Name_
1. An extrusion die is used to produce aluminum rods. Specifications are given for the length and
the diameter of the rods. For each rod, the length is classified as too short, too long, or OK,
CE 382
Structural Analysis
Spring 2010
Exam 1
12:30-1:45
Crib Sheet
Problem 1
/10
2
/10
3
/10
4
/10
Total
/40
Grade
/100
I have neither given nor received unauthorized assistance on this exam.
Printed
CE 382 Structural Analysis
Instructor: Brad Davis, Ph.D., S.E.
Homework Assignment 6
Assigned:
Due:
September 27
October 5
Problem 1
Develop the shear and bending moment diagrams.
Problem 2
Develop th
CE 382 Structural Analysis
Instructor: Brad Davis, Ph.D., S.E.
Homework Assignment 5
Assigned:
Due:
September 20
September 28
Problem 1
Determine the forces resisted by
Members 1, 6, and 7.
Problem 2
CE 382 Structural Analysis
Instructor: Brad Davis, Ph.D., S.E.
Homework Assignment 7
Assigned:
Due:
October 4
October 12
Problem 1
a.
b.
c.
d.
Compute the vertical deflection at midspan due to flexura
CE 382 Structural Analysis
Instructor: Brad Davis, Ph.D., S.E.
Homework Assignment 8
Assigned:
Due:
October 11
October 19
Problem 1
E = 29000 ksi, I = 400 in.4
Consider only flexural deformations.
Com
CE 382 - Structural Analysis
Team Homework Assignment #10 Force Method of Analysis
Due Date: Thursday April 20, 2017
1. For the beam structure to the right,
choose the support reaction at B as
the red
CE 382 - Structural Analysis
Individual Homework Assignment #8 Envelope Curves
Due: Tuesday April 4, 2017
1. For points a, b, c, d, and e sketch the qualitative shear and moment influence line diagram
CE 382 - Structural Analysis
Team Homework Assignment #6
Due Date: Tuesday March 21, 2017
i4 30' >14 10' -L 15' -i
1. For the given beam problem above, calculate and draw the inuence line equa
Team Homework Assignment #5
Due Date: Thursday February 23, 2017
1. For problem 2 in homework assignment #4, calculate the vertical displacement at the internal
hinge.
2. For the frame problem (proble
CE 382 Structural Analysis
Homework Assignment #4
Due Date: Thursday, February 16, 2017
1. Calculate and draw the shear force and
bending moment equations for the
following beam structure (A is a pinn
1.
CE 382 - Structural Analysis
Team Homework Assignment #7
Due Date: Thursday March
lllkN 3llkN IDkN
For the truss shown on the
right, calculate the maximum m
23,2017
vertical reaction at G, maxi
CE 382 - Structural Analysis
Team Homework Assignment
Homework Assignment #9 Approximate Analysis
Due: Thursday April 6, 2017
1. Perform an approximate analysis of the truss structure assuming the pan
CE 382 Structural Analysis
Homework Assignment #3
Due Date: Thursday, February 9 2017
1. Determine the forces in all bars of the truss
to the right. Indicate whether the bar is in
tension or compressi
CE 382 Structural Analysis
Homework Assignment #2
Due Date: Thursday, February 2, 2017
Calculate the support reactions for the given structures. Solve the beam structure problem;
second problem on the
Formula Sheet
P ( A )+ P ( A ' ) =1
( x x )2
n!
r ! ( nr ) !
F ( x) P( X x)
x
n1
F ( x )=P ( X x )= f (t )
t x
f (t ) dt.
X xf ( x)dx.
X2 ( x X ) 2 f ( x)dx
X xP( X x)
x
Distribution pmf or pdf
n
CE 382 Structural Analysis
Instructor: Brad Davis, Ph.D., S.E.
Homework Assignment 3
Assigned:
Due:
September 6
September 14
Please refer to the framing plans on the following page.
Floor Loads
Slab
Chapter 3
3. TRAFFIC FLOW FUNDAMENTALS
3.1. INTRODUCTION
The effectiveness of a highway design is evaluated based on a number of quantitative and qualitative
elements. Such elements include the number
Chapter 2
2.
ROUTE GEOMETRY
2.1. HORIZONTAL ALIGNMENT
The horizontal alignment of a highway or railroad consists of a series of straight lines connected by
curves. Two basic curve shapes are used, an
Chapter 6
6.
TRANSPORTATION PLANNING
6.1. INTRODUCTION
Transportation planning is a very broad field. It deals with planning for the future of all modes of
transportation with the objective of maximiz
5-1
Chapter 5
5. INTERSECTIONS
5.1. INTRODUCTION
Intersections are the physical component of the roadways where two highways intersect. They are the
most complex element of roadways, since it requires