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A
$25.00
per
semester
student
computing
facility
user
fee
is
assessed
for
CSEM
engineering
courses.
This
fee
is
in
addition
to
any
lab/material
fees.
ES
101
(2
Credits)
Fall,
Spring
Introduction
to
Engineering
(1.5+2)
Overview
of
the
engineering
profession
and
introduction
to
the
fields
of
engineering.
Basic
concepts
from
engineering,
physics
and
mathematics
applied
to
engineering
problem
solving.
Basic
skills
required
of
engineers,
including
an
introduction
to
engineering
communications:
word
processing,
descriptive
geometry,
orthographic
and
isometric
drawings,
graphs,
computer
graphics
and
computer
aided
drawing
(CAD).
(Prerequisite:
MATH
107X;
Co-requisite:
MATH
108
or
calculus
placement.)
ES
201
(3
Credits)
Fall,
Spring
Computer
Techniques
(2+3)
Basic
computer
programming,
in
FORTRAN
and
BASIC,
with
applications
from
all
fields
of
engineering.
(Prerequisites:
MATH
107X
and
108
or
enrollment
in
MATH
200X.)
ES
208
(4
Credits)
Spring
Mechanics
(3+3)
Engineering-oriented
coverage
of
statics
and
dynamics.
Vector
methods
used
where
appropriate.
(Prerequisites:
ES
101,
MATH
201X,
and
PHYS
211X.)
ES
209
(3
Credits)
Fall,
Spring
Statics
(3+0)
Force
systems
in
two
and
three
dimensions.
Composition
and
resolution
of
forces
and
force
systems;
principles
of
equilibrium
applied
to
various
bodies,
simple
structures,
friction,
centroids,
moments
of
inertia.
Vector
algebra
used
where
appropriate.
(Prerequisites:
ES
101
and
MATH
201X;
co-requisite:
PHYS
211X.)
ES
210
(3
Credits)
Fall,
Spring
Dynamics
(3+0)
Motion
of
particles,
kinematics
and
kinetics
of
plane
motion
of
rigid
bodies,
and
principles
of
work
and
energy,
impulse
and
momentum.
Vector
methods
used
where
appropriate.
(Prerequisite:
ES
209.)
ES
301
(3
Credits)
Fall
Engineering
Analysis
(3+0)
Application
of
mathematical
tools
to
typical
engineering
design
problems.
Selected
topics
from
all
fields
of
engineering.
(Prerequisites:
ES
201,
MATH
302.)
ES
307
(3
Credits)
Fall
Elements
of
Electrical
Engineering
(3+0)
Elementary
circuits
and
theorems,
natural,
forced
and
steady
state
response,
principles
of
electronics,
circuit
models
and
system
parameters,
elements
of
measurement
and
instrumentation,
and
characteristics
of
DC
machines,
and
AC
machines
and
transformers.
(Prerequisite:
MATH
202X
or
permission
of
instructor.)
ES
308
(3
Credits)
Spring
Instrumentation
and
Measurement
(2+3)
(Cross-listed
with
ME
308)
Instrumentation
theory
and
concepts
of
digital
and
analog
devices,
transducers,
data
sensing
transmission,
recording,
and
display,
instrumentation
system,
remote
sensing,
and
hostile
environmental
conditions.
(Prerequisite:
ES
307.)
ES
331
(3
Credits)
Fall,
Spring
Mechanics
of
Materials
(2+3)
Analysis
of
internal
forces
in
members
subjected
to
axial,
torsional,
and
flexural
loads,
singly
and
in
combination.
Stress-strain
relationships
and
material
property
definitions;
shear
and
moment
diagrams,
Mohr's
Circle.
Applications
include
beams,
columns,
connections,
indeterminate
cases.
(Prerequisites:
ES
208
or
209
and
MATH
201X.)
ES
334
(3
Credits)
Fall
Elements
of
Material
Science/Engineering
(2+3)
(Cross-listed
with
ME
334)
Properties
of
engineering
materials.
Crystal
structure,
defect
structure,
structure
and
properties,
aspects
of
metal
processing,
heat
treatment,
joining,
testing,
and
failure
analysis
for
engineering
applications
and
design.
(Prerequisites:
CHEM
106X
and
PHYS
212X.)
ES
341
(4
Credits)
Fall,
Spring
Fluid
Mechanics
(3+3)
Statics
and
dynamics
of
fluids;
energy
and
momentum
principles.
Dimensional
analysis;
flow
in
open
channels,
closed
conduits
and
around
submerged
bodies.
(Prerequisites:
MATH
201X
and
ES
208
or
210.)
ES
346
(3
Credits)
Fall,
Spring
Basic
Thermodynamics
(3+0)
Thermodynamic
systems,
properties,
processes,
and
cycles.
Fundamental
principles
of
thermodynamics
(first
and
second
laws),
and
elementary
applications.
(Prerequisites:
MATH
201X
and
PHYS
211X.)
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