enie: bse: accommodation for math 2560...4 math 1920 - calculus ii or math 1960 - calculus with...

1

ENIE: BSE: Accommodation for MATH 2560

Summary Description of Changes

The following change is a result of Math adding the MATH 2560 course to their

curriculum. This course is the Calculus III course with Analytical Geometry. This

course is suitable for the BSE students to take in place of MATH 2550 and should be

included in their curriculum plan as an option.

Economic and Pedagogical Consequences

There are no economic consequences from this proposal. No changes in course structure

or delivery is necessary. However, the MATH 2560 course is 4 hours and can be taken in

place of the MATH 2550 course which is 3 hours. This may add 1 credit hour to the

student’s curriculum. Including MATH 2560 as an option for the students provides them

a clearer path for completing their program requirements.

Affect on Other Programs

None

Course Syllabi

No changes are made that require changes to the Syllabi.

Catalog Changes:

Summary Description of Changes

All catalog changes are associated with adding the Math 2560 as a course option for the

students (Students can take MATH 2550 or 2560). The BSE options affected are

BSE: Computer Engineering

BSE: Environmental Engineering

BSE: Industrial Engineering

BSE: Nuclear Engineering

BSE: STEM Education

Catalog Changes - Original Program Description

Engineering: Environmental, B.S.E.

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Associate Professor Joseph Owino, Head

The Engineering Program (ENGR) focuses on providing depth in engineering

applications that tend to cross disciplines.

Program Mission:

The mission of UTC’s ENGR program is to provide accessible education in the theory

and application of engineering in a supportive, interdisciplinary environment that

Prepares students for successful careers in industry, government, and academia

Emphasizes project-based design

Promotes life-long learning

Serves the engineering profession

Program Objectives:

In support of this mission, UTC’s ENGR program produces graduates who, upon entering

the work force or advanced studies:

Function as successful professionals in a variety of engineering disciplines

Function effectively in multidisciplinary environments

Adapt to various environments

Participate in further knowledge building opportunities

Are progressing toward Professional Registration

The Engineering program faculty includes those with degrees in this program area as well

as faculty from other programs who teach the engineering fundamental courses.

Degree and Accreditation:

Graduates of this program receive the B.S.E. degree. This program is accredited by the

EAC of ABET Inc. under the Engineering Program Criteria.

Environmental (ENEV): The environmental engineering program deals with the design

of processes to reduce the impact of man’s activities on the environment. The curriculum

focuses on the reduction of pollution in air, water and solid waste from sources such as

industry and utilities.

Curriculum:

Students must complete the following curriculum to obtain the B.S.E. degree.

General Education

(see Certified General Education Courses for list of approved courses)

http://catalog.utc.edu/preview_program.php?catoid=12&poid=1712

3

Rhetoric and Writing: (6 hours)

Two approved courses in rhetoric and writing

Fine Arts and Humanities: (6 hours)

Complete one approved course from two different subcategories

Historical Understanding (3 hours)

Literature (3 hours)

Thought, Values and Beliefs (3 hours)

Visual and Performing Arts (3 hours)

Natural Sciences: (7-8 hours)

Two approved natural science courses, at least one including a laboratory

component

Behavioral and Social Sciences: (6 hours)

Two approved behavioral or social science courses

(ECON 1010 and ECON 1020 recommended)

Mathematics: (4 hours)

MATH 1950 - Calculus with Analytic Geometry I *

Statistics: (3 hours)

ENGR 2220 - Probability and Statistics for Engineering *

Non-Western Culture: (3 hours)

One approved non-western Culture course

Program Requirements

CHEM 1110 - General Chemistry I and

CHEM 1110L - General Chemistry I Laboratory

MATH 1950 - Calculus with Analytic Geometry I #

http://catalog.utc.edu/preview_program.php?catoid=12&poid=1685&returnto=329#tt5726


http://catalog.utc.edu/preview_program.php?catoid=12&poid=1685&returnto=329





4

MATH 1920 - Calculus II or

MATH 1960 - Calculus with Analytic Geometry II

MATH 2200 - Elementary Linear Algebra

MATH 2450 - Introduction to Differential and Difference Equations

MATH 2550 - Multivariable Calculus

PHYS 2310 - Principles of Physics - Electricity and Magnetism and

PHYS 2310L - Principles of Physics Laboratory - Electricity and Magnetism

Engineering Fundamentals:

ENGR 1011 - Introduction to Two- and Three-Dimensional Modeling

ENGR 1030 - Basic Engineering Science

ENGR 1030L - Freshman Engineering Laboratory

ENGR 1040 - Vector Statics

ENGR 1850 - Introduction to Engineering Design

ENGR 2220 - Probability and Statistics for Engineering #

ENGR 2460 - Mechanics of Materials

ENGR 2460L - Mechanics of Materials Laboratory

ENGR 3850 - Interdisciplinary Design Project I

ENGR 4850 - Interdisciplinary Design Project II

Note: For qualified students, ENEV 4995r or ENGR 4995r, Departmental Thesis (4

hours), may substitute for ENGR 4850 (3 hours).

Program and Related Courses

BIOL 2100 - Microbiology and Health

CHEM 1120 - General Chemistry II and

CHEM 1120L - General Chemistry II Laboratory

ESC 4010 - Microbial Ecology or

ESC 4430 - Bioremediation

ESC 4100 - Environmental Law and Agencies or

ESC 4810 - Politics and the Environment or

ESC 4820 - Technology and the Environment or

ESC 4830 - Economics and the Environment

GEOL 4450 - Hydrology




























5


ENGR 2240 - Introduction to Engineering Computations or

ENEE 2250 - Engineering Programming

ENGR 3030 - Thermodynamics

ENGR 3070 - Fluid Mechanics

ENGR 3280 - Control Systems

ENGR 3280L - Control Systems Laboratory

ENGR 3400 - Engineering Materials Science

ENGR 3520 - Engineering Economy

Environmental Engineering:

ENEV 3310 - Environmental Process Principles or

ENCH 3310 - Chemical Process Principles

ENEV 4300 - Environmental System Design

ENEV 4330 - Environmental Process Operations or

ENCH 4330 - Chemical Process Operations

ENEV 4350 - Environmental Processes Laboratory

ENEV 4370 - Municipal and Industrial Waste Management

ENEV 4380 - Water Supply and Waste Water Treatment or

ENCE 4380 - Wastewater and Water Treatment

Technical Electives (select one track)

Chemical Track

CHEM 3010 - Organic Chemistry I

CHEM 3010L - Organic Chemistry I Laboratory

ENEE 2700 - Electrical Circuits I or

ESC 4680 - Introduction to Soil Resources

Civil Track

ENCE 3610 - Soil Mechanics

ENCE 3610L - Soil Mechanics Laboratory


























6

Additional Information and Notes

128 hours (138 for co-op graduates).

Minimum 39 hours at the 3000-4000 level.

2.0 GPA in all required major and related courses (including specified General Education

courses).

See Degree and Graduation Requirements for additional requirements.

*Also satisfies requirement in the major.

#Also satisfies a general education requirement.

ClearPath Showcase

ClearPath Showcases provide students with an opportunity to see program requirements defined

in a semester-by-semester format. The ClearPath Showcases also provide students with

important tips, pointers, and suggestions for staying on track with progress toward the degree.

Students should also meet regularly with their academic advisor.

Click on the link below for a printable ClearPath Showcase for your academic program:

Engineering: Environmental, B.S.E. (Chemical Track)

Engineering: Environmental, B.S.E. (Civil Track)


Revised Program Description - (Revisions in Red and Bold)


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The Engineering Program (ENGR) focuses on providing depth in engineering applications that


http://www.utc.edu/records/pdfs/clearpath2014/engr-environmental-chemical-track2014.pdf

http://www.utc.edu/records/pdfs/clearpath2014/engrenvironmental-civil-track2014.pdf




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7

tend to cross disciplines.

Program Mission:

The mission of UTC’s ENGR program is to provide accessible education in the theory and

application of engineering in a supportive, interdisciplinary environment that





Program Objectives:

In support of this mission, UTC’s ENGR program produces graduates who, upon entering the

work force or advanced studies:






The Engineering program faculty includes those with degrees in this program area as well as

faculty from other programs who teach the engineering fundamental courses.


Graduates of this program receive the B.S.E. degree. This program is accredited by the EAC of

ABET Inc. under the Engineering Program Criteria.

Environmental (ENEV): The environmental engineering program deals with the design of

processes to reduce the impact of man’s activities on the environment. The curriculum focuses

on the reduction of pollution in air, water and solid waste from sources such as industry and

utilities.

Curriculum:


General Education




8









Two approved natural science courses, at least one including a laboratory component

























9



MATH 2550 - Multivariable Calculus or Math 2560 –Calculus with Analytic

Geometry III














Note: For qualified students, ENEV 4995r or ENGR 4995r, Departmental Thesis (4

hours), may substitute for ENGR 4850 (3 hours).








































10



















Chemical Track





Civil Track





























11



courses).




ClearPath Showcase

ClearPath Showcases provide students with an opportunity to see program requirements defined

in a semester-by-semester format. The ClearPath Showcases also provide students with

important tips, pointers, and suggestions for staying on track with progress toward the degree.

Students should also meet regularly with their academic advisor.





Catalog Changes - Original Program Description

Engineering: Industrial, B.S.E.

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Program Mission:






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12







Program Objectives:













Industrial (ENIE): The industrial engineering program embodies the realm of industrial

engineering applications. The application of software tools and current industry practices

are emphasized. The students’ experiences culminate in a one-semester industrial

engineering team project supported by industry.

Curriculum:


General Education








13






component


Two approved behavior or social science courses







One approved non-western culture course









































14

ENEE 2700 - Electrical Circuits I



Note: For qualified students, ENIE 4995r or ENGR 4995r, Departmental Thesis

(4 hours), may substitute for ENGR 4850 (3 hours).




ENEE 2700L - Electrical Circuits I Laboratory

ENGR 2480 - Dynamics

ENGR 3050 - Thermo-Fluids




ENGR 3700 - Energy Conversion and Electronics

Chemical Engineering:


Industrial Engineering:

ENIE 3500 - Introduction to Project Management

ENIE 3510 - Operations Research I

ENIE 3540 - Work Measurement and Design

ENIE 3580 - Manufacturing Processes

ENIE 4410 - Production and Operations Management

ENIE 4430 - Simulation and Modeling

ENIE 4500 - Industrial Engineering Design

ENIE 4570 - Quality Control and System Reliability

ENIE 4580 - Facilities Planning

ENIE 4610 - Engineering Information Systems

Technical Elective:

One 3-hour 3000-level or 4000-level course in an engineering discipline or

An advisor-approved 3000-level or 4000-level course from another program

























15



courses).




ClearPath Showcase

ClearPath Showcases provide students with an opportunity to see program requirements

defined in a semester-by-semester format. The ClearPath Showcases also provide

students with important tips, pointers, and suggestions for staying on track with progress

toward the degree. Students should also meet regularly with their academic advisor.




Revised Program Description - (Revisions in Red and Bold)


Print-Friendly Page

Add to Portfolio





Program Mission:





http://www.utc.edu/records/pdfs/clearpath2014/engineering-industrial2014.pdf







16




Program Objectives:













Industrial (ENIE): The industrial engineering program embodies the realm of industrial

engineering applications. The application of software tools and current industry practices

are emphasized. The students’ experiences culminate in a one-semester industrial

engineering team project supported by industry.

Curriculum:


General Education










17




component


Two approved behavior or social science courses
















Geometry III







































18

Note: For qualified students, ENIE 4995r or ENGR 4995r, Departmental Thesis












Chemical Engineering:


Industrial Engineering:

ENIE 3500 - Introduction to Project Management

ENIE 3510 - Operations Research I

ENIE 3540 - Work Measurement and Design

ENIE 3580 - Manufacturing Processes

ENIE 4410 - Production and Operations Management

ENIE 4430 - Simulation and Modeling

ENIE 4500 - Industrial Engineering Design

ENIE 4570 - Quality Control and System Reliability

ENIE 4580 - Facilities Planning

ENIE 4610 - Engineering Information Systems

Technical Elective:

One 3-hour 3000-level or 4000-level course in an engineering discipline or

An advisor-approved 3000-level or 4000-level course from another program





courses).




















19




ClearPath Showcase









http://www.utc.edu/records/pdfs/clearpath2014/engineering-industrial2014.pdf


20

Engineering: Computer, B.S.E.

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Program Mission:







Program Objectives:













Computer (CPEN): The computer engineering program embodies the realm of computer

engineering applications. A thorough understanding of computer organization and


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21

architecture and the interaction between hardware and software is emphasized. The

students’ experiences culminate in a two-semester computer engineering team project.

The computer engineering program is supported by the faculty in the Computer Science

and Engineering Department.

General Education









CPSC 3610 - Ethical and Social Issues in Computing *


Natural Sciences: (8 hours)

CHEM 1110 - General Chemistry I * and

CHEM 1110L - General Chemistry I Laboratory *

PHYS 2310 - Principles of Physics - Electricity and Magnetism * and

PHYS 2310L - Principles of Physics Laboratory - Electricity and Magnetism *





http://www.utc.edu/Academic/ComputerScienceAndEngineering/









22






CHEM 1110 - General Chemistry I # and

CHEM 1110L - General Chemistry I Laboratory #



MATH 2030 - Discrete Mathematics for Computer Science




PHYS 2310 - Principles of Physics - Electricity and Magnetism # and

PHYS 2310L - Principles of Physics Laboratory - Electricity and Magnetism #

Computer Science core courses:

CPSC 1100 - Fundamentals of Computer Science

CPSC 1110 - Data Structures and Program Design

CPSC 2100 - Software Design and Development

CPSC 2800 - Introduction to Operating Systems

CPSC 3200 - Algorithm Analysis and Advanced Data Structures

CPSC 3610 - Ethical and Social Issues in Computing #

CPSC 4550 - Computer Networks

Computer Engineering core courses:

CPEN 3700 - Digital Logic and Introduction to Computer Hardware

CPEN 4700 - Computer Architecture

Technical Electives:

CPEN 4710 - Advanced Computer Systems or

CPEN 4720 - Embedded Microcontroller Systems

ENEE 4700 - Microprocessors Applications or

CPEN 3710 - Computer System Organization and Assembly Language

























23

Programming

6 hours of ENEE, CPSC and/or CPEN courses at the 3000- or 4000-level

Engineering core courses:









Note: for qualified students, CPEN 4995r or ENGR 4995r, Departmental Thesis


Electrical Engineering core courses:

ENEE 2700 - Electrical Circuits I and


ENEE 2720 - Electrical Circuits II and

ENEE 2720L - Electrical Circuits II Laboratory

ENEE 3250 - Signals and Systems

ENEE 3720 - Analog Electronics and

ENEE 3720L - Analog Electronics Laboratory

ENEE 3790 - Modern Control Systems Analysis and Design


All majors must attain a minimum grade of C in all engineering, electrical engineering,

computer science, and computer engineering core courses as a condition for graduation.


courses).

Minimum of 39 hours of 3000 and 4000 level courses.

128 total hours required.


















24



#Also satisfies a general education requirements.

ClearPath Showcase








Other Catalog Changes - Revised Program Description

(Changes indicated in Red and BOLD)


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Program Mission:





http://www.utc.edu/records/pdfs/clearpath2014/engineering-computer2014.pdf







25




Program Objectives:













Computer (CPEN): The computer engineering program embodies the realm of computer

engineering applications. A thorough understanding of computer organization and

architecture and the interaction between hardware and software is emphasized. The

students’ experiences culminate in a two-semester computer engineering team project.

The computer engineering program is supported by the faculty in the Computer Science

and Engineering Department.

General Education










26



CPSC 3610 - Ethical and Social Issues in Computing *



CHEM 1110 - General Chemistry I * and

CHEM 1110L - General Chemistry I Laboratory *

PHYS 2310 - Principles of Physics - Electricity and Magnetism * and

PHYS 2310L - Principles of Physics Laboratory - Electricity and Magnetism *










CHEM 1110 - General Chemistry I # and

CHEM 1110L - General Chemistry I Laboratory #



MATH 2030 - Discrete Mathematics for Computer Science



















27

Geometry III

PHYS 2310 - Principles of Physics - Electricity and Magnetism # and

PHYS 2310L - Principles of Physics Laboratory - Electricity and Magnetism #

Computer Science core courses:

CPSC 1100 - Fundamentals of Computer Science

CPSC 1110 - Data Structures and Program Design

CPSC 2100 - Software Design and Development

CPSC 2800 - Introduction to Operating Systems

CPSC 3200 - Algorithm Analysis and Advanced Data Structures

CPSC 3610 - Ethical and Social Issues in Computing #

CPSC 4550 - Computer Networks

Computer Engineering core courses:

CPEN 3700 - Digital Logic and Introduction to Computer Hardware

CPEN 4700 - Computer Architecture

Technical Electives:

CPEN 4710 - Advanced Computer Systems or

CPEN 4720 - Embedded Microcontroller Systems

ENEE 4700 - Microprocessors Applications or

CPEN 3710 - Computer System Organization and Assembly Language

Programming

6 hours of ENEE, CPSC and/or CPEN courses at the 3000- or 4000-level

Engineering core courses:









Note: for qualified students, CPEN 4995r or ENGR 4995r, Departmental Thesis

























28


Electrical Engineering core courses:

ENEE 2700 - Electrical Circuits I and


ENEE 2720 - Electrical Circuits II and

ENEE 2720L - Electrical Circuits II Laboratory

ENEE 3250 - Signals and Systems

ENEE 3720 - Analog Electronics and

ENEE 3720L - Analog Electronics Laboratory

ENEE 3790 - Modern Control Systems Analysis and Design


All majors must attain a minimum grade of C in all engineering, electrical engineering,

computer science, and computer engineering core courses as a condition for graduation.


courses).

Minimum of 39 hours of 3000 and 4000 level courses.

128 total hours required.



#Also satisfies a general education requirements.

ClearPath Showcase
















http://www.utc.edu/records/pdfs/clearpath2014/engineering-computer2014.pdf

29

Other Catalog Changes - Original Program Description


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Program Mission:







Program Objectives:


















30





Curriculum:


General Education












component











31


























Note: For qualified students, ENEV 4995r or ENGR 4995r, Departmental Thesis




























32





























Chemical Track






























33



Civil Track








courses).




ClearPath Showcase


















34


(Changes indicated in Bold and Red)


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Program Mission:







Program Objectives:

















35






Curriculum:


General Education












component










36



























Note: For qualified students, ENEV 4995r or ENGR 4995r, Departmental Thesis


























37






























Chemical Track



























38





Civil Track








courses).




ClearPath Showcase





















39

Engineering: Nuclear, B.S.E.

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Program Mission:







Program Objectives:








The Engineering program faculty includes those with degrees in this program as well as





Nuclear (ENNE): The nuclear engineering program embodies the realm of nuclear

engineering especially as it is applied to the power industry. Students are provided a

systems perspective and analysis of nuclear power engineering including instrumentation,


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40

reactor operating principles, simulation and modeling tool use, materials analysis, and

risk and safety assessment.

Curriculum:


General Education





One one approved course from two different subcategories







component


Two approved behavioral or social sciences courses









41








MATH 1920 - Calculus II




















Note: For qualified students, ENNE 4995r or ENGR 4995r, Departmental Thesis



























42



ENGR 3070L - Fluid Mechanics Laboratory






Mechanical Engineering:

ENME 3040 - Mechanical Engineering Thermodynamics

ENME 3090 - Heat and Mass Transfer

ENME 3470 - Mechanical Engineering Experimentation

ENME 4410 - Energy Conversion

ENME 4430 - Thermal Component Design

Nuclear Engineering:

ENNE 4010 - Introduction to Nuclear Power Engineering

ENNE 4110 - Nuclear Instrumentation, Radiation Protection and Health Physics

ENNE 4210 - Advanced Simulation and Modeling

ENNE 4310 - Advanced Materials Analysis and Application

ENNE 4410 - Risk Assessment, Standards, Regulations and Safety

Technical Elective:

One 3-hour 3000-4000 level course in an engineering discipline

or An advisor approved 3000-4000 level course from another program


Minimum 128 earned hours required for graduation (138 for co-op graduates).



courses).






















43


ClearPath Showcase









(Changes indicated in Red and BOLD).


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Program Mission:







http://www.utc.edu/records/pdfs/clearpath2014/engineering-nuclear2014-2.pdf







44

Program Objectives:








The Engineering program faculty includes those with degrees in this program as well as





Nuclear (ENNE): The nuclear engineering program embodies the realm of nuclear

engineering especially as it is applied to the power industry. Students are provided a

systems perspective and analysis of nuclear power engineering including instrumentation,

reactor operating principles, simulation and modeling tool use, materials analysis, and

risk and safety assessment.

Curriculum:


General Education





One one approved course from two different subcategories




45





component














MATH 1920 - Calculus II




Geometry III














46
















Note: For qualified students, ENNE 4995r or ENGR 4995r, Departmental Thesis






ENGR 3070L - Fluid Mechanics Laboratory






Mechanical Engineering:

ENME 3040 - Mechanical Engineering Thermodynamics

ENME 3090 - Heat and Mass Transfer

ENME 3470 - Mechanical Engineering Experimentation

ENME 4410 - Energy Conversion

ENME 4430 - Thermal Component Design




























47

Nuclear Engineering:

ENNE 4010 - Introduction to Nuclear Power Engineering

ENNE 4110 - Nuclear Instrumentation, Radiation Protection and Health Physics

ENNE 4210 - Advanced Simulation and Modeling

ENNE 4310 - Advanced Materials Analysis and Application

ENNE 4410 - Risk Assessment, Standards, Regulations and Safety

Technical Elective:

One 3-hour 3000-4000 level course in an engineering discipline

or An advisor approved 3000-4000 level course from another program


Minimum 128 earned hours required for graduation (138 for co-op graduates).



courses).




ClearPath Showcase














http://www.utc.edu/records/pdfs/clearpath2014/engineering-nuclear2014-2.pdf


48


Engineering: STEM Education, B.S.E.

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Program Mission:







Program Objectives:













The STEM Education program in Engineering provides students the opportunity to (1)

obtain a B.S.E degree that emphasizes the general focus of engineering across disciplines

or within a discipline and (2) obtain eligibility for teacher licensure (for teaching

Mathematics or Physics) in Tennessee and in those states that grant reciprocity privileges

to graduates of institutions accredited by the Council for the Accreditation of Educator


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49

Preparation (CAEP). The students’ education culminates in engineering design and

student teaching design (curriculum creation and classroom teaching) experiences.

STEM Engineering students are advised by the faculty in the Engineering program. The

specific STEM curriculum courses and activities are housed in and supported by the

STEM Education Program at UTC.

General Education









STEM 3010 - Perspectives on Science and Mathematics *




component






http://catalog.utc.edu/preview_entity.php?catoid=12&ent_oid=417






50






CHEM 1110 - General Chemistry I







PHYS 2310 - Principles of Physics - Electricity and Magnetism














Note: For qualified students, ENGR 4995r, Departmental Thesis (4 hours) may

substitute for ENGR 4850 (3 hours).




























51



ENGR 3030 - Thermodynamics or






Engineering Requirements:

Pick 13 hours of engineering courses from a single engineering discipline or a

multiple of engineering disciplines. No more than 4 hours can be at the 2000

level.

STEM Requirements:

STEM 1010 - Step One: Inquiry Approaches to Teaching Science and

Mathematics and

STEM 1020 - Step Two: Inquiry-Based Lesson Design in Math and Science

or

STEM 1030 - Step One/Step Two: Inquiry-Based Mathematics and Science

Teaching

STEM 2010 - Knowing and Learning

STEM 2020 - Classroom Interactions

STEM 3010 - Perspectives on Science and Mathematics #

STEM 3020 - Research Methods in Science

STEM 4010 - Project-Based Instruction

STEM 4020 - Apprentice Teaching

MATH 2300 - Mathematical Models, Functions and Applications

Additional Information and Notes:

Minimum 128 earned hours required for graduation.


For admission to the Teacher Education Program (TEP): Earn a minimum 2.75

cumulative grade point average, a 2.75 average on all courses taken at UTC, a 2.75 GPA

in education courses with no grade lower than C, and a 2.75 in content area courses with

no grade lower than C.

In addition to the department and university requirements there are the following





















52

minimum requirements for graduation with licensure: 2.75 cumulative average, 2.75 at

UTC, 2.75 average in STEM courses with no grade lower than C, 2.75 average in courses

in licensure content area courses with no grade lower than C.




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Program Mission:








http://www.utc.edu/records/pdfs/clearpath2014/engineering-stem-educ2014.pdf







53

Program Objectives:













The STEM Education program in Engineering provides students the opportunity to (1)

obtain a B.S.E degree that emphasizes the general focus of engineering across disciplines

or within a discipline and (2) obtain eligibility for teacher licensure (for teaching

Mathematics or Physics) in Tennessee and in those states that grant reciprocity privileges

to graduates of institutions accredited by the Council for the Accreditation of Educator

Preparation (CAEP). The students’ education culminates in engineering design and

student teaching design (curriculum creation and classroom teaching) experiences.

STEM Engineering students are advised by the faculty in the Engineering program. The

specific STEM curriculum courses and activities are housed in and supported by the

STEM Education Program at UTC.

General Education







http://catalog.utc.edu/preview_entity.php?catoid=12&ent_oid=417


54



STEM 3010 - Perspectives on Science and Mathematics *




component











CHEM 1110 - General Chemistry I







Geometry III













55

PHYS 2310 - Principles of Physics - Electricity and Magnetism














Note: For qualified students, ENGR 4995r, Departmental Thesis (4 hours) may

substitute for ENGR 4850 (3 hours).







ENGR 3030 - Thermodynamics or






Engineering Requirements:

Pick 13 hours of engineering courses from a single engineering discipline or a

multiple of engineering disciplines. No more than 4 hours can be at the 2000
























56

level.

STEM Requirements:

STEM 1010 - Step One: Inquiry Approaches to Teaching Science and

Mathematics and

STEM 1020 - Step Two: Inquiry-Based Lesson Design in Math and Science

or

STEM 1030 - Step One/Step Two: Inquiry-Based Mathematics and Science

Teaching

STEM 2010 - Knowing and Learning

STEM 2020 - Classroom Interactions

STEM 3010 - Perspectives on Science and Mathematics #

STEM 3020 - Research Methods in Science

STEM 4010 - Project-Based Instruction

STEM 4020 - Apprentice Teaching

MATH 2300 - Mathematical Models, Functions and Applications

Additional Information and Notes:

Minimum 128 earned hours required for graduation.


For admission to the Teacher Education Program (TEP): Earn a minimum 2.75

cumulative grade point average, a 2.75 average on all courses taken at UTC, a 2.75 GPA

in education courses with no grade lower than C, and a 2.75 in content area courses with

no grade lower than C.

In addition to the department and university requirements there are the following

minimum requirements for graduation with licensure: 2.75 cumulative average, 2.75 at

UTC, 2.75 average in STEM courses with no grade lower than C, 2.75 average in courses

in licensure content area courses with no grade lower than C.




ClearPath Showcase
















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http://www.utc.edu/records/pdfs/clearpath2014/engineering-stem-educ2014.pdf

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Other Catalog Changes - Clear Path Showcase

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Other Catalog Changes - Clear Path Showcase – Proposed Changes

(Changes in Red and Bold)

or MATH 2560

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or MATH 2560

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or MATH 2560

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or MATH 2560

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or MATH 2560

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or MATH 2560

enie: bse: accommodation for math 2560...4 math 1920 - calculus ii or math 1960 - calculus with...

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