ENS 201 Electromagnetics I |
3 Credits |
Electromagnetics I Review of vectors and
mathematical background. Static and
magnetic fields and electromagnetic
properties of materials. Faraday's Law with
applications to electromechanical systems.
Introduction to Maxwell's equations and
electromagnetic waves.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Electromagnetics I |
3 |
Spring 2022-2023 |
Electromagnetics I |
3 |
Spring 2021-2022 |
Electromagnetics I |
3 |
Spring 2020-2021 |
Electromagnetics I |
3 |
Spring 2019-2020 |
Electromagnetics I |
3 |
Spring 2018-2019 |
Electromagnetics I |
3 |
Spring 2017-2018 |
Electromagnetics I |
3 |
Spring 2016-2017 |
Electromagnetics I |
3 |
Spring 2015-2016 |
Electromagnetics I |
3 |
Spring 2014-2015 |
Electromagnetics I |
3 |
Spring 2013-2014 |
Electromagnetics I |
3 |
Spring 2012-2013 |
Electromagnetics I |
3 |
Spring 2011-2012 |
Electromagnetics I |
3 |
Spring 2010-2011 |
Electromagnetics I |
3 |
Spring 2009-2010 |
Electromagnetics I |
3 |
Spring 2008-2009 |
Electromagnetics I |
3 |
Spring 2007-2008 |
Electromagnetics I |
3 |
Spring 2006-2007 |
Electromagnetics I |
3 |
Spring 2005-2006 |
Electromagnetics I |
3 |
Spring 2004-2005 |
Electromagnetics I |
3 |
Fall 2003-2004 |
Electromagnetics I |
3 |
Spring 2002-2003 |
Electromagnetics I |
3 |
Fall 2001-2002 |
Electromagnetics I |
3 |
Fall 2000-2001 |
Electromagnetics I |
3 |
|
Prerequisite: NS 101 - Undergraduate - Min Grade D |
and MATH 102 - Undergraduate - Min Grade D |
Corequisite: ENS 201R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 201R Electromagnetics I - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Electromagnetics I - Recitation |
0 |
Spring 2022-2023 |
Electromagnetics I - Recitation |
0 |
Spring 2021-2022 |
Electromagnetics I - Recitation |
0 |
Spring 2020-2021 |
Electromagnetics I - Recitation |
0 |
Spring 2019-2020 |
Electromagnetics I - Recitation |
0 |
Spring 2018-2019 |
Electromagnetics I - Recitation |
0 |
Spring 2017-2018 |
Electromagnetics I - Recitation |
0 |
Spring 2016-2017 |
Electromagnetics I - Recitation |
0 |
Spring 2015-2016 |
Electromagnetics I - Recitation |
0 |
Spring 2014-2015 |
Electromagnetics I - Recitation |
0 |
Spring 2013-2014 |
Electromagnetics I - Recitation |
0 |
Spring 2012-2013 |
Electromagnetics I - Recitation |
0 |
Spring 2011-2012 |
Electromagnetics I - Recitation |
0 |
Spring 2010-2011 |
Electromagnetics I - Recitation |
0 |
Spring 2009-2010 |
Electromagnetics I - Recitation |
0 |
Spring 2008-2009 |
Electromagnetics I - Recitation |
0 |
Spring 2007-2008 |
Electromagnetics I - Recitation |
0 |
Spring 2006-2007 |
Electromagnetics I - Recitation |
0 |
Spring 2005-2006 |
Electromagnetics I - Recitation |
0 |
Spring 2004-2005 |
Electromagnetics I - Recitation |
0 |
Fall 2003-2004 |
Electromagnetics I - Recitation |
0 |
Spring 2002-2003 |
Electromagnetics I - Recitation |
0 |
Fall 2001-2002 |
Electromagnetics I - Recitation |
0 |
Fall 2000-2001 |
Electromagnetics I - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 201 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 202 Thermodynamics |
3 Credits |
Fundamental concepts and mathematical tools ;
thermal equilibrium; Zeroth Law and definition of
temperature; equations of state; First and Second
Laws; thermodynamic potentials (enthalpy, Helmholtz,
Gibbs) and the Maxwell relations; first order phase
transitions; critical phenomena; Third Law, negative
temperatures; introduction to statistical mechanics.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Thermodynamics |
3 |
Fall 2022-2023 |
Thermodynamics |
3 |
Fall 2021-2022 |
Thermodynamics |
3 |
Fall 2020-2021 |
Thermodynamics |
3 |
Fall 2019-2020 |
Thermodynamics |
3 |
Fall 2018-2019 |
Thermodynamics |
3 |
Fall 2017-2018 |
Thermodynamics |
3 |
Fall 2016-2017 |
Thermodynamics |
3 |
Fall 2015-2016 |
Thermodynamics |
3 |
Fall 2014-2015 |
Thermodynamics |
3 |
Fall 2013-2014 |
Thermodynamics |
3 |
Fall 2012-2013 |
Thermodynamics |
3 |
Fall 2011-2012 |
Thermodynamics |
3 |
Fall 2010-2011 |
Thermodynamics |
3 |
Fall 2009-2010 |
Thermodynamics |
3 |
Fall 2008-2009 |
Thermodynamics |
3 |
Fall 2007-2008 |
Thermodynamics |
3 |
Fall 2006-2007 |
Thermodynamics |
3 |
Fall 2005-2006 |
Thermodynamics |
3 |
Fall 2004-2005 |
Thermodynamics |
3 |
Fall 2003-2004 |
Thermodynamics |
3 |
Fall 2002-2003 |
Thermodynamics |
3 |
Spring 2001-2002 |
Thermodynamics |
3 |
|
Prerequisite: NS 102 - Undergraduate - Min Grade D |
Corequisite: ENS 202R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 202R Thermodynamics - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Thermodynamics - Recitation |
0 |
Fall 2022-2023 |
Thermodynamics - Recitation |
0 |
Fall 2021-2022 |
Thermodynamics - Recitation |
0 |
Fall 2020-2021 |
Thermodynamics - Recitation |
0 |
Fall 2019-2020 |
Thermodynamics - Recitation |
0 |
Fall 2018-2019 |
Thermodynamics - Recitation |
0 |
Fall 2017-2018 |
Thermodynamics - Recitation |
0 |
Fall 2016-2017 |
Thermodynamics - Recitation |
0 |
Fall 2015-2016 |
Thermodynamics - Recitation |
0 |
Fall 2014-2015 |
Thermodynamics - Recitation |
0 |
Fall 2013-2014 |
Thermodynamics - Recitation |
0 |
Fall 2012-2013 |
Thermodynamics - Recitation |
0 |
Fall 2011-2012 |
Thermodynamics - Recitation |
0 |
Fall 2010-2011 |
Thermodynamics - Recitation |
0 |
Fall 2009-2010 |
Thermodynamics - Recitation |
0 |
Fall 2008-2009 |
Thermodynamics - Recitation |
0 |
Fall 2007-2008 |
Thermodynamics - Recitation |
0 |
Fall 2006-2007 |
Thermodynamics - Recitation |
0 |
Fall 2005-2006 |
Thermodynamics - Recitation |
0 |
Fall 2004-2005 |
Thermodynamics - Recitation |
0 |
Fall 2002-2003 |
Thermodynamics - Recitation |
0 |
Spring 2001-2002 |
Thermodynamics - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 202 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 203 Electronic Circuits I |
3 Credits |
Passive components, basic circuit analysis, first order
circuits, transient and steady state analysis, second order
RLC circuits, resonance, amplifier fundamentals, operational
amplifiers, introduction to diodes and transistors.
Prerequisite for EL 202
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Electronic Circuits I |
3 |
Summer 2022-2023 |
Electronic Circuits I |
3 |
Fall 2022-2023 |
Electronic Circuits I |
3 |
Summer 2021-2022 |
Electronic Circuits I |
3 |
Fall 2021-2022 |
Electronic Circuits I |
3 |
Summer 2020-2021 |
Electronic Circuits I |
3 |
Fall 2020-2021 |
Electronic Circuits I |
3 |
Summer 2019-2020 |
Electronic Circuits I |
3 |
Fall 2019-2020 |
Electronic Circuits I |
3 |
Summer 2018-2019 |
Electronic Circuits I |
3 |
Fall 2018-2019 |
Electronic Circuits I |
3 |
Summer 2017-2018 |
Electronic Circuits I |
3 |
Fall 2017-2018 |
Electronic Circuits I |
3 |
Summer 2016-2017 |
Electronic Circuits I |
3 |
Fall 2016-2017 |
Electronic Circuits I |
3 |
Summer 2015-2016 |
Electronic Circuits I |
4 |
Fall 2015-2016 |
Electronic Circuits I |
4 |
Fall 2014-2015 |
Electronic Circuits I |
4 |
Fall 2013-2014 |
Electronic Circuits I |
4 |
Fall 2012-2013 |
Electronic Circuits I |
4 |
Fall 2011-2012 |
Electronic Circuits I |
4 |
Fall 2010-2011 |
Electronic Circuits I |
4 |
Fall 2009-2010 |
Electronic Circuits I |
4 |
Fall 2008-2009 |
Electronic Circuits I |
4 |
Fall 2007-2008 |
Electronic Circuits I |
4 |
Fall 2006-2007 |
Electronic Circuits I |
4 |
Fall 2005-2006 |
Electronic Circuits I |
4 |
Fall 2004-2005 |
Electronic Circuits I |
4 |
Fall 2003-2004 |
Electronic Circuits I |
4 |
Fall 2002-2003 |
Electronic Circuits I |
4 |
Fall 2001-2002 |
Electronic Circuits I |
4 |
Fall 2000-2001 |
Electronic Circuits I |
4 |
|
Prerequisite: MATH 102 - Undergraduate - Min Grade D |
Corequisite: ENS 203R |
ECTS Credit: 6 ECTS (8 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 203R Electronic Circuits I - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Electronic Circuits I - Recitation |
0 |
Summer 2022-2023 |
Electronic Circuits I - Recitation |
0 |
Fall 2022-2023 |
Electronic Circuits I - Recitation |
0 |
Summer 2021-2022 |
Electronic Circuits I - Recitation |
0 |
Fall 2021-2022 |
Electronic Circuits I - Recitation |
0 |
Summer 2020-2021 |
Electronic Circuits I - Recitation |
0 |
Fall 2020-2021 |
Electronic Circuits I - Recitation |
0 |
Summer 2019-2020 |
Electronic Circuits I - Recitation |
0 |
Fall 2019-2020 |
Electronic Circuits I - Recitation |
0 |
Summer 2018-2019 |
Electronic Circuits I - Recitation |
0 |
Fall 2018-2019 |
Electronic Circuits I - Recitation |
0 |
Summer 2017-2018 |
Electronic Circuits I - Recitation |
0 |
Fall 2017-2018 |
Electronic Circuits I - Recitation |
0 |
Summer 2016-2017 |
Electronic Circuits I - Recitation |
0 |
Fall 2016-2017 |
Electronic Circuits I - Recitation |
0 |
Summer 2015-2016 |
Electronic Circuits I - Recitation |
0 |
Fall 2015-2016 |
Electronic Circuits I - Recitation |
0 |
Fall 2014-2015 |
Electronic Circuits I - Recitation |
0 |
Fall 2013-2014 |
Electronic Circuits I - Recitation |
0 |
Fall 2012-2013 |
Electronic Circuits I - Recitation |
0 |
Fall 2011-2012 |
Electronic Circuits I - Recitation |
0 |
Fall 2010-2011 |
Electronic Circuits I - Recitation |
0 |
Fall 2009-2010 |
Electronic Circuits I - Recitation |
0 |
Fall 2008-2009 |
Electronic Circuits I - Recitation |
0 |
Fall 2007-2008 |
Electronic Circuits I - Recitation |
0 |
Fall 2006-2007 |
Electronic Circuits I - Recitation |
0 |
Fall 2005-2006 |
Electronic Circuits I - Recitation |
0 |
Fall 2004-2005 |
Electronic Circuits I - Recitation |
0 |
Fall 2003-2004 |
Electronic Circuits I - Recitation |
0 |
Fall 2002-2003 |
Electronic Circuits I - Recitation |
0 |
Fall 2001-2002 |
Electronic Circuits I - Recitation |
0 |
Fall 2000-2001 |
Electronic Circuits I - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 203 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 204 Mechanics |
3 Credits |
The course covers the following topics;
statics of particles: forces in plane, forces
in space, equilibrium, moment of a force,
moment of a couple, equivalent systems of
forces on rigid bodies, equilibrium in two
dimensions, equilibrium in three
dimensions, distributed forces: centroids
and center of gravity, analysis of
structures: trusses, frames and machines,
internal forces in beams and cables,
friction, moments of inertia of areas,
moments of inertia of masses
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Mechanics |
3 |
Summer 2022-2023 |
Mechanics |
3 |
Fall 2022-2023 |
Mechanics |
3 |
Summer 2021-2022 |
Mechanics |
3 |
Fall 2021-2022 |
Mechanics |
3 |
Summer 2020-2021 |
Mechanics |
3 |
Fall 2020-2021 |
Mechanics |
3 |
Summer 2019-2020 |
Mechanics |
3 |
Fall 2019-2020 |
Mechanics |
3 |
Summer 2018-2019 |
Mechanics |
3 |
Fall 2018-2019 |
Mechanics |
3 |
Summer 2017-2018 |
Mechanics |
3 |
Fall 2017-2018 |
Mechanics |
3 |
Fall 2016-2017 |
Mechanics |
3 |
Spring 2015-2016 |
Mechanics |
3 |
Spring 2014-2015 |
Mechanics |
3 |
Spring 2013-2014 |
Mechanics |
3 |
Spring 2012-2013 |
Mechanics |
3 |
Spring 2011-2012 |
Mechanics |
3 |
Spring 2010-2011 |
Mechanics |
3 |
Spring 2009-2010 |
Mechanics |
3 |
Spring 2008-2009 |
Mechanics |
3 |
Spring 2007-2008 |
Mechanics |
3 |
Spring 2006-2007 |
Mechanics |
3 |
Spring 2005-2006 |
Mechanics |
3 |
Spring 2004-2005 |
Mechanics |
3 |
Spring 2003-2004 |
Mechanics |
3 |
Spring 2002-2003 |
Mechanics |
3 |
Spring 2001-2002 |
Mechanics |
3 |
Spring 2000-2001 |
Mechanics |
3 |
|
Prerequisite: NS 101 - Undergraduate - Min Grade D |
and MATH 102 - Undergraduate - Min Grade D |
Corequisite: ENS 204R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 204R Mechanics - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Mechanics - Recitation |
0 |
Summer 2022-2023 |
Mechanics - Recitation |
0 |
Fall 2022-2023 |
Mechanics - Recitation |
0 |
Summer 2021-2022 |
Mechanics - Recitation |
0 |
Fall 2021-2022 |
Mechanics - Recitation |
0 |
Summer 2020-2021 |
Mechanics - Recitation |
0 |
Fall 2020-2021 |
Mechanics - Recitation |
0 |
Summer 2019-2020 |
Mechanics - Recitation |
0 |
Fall 2019-2020 |
Mechanics - Recitation |
0 |
Summer 2018-2019 |
Mechanics - Recitation |
0 |
Fall 2018-2019 |
Mechanics - Recitation |
0 |
Summer 2017-2018 |
Mechanics - Recitation |
0 |
Fall 2017-2018 |
Mechanics - Recitation |
0 |
Fall 2016-2017 |
Mechanics - Recitation |
0 |
Spring 2015-2016 |
Mechanics - Recitation |
0 |
Spring 2014-2015 |
Mechanics - Recitation |
0 |
Spring 2013-2014 |
Mechanics - Recitation |
0 |
Spring 2012-2013 |
Mechanics - Recitation |
0 |
Spring 2011-2012 |
Mechanics - Recitation |
0 |
Spring 2010-2011 |
Mechanics - Recitation |
0 |
Spring 2009-2010 |
Mechanics - Recitation |
0 |
Spring 2008-2009 |
Mechanics - Recitation |
0 |
Spring 2007-2008 |
Mechanics - Recitation |
0 |
Spring 2006-2007 |
Mechanics - Recitation |
0 |
Spring 2005-2006 |
Mechanics - Recitation |
0 |
Spring 2004-2005 |
Mechanics - Recitation |
0 |
Spring 2003-2004 |
Mechanics - Recitation |
0 |
Spring 2002-2003 |
Mechanics - Recitation |
0 |
Spring 2001-2002 |
Mechanics - Recitation |
0 |
Spring 2000-2001 |
Mechanics - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 204 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 205 Introduction to Materials Science |
3 Credits |
Classifications of materials; atomic structure and
interatomic bonding; the structure of crystalline
solids; imperfections in solids; diffusion; mechanical
properties of metals; dislocations in metals; failure;
phase daigrams; phase transformations and alteration of
mechanical properties; alloys; structures and properties of
ceramics; polymer structures, their applications and
processing; composites; corrosion; electrical,
thermal, magnetic and optical properties; case
studies in materials selection.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Introduction to Materials Science |
3 |
Fall 2023-2024 |
Introduction to Materials Science |
3 |
Summer 2022-2023 |
Introduction to Materials Science |
3 |
Spring 2022-2023 |
Introduction to Materials Science |
3 |
Fall 2022-2023 |
Introduction to Materials Science |
3 |
Summer 2021-2022 |
Introduction to Materials Science |
3 |
Spring 2021-2022 |
Introduction to Materials Science |
3 |
Fall 2021-2022 |
Introduction to Materials Science |
3 |
Summer 2020-2021 |
Introduction to Materials Science |
3 |
Spring 2020-2021 |
Introduction to Materials Science |
3 |
Fall 2020-2021 |
Introduction to Materials Science |
3 |
Summer 2019-2020 |
Introduction to Materials Science |
3 |
Spring 2019-2020 |
Introduction to Materials Science |
3 |
Fall 2019-2020 |
Introduction to Materials Science |
3 |
Summer 2018-2019 |
Introduction to Materials Science |
3 |
Spring 2018-2019 |
Introduction to Materials Science |
3 |
Fall 2018-2019 |
Introduction to Materials Science |
3 |
Summer 2017-2018 |
Introduction to Materials Science |
3 |
Spring 2017-2018 |
Introduction to Materials Science |
3 |
Fall 2017-2018 |
Introduction to Materials Science |
3 |
Spring 2016-2017 |
Introduction to Materials Science |
3 |
Fall 2016-2017 |
Introduction to Materials Science |
3 |
Summer 2015-2016 |
Introduction to Materials Science |
3 |
Spring 2015-2016 |
Introduction to Materials Science |
3 |
Fall 2015-2016 |
Introduction to Materials Science |
3 |
Summer 2014-2015 |
Introduction to Materials Science |
3 |
Spring 2014-2015 |
Introduction to Materials Science |
3 |
Fall 2014-2015 |
Introduction to Materials Science |
3 |
Summer 2013-2014 |
Introduction to Materials Science |
3 |
Spring 2013-2014 |
Introduction to Materials Science |
3 |
Fall 2013-2014 |
Introduction to Materials Science |
3 |
Summer 2012-2013 |
Introduction to Materials Science |
3 |
Spring 2012-2013 |
Introduction to Materials Science |
3 |
Fall 2012-2013 |
Introduction to Materials Science |
3 |
Summer 2011-2012 |
Introduction to Materials Science |
3 |
Fall 2011-2012 |
Introduction to Materials Science |
3 |
Fall 2010-2011 |
Introduction to Materials Science |
3 |
Fall 2009-2010 |
Materials Science I |
3 |
Fall 2008-2009 |
Materials Science I |
3 |
Fall 2007-2008 |
Materials Science I |
3 |
Fall 2006-2007 |
Materials Science I |
3 |
Summer 2005-2006 |
Materials Science I |
3 |
Fall 2005-2006 |
Materials Science I |
3 |
Fall 2004-2005 |
Materials Science I |
3 |
Fall 2003-2004 |
Materials Science I |
3 |
Fall 2002-2003 |
Materials Science I |
3 |
Fall 2001-2002 |
Materials Science I |
3 |
Fall 2000-2001 |
Materials Science I |
3 |
|
Prerequisite: NS 102 - Undergraduate - Min Grade D(can be taken concurrently) |
and MATH 102 - Undergraduate - Min Grade D |
Corequisite: ENS 205R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 205R Introduction to Materials Science - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Introduction to Materials Science - Recitation |
0 |
Fall 2023-2024 |
Introduction to Materials Science - Recitation |
0 |
Summer 2022-2023 |
Introduction to Materials Science - Recitation |
0 |
Spring 2022-2023 |
Introduction to Materials Science - Recitation |
0 |
Fall 2022-2023 |
Introduction to Materials Science - Recitation |
0 |
Summer 2021-2022 |
Introduction to Materials Science - Recitation |
0 |
Spring 2021-2022 |
Introduction to Materials Science - Recitation |
0 |
Fall 2021-2022 |
Introduction to Materials Science - Recitation |
0 |
Summer 2020-2021 |
Introduction to Materials Science - Recitation |
0 |
Spring 2020-2021 |
Introduction to Materials Science - Recitation |
0 |
Fall 2020-2021 |
Introduction to Materials Science - Recitation |
0 |
Summer 2019-2020 |
Introduction to Materials Science - Recitation |
0 |
Spring 2019-2020 |
Introduction to Materials Science - Recitation |
0 |
Fall 2019-2020 |
Introduction to Materials Science - Recitation |
0 |
Summer 2018-2019 |
Introduction to Materials Science - Recitation |
0 |
Spring 2018-2019 |
Introduction to Materials Science - Recitation |
0 |
Fall 2018-2019 |
Introduction to Materials Science - Recitation |
0 |
Summer 2017-2018 |
Introduction to Materials Science - Recitation |
0 |
Spring 2017-2018 |
Introduction to Materials Science - Recitation |
0 |
Fall 2017-2018 |
Introduction to Materials Science - Recitation |
0 |
Spring 2016-2017 |
Introduction to Materials Science - Recitation |
0 |
Fall 2016-2017 |
Introduction to Materials Science - Recitation |
0 |
Summer 2015-2016 |
Introduction to Materials Science - Recitation |
0 |
Spring 2015-2016 |
Introduction to Materials Science - Recitation |
0 |
Fall 2015-2016 |
Introduction to Materials Science - Recitation |
0 |
Summer 2014-2015 |
Introduction to Materials Science - Recitation |
0 |
Spring 2014-2015 |
Introduction to Materials Science - Recitation |
0 |
Fall 2014-2015 |
Introduction to Materials Science - Recitation |
0 |
Summer 2013-2014 |
Introduction to Materials Science - Recitation |
0 |
Spring 2013-2014 |
Introduction to Materials Science - Recitation |
0 |
Fall 2013-2014 |
Introduction to Materials Science - Recitation |
0 |
Summer 2012-2013 |
Introduction to Materials Science - Recitation |
0 |
Spring 2012-2013 |
Introduction to Materials Science - Recitation |
0 |
Fall 2012-2013 |
Introduction to Materials Science - Recitation |
0 |
Summer 2011-2012 |
Introduction to Materials Science - Recitation |
0 |
Fall 2011-2012 |
Introduction to Materials Science - Recitation |
0 |
Fall 2010-2011 |
Introduction to Materials Science - Recitation |
0 |
Fall 2009-2010 |
Materials Science I - Recitation |
0 |
Fall 2008-2009 |
Materials Science I - Recitation |
0 |
Fall 2007-2008 |
Materials Science I - Recitation |
0 |
Fall 2006-2007 |
Materials Science I - Recitation |
0 |
Summer 2005-2006 |
Materials Science I - Recitation |
0 |
Fall 2005-2006 |
Materials Science I - Recitation |
0 |
Fall 2000-2001 |
Introduction to Materials Science - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 205 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 206 Systems Modeling and Control |
3 Credits |
Examples of physical and abstract systems and their
mathematical models. Classification of dynamic system models
linearity and time invariance ; finite state discrete event
systems. Tools of analysis for linear systems :
transform techniques, input-output analysis, block
diagrams, frequency response representation.
Introduction to stability and closed loop system
design. Introduction to supervisory control for discrete
event systems.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Systems Modeling and Control |
3 |
Spring 2022-2023 |
Systems Modeling and Control |
3 |
Spring 2021-2022 |
Systems Modeling and Control |
3 |
Summer 2020-2021 |
Systems Modeling and Control |
3 |
Spring 2020-2021 |
Systems Modeling and Control |
3 |
Summer 2019-2020 |
Systems Modeling and Control |
3 |
Spring 2019-2020 |
Systems Modeling and Control |
3 |
Summer 2018-2019 |
Systems Modeling and Control |
3 |
Spring 2018-2019 |
Systems Modeling and Control |
3 |
Summer 2017-2018 |
Systems Modeling and Control |
3 |
Spring 2017-2018 |
Systems Modeling and Control |
3 |
Summer 2016-2017 |
Systems Modeling and Control |
3 |
Spring 2016-2017 |
Systems Modeling and Control |
3 |
Spring 2015-2016 |
Systems Modeling and Control |
3 |
Spring 2014-2015 |
Systems Modeling and Control |
3 |
Spring 2013-2014 |
Systems Modeling and Control |
3 |
Spring 2012-2013 |
Systems Modeling and Control |
3 |
Spring 2011-2012 |
Systems Modeling and Control |
3 |
Spring 2010-2011 |
Systems Modeling and Control |
3 |
Spring 2009-2010 |
Systems Modeling and Control |
3 |
Spring 2008-2009 |
Systems Modeling and Control |
3 |
Spring 2007-2008 |
Systems Modeling and Control |
3 |
Spring 2006-2007 |
Systems Modeling and Control |
3 |
Spring 2005-2006 |
Systems Modeling and Control |
3 |
Spring 2004-2005 |
Systems Modeling and Control |
3 |
Spring 2003-2004 |
Systems Modeling and Control |
3 |
Spring 2002-2003 |
Systems Modeling and Control |
3 |
Spring 2001-2002 |
Systems Modeling and Control |
3 |
Spring 2000-2001 |
Systems Modeling and Control |
3 |
|
Prerequisite: MATH 102 - Undergraduate - Min Grade D |
and MATH 201 - Undergraduate - Min Grade D |
Corequisite: ENS 206R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 206L Systems Modelling and Control - Lab. |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2003-2004 |
Systems Modelling and Control - Lab. |
0 |
Spring 2001-2002 |
Systems Modelling and Control - Lab. |
0 |
Spring 2000-2001 |
Systems Modelling and Control - Lab. |
0 |
|
Prerequisite: __ |
Corequisite: ENS 206 |
and ENS 206R |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 206R Systems Modeling and Control - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Systems Modeling and Control - Recitation |
0 |
Spring 2022-2023 |
Systems Modeling and Control - Recitation |
0 |
Spring 2021-2022 |
Systems Modeling and Control - Recitation |
0 |
Summer 2020-2021 |
Systems Modeling and Control - Recitation |
0 |
Spring 2020-2021 |
Systems Modeling and Control - Recitation |
0 |
Summer 2019-2020 |
Systems Modeling and Control - Recitation |
0 |
Spring 2019-2020 |
Systems Modeling and Control - Recitation |
0 |
Summer 2018-2019 |
Systems Modeling and Control - Recitation |
0 |
Spring 2018-2019 |
Systems Modeling and Control - Recitation |
0 |
Summer 2017-2018 |
Systems Modeling and Control - Recitation |
0 |
Spring 2017-2018 |
Systems Modeling and Control - Recitation |
0 |
Summer 2016-2017 |
Systems Modeling and Control - Recitation |
0 |
Spring 2016-2017 |
Systems Modeling and Control - Recitation |
0 |
Spring 2015-2016 |
Systems Modeling and Control - Recitation |
0 |
Spring 2014-2015 |
Systems Modeling and Control - Recitation |
0 |
Spring 2013-2014 |
Systems Modeling and Control - Recitation |
0 |
Spring 2012-2013 |
Systems Modeling and Control - Recitation |
0 |
Spring 2011-2012 |
Systems Modeling and Control - Recitation |
0 |
Spring 2010-2011 |
Systems Modeling and Control - Recitation |
0 |
Spring 2009-2010 |
Systems Modeling and Control - Recitation |
0 |
Spring 2008-2009 |
Systems Modeling and Control - Recitation |
0 |
Spring 2007-2008 |
Systems Modeling and Control - Recitation |
0 |
Spring 2006-2007 |
Systems Modeling and Control - Recitation |
0 |
Spring 2005-2006 |
Systems Modeling and Control - Recitation |
0 |
Spring 2004-2005 |
Systems Modeling and Control - Recitation |
0 |
Spring 2003-2004 |
Systems Modeling and Control - Recitation |
0 |
Spring 2002-2003 |
Systems Modeling and Control - Recitation |
0 |
Spring 2001-2002 |
Systems Modeling and Control - Recitation |
0 |
Spring 2000-2001 |
Systems Modeling and Control - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 206 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 207 Introduction to Energy Systems |
3 Credits |
The scope of this course includes fundamentals
of energy systems, which are the
subject of political and scientific interest in
recent years. Students will learn the
fundamental principles that are used
in the analysis of energy systems.
Specifically selected topics from thermodynamics,
fluid mechanics and heat
transfer will be subjects of this course.
Particular topics include but not limited or
exclusive to: conservation of mass, momentum and energy,
control volumes and
control surfaces, the second law of thermodynamıcs,
entropy, heat engines,
internal and external flows, conduction,
convection and radiation heat transfer.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Introduction to Energy Systems |
3 |
Fall 2022-2023 |
Introduction to Energy Systems |
3 |
Fall 2021-2022 |
Introduction to Energy Systems |
3 |
Fall 2020-2021 |
Introduction to Energy Systems |
3 |
Fall 2019-2020 |
Introduction to Energy Systems |
3 |
Fall 2018-2019 |
Introduction to Energy Systems |
3 |
Fall 2017-2018 |
Introduction to Energy Systems |
3 |
Fall 2015-2016 |
Introduction to Energy Systems |
3 |
Fall 2014-2015 |
Introduction to Energy Systems |
3 |
Fall 2013-2014 |
Introduction to Energy Systems |
3 |
Fall 2012-2013 |
Introduction to Energy Systems |
3 |
|
Prerequisite: __ |
Corequisite: ENS 207R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 207R Introduction to Energy Systems - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Introduction to Energy Systems - Recitation |
0 |
Fall 2022-2023 |
Introduction to Energy Systems - Recitation |
0 |
Fall 2021-2022 |
Introduction to Energy Systems - Recitation |
0 |
Fall 2020-2021 |
Introduction to Energy Systems - Recitation |
0 |
Fall 2019-2020 |
Introduction to Energy Systems - Recitation |
0 |
Fall 2018-2019 |
Introduction to Energy Systems - Recitation |
0 |
Fall 2017-2018 |
Introduction to Energy Systems - Recitation |
0 |
Fall 2015-2016 |
Introduction to Energy Systems - Recitation |
0 |
Fall 2014-2015 |
Introduction to Energy Systems - Recitation |
0 |
Fall 2013-2014 |
Introduction to Energy Systems - Recitation |
0 |
Fall 2012-2013 |
Introduction to Energy Systems - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 207 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 208 Introduction to Industrial Engineering |
3 Credits |
Introduction to a set of decision problems that modern
industrial engineers face in real-life and the tools and
techniques employed to solve them. Linear programming
formulations and solvers, heuristic methods, and
randomness and variation in observations are covered
through various problems and case studies in
transportation and logistics, production planning,
inventory control, and forecasting.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Introduction to Industrial Engineering |
3 |
Fall 2023-2024 |
Introduction to Industrial Engineering |
3 |
Summer 2022-2023 |
Introduction to Industrial Engineering |
3 |
Spring 2022-2023 |
Introduction to Industrial Engineering |
3 |
Fall 2022-2023 |
Introduction to Industrial Engineering |
3 |
Spring 2021-2022 |
Introduction to Industrial Engineering |
3 |
Fall 2021-2022 |
Introduction to Industrial Engineering |
3 |
Spring 2020-2021 |
Introduction to Industrial Engineering |
3 |
Fall 2020-2021 |
Introduction to Industrial Engineering |
3 |
Summer 2019-2020 |
Introduction to Industrial Engineering |
3 |
Spring 2019-2020 |
Introduction to Industrial Engineering |
3 |
Fall 2019-2020 |
Introduction to Industrial Engineering |
3 |
Summer 2018-2019 |
Introduction to Industrial Engineering |
3 |
Spring 2018-2019 |
Introduction to Industrial Engineering |
3 |
Fall 2018-2019 |
Introduction to Industrial Engineering |
3 |
Summer 2017-2018 |
Introduction to Industrial Engineering |
3 |
Spring 2017-2018 |
Introduction to Industrial Engineering |
3 |
Fall 2017-2018 |
Introduction to Industrial Engineering |
3 |
Summer 2016-2017 |
Introduction to Industrial Engineering |
3 |
Spring 2016-2017 |
Introduction to Industrial Engineering |
3 |
Fall 2016-2017 |
Introduction to Industrial Engineering |
3 |
Summer 2015-2016 |
Introduction to Industrial Engineering |
3 |
Spring 2015-2016 |
Introduction to Industrial Engineering |
3 |
Fall 2015-2016 |
Introduction to Industrial Engineering |
3 |
Summer 2014-2015 |
Introduction to Manufacturing Systems |
3 |
Spring 2014-2015 |
Introduction to Manufacturing Systems |
3 |
Fall 2014-2015 |
Introduction to Manufacturing Systems |
3 |
Summer 2013-2014 |
Introduction to Manufacturing Systems |
3 |
Spring 2013-2014 |
Introduction to Manufacturing Systems |
3 |
Fall 2013-2014 |
Introduction to Manufacturing Systems |
3 |
Summer 2012-2013 |
Introduction to Manufacturing Systems |
3 |
Spring 2012-2013 |
Introduction to Manufacturing Systems |
3 |
Fall 2012-2013 |
Introduction to Manufacturing Systems |
3 |
Summer 2011-2012 |
Introduction to Manufacturing Systems |
3 |
Spring 2011-2012 |
Introduction to Manufacturing Systems |
3 |
Fall 2011-2012 |
Introduction to Manufacturing Systems |
3 |
Summer 2010-2011 |
Introduction to Manufacturing Systems |
3 |
Spring 2010-2011 |
Introduction to Manufacturing Systems |
3 |
Fall 2010-2011 |
Introduction to Manufacturing Systems |
3 |
Summer 2009-2010 |
Introduction to Manufacturing Systems |
3 |
Fall 2009-2010 |
Introduction to Manufacturing Systems |
3 |
Summer 2008-2009 |
Introduction to Manufacturing Systems |
3 |
Fall 2008-2009 |
Introduction to Manufacturing Systems |
3 |
Fall 2007-2008 |
Introduction to Manufacturing Systems |
3 |
Fall 2006-2007 |
Introduction to Manufacturing Systems |
3 |
Fall 2005-2006 |
Introduction to Manufacturing Systems |
3 |
Fall 2004-2005 |
Introduction to Manufacturing Systems |
3 |
Spring 2003-2004 |
Introduction to Manufacturing Systems |
3 |
Spring 2002-2003 |
Introduction to Manufacturing Systems |
3 |
Spring 2001-2002 |
Introduction to Manufacturing Systems |
3 |
Spring 2000-2001 |
Introduction to Manufacturing Systems |
3 |
|
Prerequisite: IF 100 - Undergraduate - Min Grade D |
and MATH 102 - Undergraduate - Min Grade D |
Corequisite: ENS 208R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 208R Introduction to Industrial Engineering Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Introduction to Industrial Engineering Recitation |
0 |
Fall 2023-2024 |
Introduction to Industrial Engineering Recitation |
0 |
Summer 2022-2023 |
Introduction to Industrial Engineering Recitation |
0 |
Spring 2022-2023 |
Introduction to Industrial Engineering Recitation |
0 |
Fall 2022-2023 |
Introduction to Industrial Engineering Recitation |
0 |
Spring 2021-2022 |
Introduction to Industrial Engineering Recitation |
0 |
Fall 2021-2022 |
Introduction to Industrial Engineering Recitation |
0 |
Spring 2020-2021 |
Introduction to Industrial Engineering Recitation |
0 |
Fall 2020-2021 |
Introduction to Industrial Engineering Recitation |
0 |
Summer 2019-2020 |
Introduction to Industrial Engineering Recitation |
0 |
Spring 2019-2020 |
Introduction to Industrial Engineering Recitation |
0 |
Fall 2019-2020 |
Introduction to Industrial Engineering Recitation |
0 |
Summer 2018-2019 |
Introduction to Industrial Engineering Recitation |
0 |
Spring 2018-2019 |
Introduction to Industrial Engineering Recitation |
0 |
Fall 2018-2019 |
Introduction to Industrial Engineering Recitation |
0 |
Summer 2017-2018 |
Introduction to Industrial Engineering Recitation |
0 |
Spring 2017-2018 |
Introduction to Industrial Engineering Recitation |
0 |
Fall 2017-2018 |
Introduction to Industrial Engineering Recitation |
0 |
Summer 2016-2017 |
Introduction to Industrial Engineering Recitation |
0 |
Spring 2016-2017 |
Introduction to Industrial Engineering Recitation |
0 |
Fall 2016-2017 |
Introduction to Industrial Engineering Recitation |
0 |
Summer 2015-2016 |
Introduction to Industrial Engineering Recitation |
0 |
Spring 2015-2016 |
Introduction to Industrial Engineering Recitation |
0 |
Fall 2015-2016 |
Introduction to Industrial Engineering Recitation |
0 |
Summer 2014-2015 |
Introduction to Manufacturing Systems - Recitation |
0 |
Spring 2014-2015 |
Introduction to Manufacturing Systems - Recitation |
0 |
Fall 2014-2015 |
Introduction to Manufacturing Systems - Recitation |
0 |
Summer 2013-2014 |
Introduction to Manufacturing Systems - Recitation |
0 |
Spring 2013-2014 |
Introduction to Manufacturing Systems - Recitation |
0 |
Fall 2013-2014 |
Introduction to Manufacturing Systems - Recitation |
0 |
Summer 2012-2013 |
Introduction to Manufacturing Systems - Recitation |
0 |
Spring 2012-2013 |
Introduction to Manufacturing Systems - Recitation |
0 |
Fall 2012-2013 |
Introduction to Manufacturing Systems - Recitation |
0 |
Summer 2011-2012 |
Introduction to Manufacturing Systems - Recitation |
0 |
Spring 2011-2012 |
Introduction to Manufacturing Systems - Recitation |
0 |
Fall 2011-2012 |
Introduction to Manufacturing Systems - Recitation |
0 |
Summer 2010-2011 |
Introduction to Manufacturing Systems - Recitation |
0 |
Spring 2010-2011 |
Introduction to Manufacturing Systems - Recitation |
0 |
Fall 2010-2011 |
Introduction to Manufacturing Systems - Recitation |
0 |
Summer 2009-2010 |
Introduction to Manufacturing Systems - Recitation |
0 |
Fall 2009-2010 |
Introduction to Manufacturing Systems - Recitation |
0 |
Summer 2008-2009 |
Introduction to Manufacturing Systems - Recitation |
0 |
Fall 2008-2009 |
Introduction to Manufacturing Systems - Recitation |
0 |
Fall 2007-2008 |
Introduction to Manufacturing Systems - Recitation |
0 |
Fall 2006-2007 |
Introduction to Manufacturing Systems - Recitation |
0 |
Fall 2005-2006 |
Introduction to Manufacturing Systems - Recitation |
0 |
Fall 2004-2005 |
Introduction to Manufacturing Systems - Recitation |
0 |
Spring 2003-2004 |
Introduction to Manufacturing Systems - Recitation |
0 |
Spring 2002-2003 |
Introduction to Manufacturing Systems - Recitation |
0 |
Spring 2001-2002 |
Introduction to Manufacturing Systems - Recitation |
0 |
Spring 2000-2001 |
Introduction to Industrial Engineering Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 208 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 209 Introduction to Computer Aided Drafting and Solid Modeling |
3 Credits |
ENS 209 is concerned with the basic and important
principles in computer-aided drafting and
design (CADD), and 3D solid modeling.
Based on an understanding of engineering
drawing, the course will further introduce the
use of computers for 2D drafting and 3D
solid modeling. Topics include: engineering
drawing, tolerances, computer-aided technical
drafting and design, geometric models
and data structures, representation and manipulation
of curves and surfaces and 3D solid modeling, and
assembly modeling and analysis.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2023-2024 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Spring 2022-2023 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2022-2023 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Summer 2021-2022 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Spring 2021-2022 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2021-2022 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Summer 2020-2021 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Spring 2020-2021 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2020-2021 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Summer 2019-2020 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Spring 2019-2020 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2019-2020 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Summer 2018-2019 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Spring 2018-2019 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2018-2019 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Summer 2017-2018 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Spring 2017-2018 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2017-2018 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Summer 2016-2017 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Spring 2016-2017 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2016-2017 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Summer 2015-2016 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Spring 2015-2016 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2015-2016 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Summer 2014-2015 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Spring 2014-2015 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2014-2015 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Summer 2013-2014 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Spring 2013-2014 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2013-2014 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Summer 2012-2013 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Spring 2012-2013 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2012-2013 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Summer 2011-2012 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Spring 2011-2012 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
Fall 2011-2012 |
Introduction to Computer Aided Drafting and Solid Modeling |
3 |
|
Prerequisite: __ |
Corequisite: ENS 209L |
and ENS 209R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 209L Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2023-2024 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Spring 2022-2023 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2022-2023 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Summer 2021-2022 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Spring 2021-2022 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2021-2022 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Summer 2020-2021 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Spring 2020-2021 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2020-2021 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Summer 2019-2020 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Spring 2019-2020 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2019-2020 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Summer 2018-2019 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Spring 2018-2019 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2018-2019 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Summer 2017-2018 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Spring 2017-2018 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2017-2018 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Summer 2016-2017 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Spring 2016-2017 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2016-2017 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Summer 2015-2016 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Spring 2015-2016 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2015-2016 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Summer 2014-2015 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Spring 2014-2015 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2014-2015 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Summer 2013-2014 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Spring 2013-2014 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2013-2014 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Summer 2012-2013 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Spring 2012-2013 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2012-2013 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Summer 2011-2012 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Spring 2011-2012 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
Fall 2011-2012 |
Introduction to Computer Aided Drafting and Solid Modeling - Lab. |
0 |
|
Prerequisite: __ |
Corequisite: ENS 209 |
and ENS 209R |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 209R Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2023-2024 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Spring 2022-2023 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2022-2023 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Summer 2021-2022 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Spring 2021-2022 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2021-2022 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Summer 2020-2021 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Spring 2020-2021 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2020-2021 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Summer 2019-2020 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Spring 2019-2020 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2019-2020 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Summer 2018-2019 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Spring 2018-2019 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2018-2019 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Summer 2017-2018 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Spring 2017-2018 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2017-2018 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Summer 2016-2017 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Spring 2016-2017 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2016-2017 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Summer 2015-2016 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Spring 2015-2016 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2015-2016 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Summer 2014-2015 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Spring 2014-2015 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2014-2015 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Summer 2013-2014 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Spring 2013-2014 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2013-2014 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Summer 2012-2013 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Spring 2012-2013 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2012-2013 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Summer 2011-2012 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Spring 2011-2012 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
Fall 2011-2012 |
Introduction to Computer Aided Drafting and Solid Modeling - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 209 |
and ENS 209L |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 210 Computational Biology |
3 Credits |
1. Basic Concepts of Molecular Biology; Life, Proteins,
Nucleic acids.
2. The Mechanisms of Molecular Genetics; Genes and the
Genetic Code, Transcription, Translation and Protein
Synthesis, junk DNA and Reading frames,Chromosomes
3. How the Genome is Studied; Maps and Sequences, Specific
Techniques
4. The Human Genome Project
5. Molecular Biology Databases on the Web
6. Strings, Graphs and Algorithms
7. Sequence Alignment Algorithms; Global, Semiglobal, and
Local Alignment
8. Multiple Sequence Alignment; Star alignment, Tree
alignment
9. Database Search; PAM, BLOSSUM matrices, BLAST, FASTA
10. Quantitative and Probabilistic Pattern Matching
11. Protein Ligand Docking
12. Bio-ethics
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Computational Biology |
3 |
Fall 2022-2023 |
Computational Biology |
3 |
Fall 2021-2022 |
Computational Biology |
3 |
Fall 2020-2021 |
Computational Biology |
3 |
Fall 2019-2020 |
Computational Biology |
3 |
Fall 2018-2019 |
Computational Biology |
3 |
Fall 2017-2018 |
Computational Biology |
3 |
Fall 2014-2015 |
Computational Biology |
3 |
Fall 2013-2014 |
Computational Biology |
3 |
Spring 2012-2013 |
Computational Biology |
3 |
Spring 2011-2012 |
Computational Biology |
3 |
Spring 2010-2011 |
Computational Biology |
3 |
Spring 2009-2010 |
Computational Biology |
3 |
Spring 2008-2009 |
Computational Biology |
3 |
Spring 2007-2008 |
Computational Biology |
3 |
Spring 2006-2007 |
Computational Biology |
3 |
Spring 2005-2006 |
Computational Biology |
3 |
Spring 2004-2005 |
Computational Biology |
3 |
Fall 2003-2004 |
Computational Biology |
3 |
Fall 2002-2003 |
Computational Biology |
3 |
Fall 2001-2002 |
Computational Biology |
3 |
Spring 2000-2001 |
Computational Biology |
3 |
|
Prerequisite: MATH 101 - Undergraduate - Min Grade D |
and IF 100 - Undergraduate - Min Grade D |
Corequisite: ENS 210L |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 210L Computational Biology - Lab. |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Computational Biology - Lab. |
0 |
Fall 2022-2023 |
Computational Biology - Lab. |
0 |
Fall 2021-2022 |
Computational Biology - Lab. |
0 |
Fall 2020-2021 |
Computational Biology - Lab. |
0 |
Spring 2012-2013 |
Computational Biology - Lab. |
0 |
Spring 2011-2012 |
Computational Biology - Lab. |
0 |
Spring 2010-2011 |
Computational Biology - Lab. |
0 |
Spring 2009-2010 |
Computational Biology - Lab. |
0 |
Fall 2002-2003 |
Computational Biology - Lab. |
0 |
Fall 2001-2002 |
Computational Biology - Lab. |
0 |
Spring 2000-2001 |
Computational Biology - Lab. |
0 |
|
Prerequisite: __ |
Corequisite: ENS 210 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 211 Signals |
3 Credits |
Continuous and discrete, periodic and aperiodic signals,
impulse, unit step signals. Spectrum representation of a
signal. Fourier series representation of periodic signals.
System concept. Continuous and Discrete Finite
Impulse Response (FIR) Systems. Linear Time
Invariant (LTI) Systems. Impulse response and
Frequency response of LTI systems.
Fourier transform of aperiodic and periodic signals.
Filtering in time and frequency domain. Sampling
of continuous signals. Aliasing. Bandlimited
reconstruction, interpolation. Basic Amplitude Modulation.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Signals |
3 |
Summer 2022-2023 |
Signals |
3 |
Fall 2022-2023 |
Signals |
3 |
Summer 2021-2022 |
Signals |
3 |
Fall 2021-2022 |
Signals |
3 |
Summer 2020-2021 |
Signals |
3 |
Fall 2020-2021 |
Signals |
3 |
Summer 2019-2020 |
Signals |
3 |
Fall 2019-2020 |
Signals |
3 |
Summer 2018-2019 |
Signals |
3 |
Fall 2018-2019 |
Signals |
3 |
Summer 2017-2018 |
Signals |
3 |
Fall 2017-2018 |
Signals |
3 |
Summer 2016-2017 |
Signals |
3 |
Fall 2016-2017 |
Signals |
3 |
Summer 2015-2016 |
Signals |
3 |
Fall 2015-2016 |
Signals |
3 |
Summer 2014-2015 |
Signals |
3 |
Fall 2014-2015 |
Signals |
3 |
Summer 2013-2014 |
Signals |
3 |
Fall 2013-2014 |
Signals |
3 |
Summer 2012-2013 |
Signals |
3 |
Fall 2012-2013 |
Signals |
3 |
Fall 2011-2012 |
Signals |
3 |
Fall 2010-2011 |
Signals |
3 |
Fall 2009-2010 |
Signals |
3 |
Fall 2008-2009 |
Signals |
3 |
Fall 2007-2008 |
Signals |
3 |
Fall 2006-2007 |
Signals |
3 |
Fall 2005-2006 |
Signals |
3 |
Fall 2004-2005 |
Signals |
3 |
Spring 2003-2004 |
Signals |
3 |
Fall 2002-2003 |
Signals |
3 |
Fall 2001-2002 |
Signals |
3 |
Spring 2000-2001 |
Signals |
3 |
|
Prerequisite: MATH 101 - Undergraduate - Min Grade D |
Corequisite: ENS 211R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 211R Signals - Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2023-2024 |
Signals - Recitation |
0 |
Summer 2022-2023 |
Signals - Recitation |
0 |
Fall 2022-2023 |
Signals - Recitation |
0 |
Summer 2021-2022 |
Signals - Recitation |
0 |
Fall 2021-2022 |
Signals - Recitation |
0 |
Summer 2020-2021 |
Signals - Recitation |
0 |
Fall 2020-2021 |
Signals - Recitation |
0 |
Summer 2019-2020 |
Signals - Recitation |
0 |
Fall 2019-2020 |
Signals - Recitation |
0 |
Summer 2018-2019 |
Signals - Recitation |
0 |
Fall 2018-2019 |
Signals - Recitation |
0 |
Summer 2017-2018 |
Signals - Recitation |
0 |
Fall 2017-2018 |
Signals - Recitation |
0 |
Summer 2016-2017 |
Signals - Recitation |
0 |
Fall 2016-2017 |
Signals - Recitation |
0 |
Summer 2015-2016 |
Signals - Recitation |
0 |
Fall 2015-2016 |
Signals - Recitation |
0 |
Summer 2014-2015 |
Signals - Recitation |
0 |
Fall 2014-2015 |
Signals - Recitation |
0 |
Summer 2013-2014 |
Signals - Recitation |
0 |
Fall 2013-2014 |
Signals - Recitation |
0 |
Summer 2012-2013 |
Signals - Recitation |
0 |
Fall 2012-2013 |
Signals - Recitation |
0 |
Fall 2011-2012 |
Signals - Recitation |
0 |
Fall 2010-2011 |
Signals - Recitation |
0 |
Fall 2009-2010 |
Signals - Recitation |
0 |
Fall 2008-2009 |
Signals - Recitation |
0 |
Fall 2007-2008 |
Signals - Recitation |
0 |
Fall 2006-2007 |
Signals - Recitation |
0 |
Fall 2005-2006 |
Signals - Recitation |
0 |
Fall 2004-2005 |
Signals - Recitation |
0 |
Spring 2003-2004 |
Signals - Recitation |
0 |
Fall 2002-2003 |
Signals - Recitation |
0 |
Fall 2001-2002 |
Signals - Recitation |
0 |
Spring 2000-2001 |
Signals - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 211 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 214 Dynamics |
3 Credits |
This course is designed for undergraduate students to
(i) develop an understanding of particle and planar
rigid body kinematics and kinetics (ii) obtain an
understanding of Newton's Laws of Motion, and (iii)
gain the ability to apply energy and momentum
methods to particles and rigid bodies in planar
motion.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Dynamics |
3 |
Spring 2022-2023 |
Dynamics |
3 |
Spring 2021-2022 |
Dynamics |
3 |
Spring 2020-2021 |
Dynamics |
3 |
Spring 2019-2020 |
Dynamics |
3 |
Spring 2018-2019 |
Dynamics |
3 |
Spring 2017-2018 |
Dynamics |
3 |
|
Prerequisite: __ |
Corequisite: ENS 214R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 214R Dynamics Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Dynamics Recitation |
0 |
Spring 2022-2023 |
Dynamics Recitation |
0 |
Spring 2021-2022 |
Dynamics Recitation |
0 |
Spring 2020-2021 |
Dynamics Recitation |
0 |
Spring 2019-2020 |
Dynamics Recitation |
0 |
Spring 2018-2019 |
Dynamics Recitation |
0 |
Spring 2017-2018 |
Dynamics Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 214 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 216 Information Systems: A Historical Perspective |
3 Credits |
This course presents an overview of historical
developments in information and communication
technologies during the past 150 years. The topics
are:
• Complex systems, partitioning a complex
problem, principles of hierarchy and
decomposition, applications in engineering design,
• Signals – waves – transmission: basic
principles of radio, analog vs. digital, continuous-
time vs. discrete-time,
• What is “data”?: binary representations,
history of signal processing, digital signal
processing in discrete-time, multiple dimensions:
image processing and video processing,
• Boolean logic: origin and fundamentals,
how to build a basic switch: “herding” electrons,
logic gates / switch networks, memory: how to
“store” data?, connecting to the “cloud”: Internet
fundamentals, data networks – routers – servers –
data farms,
• Communication – modulation – channels –
noise, wireless communication: Marconi to iPhone,
• Photonics: Lasers and fiber optics,
semiconductor technology: 50 years of revolution,
imaging and image sensors: basic principles,
history of display technologies, LED, TFT,
• Power / energy dissipation, energy storage:
battery technologies, resources: energy and raw
materials, energy policy / energy utilization and
conservation,
• Impact on society: how technology
influences humanity, social responsibilities of
scientists and engineers, looking into the future.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Information Systems: A Historical Perspective |
3 |
|
Prerequisite: __ |
Corequisite: ENS 216R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 216R Information Systems: A Historical Perspective Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Information Systems: A Historical Perspective Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 216 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 222 Biological Circuits and Molecular Machines |
3 Credits |
This introductory course aims to familiarize engineering
students with the quantifiable aspects of biology.
Information-carrying networks of interacting proteins and
genes as well as nonoscale molecular machines converting
chemical energy to mechanical work will be examined.
State-of-the-art experimental techniques to study these
biological and biochemical circuits will be introduced.
Mathematical models will be developed to arrive at general
principles of information and energy processing in molecular
biology.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2015-2016 |
Biological Circuits and Molecular Machines |
3 |
Spring 2014-2015 |
Biological Circuits and Molecular Machines |
3 |
|
Prerequisite: __ |
Corequisite: __ |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 302 Technology and Society |
3 Credits |
In this course the social impact of technology or
its principal backbone, namely that of automation
technologies is investigated. A historical perspective
is presented in order to grasp the contemporary
intellectual climate followed by a brief exposure to
the recent history of automation concepts and
technologies. This is further followed by first
looking at the economic impact of automation
technologies following various scenarios and
then discussing politics associated with an
automation economy. Finally we shall discuss,
using recent theories of justice, the conditions
for a just society under the tension of the two maxims
of the French Revolution: liberty and equality.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2016-2017 |
Technology and Society |
3 |
Spring 2014-2015 |
Technology and Society |
3 |
Spring 2011-2012 |
Technology and Society |
3 |
Spring 2010-2011 |
Technology and Society |
3 |
|
Prerequisite: __ |
Corequisite: __ |
ECTS Credit: 5 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 303 Introduction to Space Technology |
3 Credits |
The objective of this course is to introduce the basics
of space technology, focused especially on
principles of satellite/payload design, propulsion,
control, power, thermal issues. Space environment, payload
design with radiation hardness will be discussed.
The course also includes a general overview of
applications that are available with space science like
GPS, Earth Observing, and Astronomy.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Introduction to Space Technology |
3 |
Spring 2022-2023 |
Introduction to Space Technology |
3 |
Spring 2021-2022 |
Introduction to Space Technology |
3 |
Spring 2020-2021 |
Introduction to Space Technology |
3 |
Spring 2019-2020 |
Introduction to Space Technology |
3 |
Spring 2017-2018 |
Introduction to Space Technology |
3 |
Spring 2016-2017 |
Introduction to Space Technology |
3 |
Spring 2013-2014 |
Introduction to Space Technology |
3 |
Spring 2012-2013 |
Introduction to Space Technology |
3 |
|
Prerequisite: __ |
Corequisite: __ |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 309 Computer Aided Engineering |
3 Credits |
The proposed course, Computer Aided Engineering
(CAE), intends to give engineering students a
computer design perspective considering
manufacturing limitations. The emphasis of the
course is on engineering applications and the use of a
commercially available engineering software. Design
applications include analysis in different physical
fields such as solid mechanics, thermal, and fluid
mechanics. Solidworks software environment will be
used intensely throughout the class to be consistent
with the Computer Aided Design (CAD) and
Computer Aided Manufacturing (CAM) courses
The vast majority of the course includes design
applications by giving brief reference to theoretical
background. First, basic concepts of a finite element
model, mesh, nodes, elements, adaptive meshing will
be described in a simplified manner with
applications. The mechanical analysis section
includes background information such as mechanical
equilibrium, stress, strain, material properties. Static
mechanical design applications include static analysis
of parts and assemblies, stress analyses of
interference fits, bolted joints, and contact analysis
Dynamic mechanical analyses cover the definition of
rigid and elastic bodies, discrete & distributed
vibration systems, modal analysis, time response
analysis (resonance, beating, etc.), and harmonic
response analysis, all concepts with applications.
Thermal analysis section starts with the analogy
between the mechanical and thermal analysis by
giving reference to concepts like energy balance,
steady-state and transient problems. Discussions
include definition of thermal loads, boundary
conditions. Heat transfer applications include
problems involving conduction, convection,
radiation. Thermal section concludes with the
thermomechanical applications that couple
mechanical and thermal physics. Fluid analysis
section starts with the introduction of properties such
as density, viscosity, etc. with the continuity and
balance laws. Definition of thermal loads, boundary
conditions will be discussed with applications.
Example analysis include flow through cylinders,
cut-outs etc. Thermofluid application will be
discussed for piping design applications. Moreover,
design optimization will also be discussed for
engineering design applications. Finally, designs for
manufacturing and relevant concepts i.e. geometrical
dimensioning and tolerancing will be discussed.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2020-2021 |
Computer Aided Engineering |
3 |
Spring 2019-2020 |
Computer Aided Engineering |
3 |
|
Prerequisite: ENS 209 - Undergraduate - Min Grade D |
and IE 309 - Undergraduate - Min Grade D |
Corequisite: ENS 309L |
and ENS 309R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 309L Computer Aided Engineering Lab. |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2020-2021 |
Computer Aided Engineering Lab. |
0 |
Spring 2019-2020 |
Computer Aided Engineering Lab. |
0 |
|
Prerequisite: __ |
Corequisite: ENS 309 |
and ENS 309R |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 309R Computer Aided Engineering Rec. |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2020-2021 |
Computer Aided Engineering Rec. |
0 |
|
Prerequisite: __ |
Corequisite: ENS 309 |
and ENS 309L |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 409 Numerical Analysis |
3 Credits |
This course covers the use of numerical computing techniques
for mathematical and scientific problems. Topics
include: floating-point representation, approximations and
computer arithmetic, error analysis, conditioning and
stability, Taylor series, roots of nonlinear equations,
Newton's method, curve fitting and interpolation solution
to systems of linear equations using techniques
such as LU decomposition, Gaussian elimination, Jacobi,
Gauss-Seidel Iteration, eigenvalue problems,
numerical integration and solutions to differential
equations.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Numerical Analysis |
3 |
Spring 2022-2023 |
Numerical Analysis |
3 |
Fall 2021-2022 |
Numerical Analysis |
3 |
Fall 2020-2021 |
Numerical Analysis |
3 |
Fall 2019-2020 |
Introduction to Scientific Computing (CS409) |
3 |
Summer 2018-2019 |
Introduction to Scientific Computing (CS409) |
3 |
Fall 2018-2019 |
Introduction to Scientific Computing (CS409) |
3 |
Spring 2017-2018 |
Introduction to Scientific Computing (CS409) |
3 |
Spring 2016-2017 |
Introduction to Scientific Computing (CS409) |
3 |
Spring 2015-2016 |
Introduction to Scientific Computing (CS409) |
3 |
Spring 2014-2015 |
Introduction to Scientific Computing (CS409) |
3 |
Fall 2013-2014 |
Introduction to Scientific Computing (CS409) |
3 |
Fall 2012-2013 |
Introduction to Scientific Computing (CS409) |
3 |
Fall 2011-2012 |
Introduction to Scientific Computing (CS409) |
3 |
Spring 2010-2011 |
Introduction to Scientific Computing (CS409) |
3 |
Spring 2009-2010 |
Introduction to Scientific Computing (CS409) |
3 |
Spring 2008-2009 |
Introduction to Scientific Computing (CS409) |
3 |
Spring 2007-2008 |
Introduction to Scientific Computing (CS409) |
3 |
Fall 2005-2006 |
Introduction to Scientific Computing (CS409) |
3 |
Spring 2004-2005 |
Introduction to Scientific Computing (CS409) |
3 |
Fall 2003-2004 |
Introduction to Scientific Computing (CS409) |
3 |
Fall 2002-2003 |
Introduction to Scientific Computing (CS409) |
3 |
|
Prerequisite: CS 201 - Undergraduate - Min Grade D |
Corequisite: ENS 409R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 409R Numerical Analysis Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2017-2018 |
Introduction to Scientific Computing Recitation (CS409R) |
0 |
Spring 2008-2009 |
Introduction to Scientific Computing Recitation (CS409R) |
0 |
Fall 2005-2006 |
Introduction to Scientific Computing Recitation (CS409R) |
0 |
|
Prerequisite: __ |
Corequisite: ENS 409 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 410 Advanced Solid Modeling Techniques |
3 Credits |
Advanced Solid Modeling Techniques is
structured on the technical drafting and solid
modeling knowledge provided in ENS209
(Introduction to Computer Aided Drafting and
Solid Modeling). Advanced modeling techniques,
their effects on technical drawings and
documentation, based on the manufacturing
methods will be investigated and taught in this
course. CAD and CAE techniques will be
discussed, respectively. Advanced part modeling
techniques, advanced assembly modeling
techniques, animation and motion studies, design
automation techniques, welded constructions,
sheet metal modeling and manufacturing
operations, surface modeling techniques, mold
design, routing/piping modeling, basic
(static/thermal) finite element analyses, advanced
file management methods, and file format
integration are included in the course content.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Advanced Solid Modeling Techniques |
3 |
Spring 2022-2023 |
Advanced Solid Modeling Techniques |
3 |
|
Prerequisite: ENS 209 - Undergraduate - Min Grade D |
Corequisite: ENS 410R |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 410R Advanced Solid Modeling Techniques-Recitation |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Advanced Solid Modeling Techniques-Recitation |
0 |
Spring 2022-2023 |
Advanced Solid Modeling Techniques-Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 410 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 413 Experimental Methods in Nanoscience I |
3 Credits |
The objective of the course is to introduce basic
experimental methods in nanoscience. Theoretical
lectures are followed by experiments performed in the
laboratory for each subject. Labview programming,
vacuum techniques, deposition methods, surface
science techniques, scanning tunneling microscopy,
atomic force microscopy, nanomagnetism.
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2017-2018 |
Experimental Methods in Nanoscience I |
3 |
Fall 2015-2016 |
Experimental Methods in Nanoscience I |
3 |
Fall 2014-2015 |
Experimental Methods in Nanoscience I |
3 |
Fall 2013-2014 |
Experimental Methods in Nanoscience I |
3 |
Fall 2012-2013 |
Experimental Methods in Nanoscience I |
3 |
Fall 2011-2012 |
Experimental Methods in Nanoscience I |
3 |
|
Prerequisite: __ |
Corequisite: __ |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 414 Experimental Methods in Nanoscience II |
3 Credits |
The objective of the course is to introduce basic
experimental methods in nanoscience.
Theoretical lectures are followed by experiments performed
in the laboratory for each subject. Growth
and bottom up fabrication of nanostructures,
fabrication of nanostructures and nanodevices, electron
beam lithography and related techniques,
cryogenic techniques, electrical characterization of
nanodevices, quantum transport and magneto transport
measurements.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2014-2015 |
Experimental Methods in Nanoscience II |
3 |
Spring 2013-2014 |
Experimental Methods in Nanoscience II |
3 |
Spring 2012-2013 |
Experimental Methods in Nanoscience II |
3 |
|
Prerequisite: __ |
Corequisite: __ |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 416 Introduction to Scanning Probe Microscopy |
3 Credits |
The objective of the course is to introduce Scanning
Probe Microscopy methods to the students. Staring
with Scanning Tunnelling Microscope we will elaborate
most of the common SPM methods. However,
we shall spend most of the time on Atomic Force
Microscopy(AFM). Half of the course will involve
hands-on practical work at the AFM Lab at
SUNUM. Students will finish the course with
detailed analysis of their own specimen using AFM.
|
Last Offered Terms |
Course Name |
SU Credit |
|
Prerequisite: __ |
Corequisite: __ |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 48000 Special Topics in FENS: Energy: Supply Chain, Economics and Geopolitics |
3 Credits |
|
Last Offered Terms |
Course Name |
SU Credit |
|
Prerequisite: __ |
Corequisite: __ |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 48001 Special Topics in FENS: Materials Selection in Product Design |
3 Credits |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2019-2020 |
Special Topics in FENS: Materials Selection in Product Design |
3 |
Spring 2016-2017 |
Special Topics in FENS: Materials Selection in Product Design |
3 |
|
Prerequisite: ENS 205 - Undergraduate - Min Grade D |
Corequisite: __ |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 48002 Special Topics in FENS: Analysis of Social Networks |
3 Credits |
|
Last Offered Terms |
Course Name |
SU Credit |
Fall 2017-2018 |
Special Topics in FENS: Analysis of Social Networks |
3 |
|
Prerequisite: __ |
Corequisite: __ |
ECTS Credit: 6 ECTS (6 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 4803 Special Topics in FENS: Nanobiotechnology |
3 Credits |
The aim of this course is to introduce general concepts of
biotechnology, nanotechnology, nanomaterials
(carbon-based, fluorescence-based and plasmon-based
nanomaterials), surface bio-modification techniques
and characterization of bio-modified nanomaterials.
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2021-2022 |
Special Topics in FENS: Nanobiotechnology |
3 |
Spring 2019-2020 |
Special Topics in FENS: Nanobiotechnology |
3 |
Spring 2018-2019 |
Special Topics in FENS: Nanobiotechnology |
3 |
|
Prerequisite: __ |
Corequisite: ENS 4803L |
ECTS Credit: 7 ECTS (7 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 4803L Special Topics in FENS: Nanobiotechnology Lab. |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2018-2019 |
Special Topics in FENS: Nanobiotechnology Lab. |
0 |
|
Prerequisite: __ |
Corequisite: ENS 4803 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 491 Graduation Project (Design) |
1 Credit |
All students in FENS faculty are required to complete a
graduation project as a part of ENS 491 and ENS 492
course requirements. In these multidisciplinary projects,
students will have the opportunity to apply and develop
their knowledge in the area of their specialization in a
team environment. ENS 491 will involve general
lectures on engineering project development such as:
product planning, project management, establishing
product specifications, product metrics, cost analysis,
concept generation, concept selection and testing,
reliability, optimization, computer aided design and
manufacturing, prototyping etc. Students will implement
their designs in ENS 492. Students will be required to
submit progress reports, and seperate final reports for
ENS 491 and ENS 492.
Students must have completed 80 SU credits and, in
addition they must have completed the prerequisite course
for their program as given below. Prerequisite courses of th
programs: • Molecular Biology, Genetics, and Bioengineering:
BIO 301 or BIO 303 • Computer Science and Engineering:
CS 300 • Electronics Engineering: EE 202 or ENS211 •
Industrial Engineering: IE 305 or IE 312 • Materials Science
and Nano Engineering: MAT 312 or MAT 314 •
Mechatronics Engineering: ME 301 or ME 303
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Graduation Project (Design) |
1 |
Fall 2023-2024 |
Graduation Project (Design) |
1 |
Spring 2022-2023 |
Graduation Project (Design) |
1 |
Fall 2022-2023 |
Graduation Project (Design) |
1 |
Spring 2021-2022 |
Graduation Project (Design) |
1 |
Fall 2021-2022 |
Graduation Project (Design) |
1 |
Spring 2020-2021 |
Graduation Project (Design) |
1 |
Fall 2020-2021 |
Graduation Project (Design) |
1 |
Spring 2019-2020 |
Graduation Project (Design) |
1 |
Fall 2019-2020 |
Graduation Project (Design) |
1 |
Spring 2018-2019 |
Graduation Project (Design) |
1 |
Fall 2018-2019 |
Graduation Project (Design) |
1 |
Spring 2017-2018 |
Graduation Project (Design) |
1 |
Fall 2017-2018 |
Graduation Project (Design) |
1 |
Spring 2016-2017 |
Graduation Project (Design) |
1 |
Fall 2016-2017 |
Graduation Project (Design) |
1 |
Spring 2015-2016 |
Graduation Project (Design) |
1 |
Fall 2015-2016 |
Graduation Project (Design) |
1 |
Spring 2014-2015 |
Graduation Project (Design) |
1 |
Fall 2014-2015 |
Graduation Project (Design) |
1 |
Spring 2013-2014 |
Graduation Project (Design) |
1 |
Fall 2013-2014 |
Graduation Project (Design) |
1 |
Spring 2012-2013 |
Graduation Project (Design) |
0 |
Fall 2012-2013 |
Graduation Project (Design) |
0 |
Spring 2011-2012 |
Graduation Project (Design) |
0 |
Fall 2011-2012 |
Graduation Project (Design) |
0 |
Spring 2010-2011 |
Graduation Project (Design) |
0 |
Fall 2010-2011 |
Graduation Project (Design) |
0 |
Spring 2009-2010 |
Graduation Project (Design) |
0 |
Fall 2009-2010 |
Graduation Project (Design) |
0 |
Spring 2008-2009 |
Graduation Project (Design) |
0 |
Fall 2008-2009 |
Graduation Project (Design) |
0 |
Spring 2007-2008 |
Graduation Project (Design) |
0 |
Fall 2007-2008 |
Graduation Project (Design) |
0 |
Spring 2006-2007 |
Graduation Project (Design) |
0 |
Fall 2006-2007 |
Graduation Project (Design) |
0 |
Spring 2005-2006 |
Graduation Project (Design) |
0 |
Fall 2005-2006 |
Graduation Project (Design) |
0 |
Spring 2004-2005 |
Graduation Project (Design) |
0 |
Fall 2004-2005 |
Graduation Project (Design) |
0 |
Fall 2003-2004 |
Graduation Project (Design) |
0 |
Fall 2002-2003 |
Graduation Project (Design) |
0 |
|
Prerequisite: __ |
Corequisite: ENS 491R |
ECTS Credit: 2 ECTS (2 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 491R Graduation Project: Case Study Session |
0 Credit |
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Graduation Project: Case Study Session |
0 |
Fall 2023-2024 |
Graduation Project: Case Study Session |
0 |
Spring 2022-2023 |
Graduation Project: Case Study Session |
0 |
Fall 2022-2023 |
Graduation Project: Case Study Session |
0 |
Spring 2021-2022 |
Graduation Project: Case Study Session |
0 |
Fall 2021-2022 |
Graduation Project: Case Study Session |
0 |
Spring 2020-2021 |
Graduation Project: Case Study Session |
0 |
Fall 2020-2021 |
Graduation Project: Case Study Session |
0 |
Spring 2019-2020 |
Graduation Project: Case Study Session |
0 |
Fall 2019-2020 |
Graduation Project: Case Study Session |
0 |
Spring 2018-2019 |
Graduation Project: Case Study Session |
0 |
Fall 2018-2019 |
Graduation Project: Case Study Session |
0 |
Spring 2017-2018 |
Graduation Project: Case Study Session |
0 |
Fall 2017-2018 |
Graduation Project: Case Study Session |
0 |
Spring 2016-2017 |
Graduation Project: Case Study Session |
0 |
Fall 2016-2017 |
Graduation Project: Case Study Session |
0 |
Fall 2002-2003 |
Graduation Project (Design) - Recitation |
0 |
|
Prerequisite: __ |
Corequisite: ENS 491 |
ECTS Credit: NONE ECTS (NONE ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|
ENS 492 Graduation Project (Implementation) |
3 Credits |
All students in FENS faculty are required to complete a
graduation project as a part of ENS 491 and ENS 492
course requirements. In these multidisciplinary projects,
students will have the opportunity to apply and develop
their knowledge in the area of their specialization in a
team environment. ENS 491 will involve general
lectures on engineering project development such as:
product planning, project management, establishing
product specifications, product metrics, cost analysis,
concept generation, concept selection and testing,
reliability, optimization, computer aided design and
manufacturing, prototyping etc. Students will implement
their designs in ENS 492. Students will be required to
submit progress reports, and seperate final reports for
ENS 491 and ENS 492
|
Last Offered Terms |
Course Name |
SU Credit |
Spring 2023-2024 |
Graduation Project (Implementation) |
3 |
Fall 2023-2024 |
Graduation Project (Implementation) |
3 |
Spring 2022-2023 |
Graduation Project (Implementation) |
3 |
Fall 2022-2023 |
Graduation Project (Implementation) |
3 |
Spring 2021-2022 |
Graduation Project (Implementation) |
3 |
Fall 2021-2022 |
Graduation Project (Implementation) |
3 |
Spring 2020-2021 |
Graduation Project (Implementation) |
3 |
Fall 2020-2021 |
Graduation Project (Implementation) |
3 |
Spring 2019-2020 |
Graduation Project (Implementation) |
3 |
Fall 2019-2020 |
Graduation Project (Implementation) |
3 |
Spring 2018-2019 |
Graduation Project (Implementation) |
3 |
Fall 2018-2019 |
Graduation Project (Implementation) |
3 |
Spring 2017-2018 |
Graduation Project (Implementation) |
3 |
Fall 2017-2018 |
Graduation Project (Implementation) |
3 |
Spring 2016-2017 |
Graduation Project (Implementation) |
3 |
Fall 2016-2017 |
Graduation Project (Implementation) |
3 |
Spring 2015-2016 |
Graduation Project (Implementation) |
3 |
Fall 2015-2016 |
Graduation Project (Implementation) |
3 |
Spring 2014-2015 |
Graduation Project (Implementation) |
3 |
Fall 2014-2015 |
Graduation Project (Implementation) |
3 |
Spring 2013-2014 |
Graduation Project (Implementation) |
3 |
Fall 2013-2014 |
Graduation Project (Implementation) |
3 |
Spring 2012-2013 |
Graduation Project (Implementation) |
3 |
Fall 2012-2013 |
Graduation Project (Implementation) |
3 |
Spring 2011-2012 |
Graduation Project (Implementation) |
4 |
Fall 2011-2012 |
Graduation Project (Implementation) |
4 |
Summer 2010-2011 |
Graduation Project (Implementation) |
4 |
Spring 2010-2011 |
Graduation Project (Implementation) |
4 |
Fall 2010-2011 |
Graduation Project (Implementation) |
4 |
Spring 2009-2010 |
Graduation Project (Implementation) |
4 |
Fall 2009-2010 |
Graduation Project (Implementation) |
4 |
Summer 2008-2009 |
Graduation Project (Implementation) |
4 |
Spring 2008-2009 |
Graduation Project (Implementation) |
4 |
Fall 2008-2009 |
Graduation Project (Implementation) |
4 |
Spring 2007-2008 |
Graduation Project (Implementation) |
4 |
Fall 2007-2008 |
Graduation Project (Implementation) |
4 |
Spring 2006-2007 |
Graduation Project (Implementation) |
4 |
Fall 2006-2007 |
Graduation Project (Implementation) |
4 |
Spring 2005-2006 |
Graduation Project (Implementation) |
4 |
Fall 2005-2006 |
Graduation Project (Implementation) |
4 |
Spring 2004-2005 |
Graduation Project (Implementation) |
4 |
Fall 2004-2005 |
Graduation Project (Implementation) |
4 |
Spring 2003-2004 |
Graduation Project (Implementation) |
4 |
Spring 2002-2003 |
Graduation Project (Implementation) |
4 |
|
Prerequisite: ENS 491 - Undergraduate - Min Grade S |
or ENS 491 - Undergraduate - Min Grade D |
Corequisite: __ |
ECTS Credit: 5 ECTS (2 ECTS for students admitted before 2013-14 Academic Year) |
General Requirements: |
|
|