Calculus I PHY 115 University Physics I 750:12 CHE 102 General Chemistry II 10:10 3 CIV 103 Statics 3 0:221 Engineering Mechanics: Statics 3 MAT 152 Calculus II 0:152 Calculus II PHY 215 University Physics II CIV 230 Mechanics of Solids 35:31 Strength of Materials 3 MAT 251 Calculus III 0:251 Multivariable Calculus PHY 225 University Physics III T1:TEC Technical Elective 3 MAT 252 Differential Equations 0:2 Differential Equations COS 101 Introduction to Computer Science 0:127 Introduction to Computers for Engineers 3 90:211 Statistics 3 35:203 Intro to MSE 3 35:205 Crystal Chem and Structure 3 35:20 Materials Processing 3 35:20 Mat. Thermodynamics 35:212 Physics of Materials 3 35:252 Laboratory I 2 9

Table A.9: Course Equivalency for Mechanical Engineering CHE 101 General Chemistry I MAT 151 Calculus I 0:151 Calculus I PHY 115 University Physics I 750:12 CHE 102 General Chemistry II 10:10 3 CIV 103 Statics 3 0:221 Engineering Mechanics: Statics 3 MAT 152 Calculus II 0:152 Calculus II PHY 215 University Physics II CIV 230 Mechanics of Solids 50:291 Intro. to Mechanics of Materials 3 DRA 190 Introduction to C.A.D 2 50:215 Computer Aided Drafting 1 MAT 251 Calculus III 0:251 Multivariable Calculus PHY 225 University Physics III 750:228 750:230 Analytical Physics IIB Analytical Physics IIB Lab MAT 252 Differential Equations 0:2 Differential Equations COS 101 Introduction to Computer Science 0:127 Introduction to Computers for Engineers 3 0:222 Engineering Mechanics (Dynamics) 3 50:231 Computational Analysis & Design 3 332:373 Elem. of Electrical Engineering 3 332:375 Elem. Electrical Engineering Lab 1 10

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