CEE 320
Spring 2008
Vehicle Dynamics
Example Problems
Problem 2.2
A vehicle manufacturer is considering an engine for a new sedan (CD
= 0.25, Af = 17 ft2). The car will be tested at 100 mph maximum speed
on a concrete paved surface at sea level ( = 0.0023
CEE 320 Midterm 2
CEE 320 Midterm 2 Examination (50 minutes)
Fall 2010
Please write your name on this cover. Please write your last name on all other exam pages This exam is NOT open book, but you are allowed to use one 8.5x11 sheet of notes and a calcula
CEE 320 Final Examination (2 hours)
Please write your name on this cover. Please write you last name on all other exam pages There are 7 questions worth a total of 200 points. Each question lists the point value for that question. Please work quietly and
CEE 320
Winter 2008
Geometric & Pavement Design
Example Problems
Problem 3.15
CEE 320
Winter 2008
Due to crashes at a railroad crossing, an overpass (with a surface 24 ft
above the existing road) is to be constructed on an existing level
highway. The exis
Question 1: Short Answers
a) When a bottleneck is activated, is the departure rate equal to capacity, or the
arrival rate?
b) Using basic traffic stream models, if the jam density of a particular roadway is
500 vehicles/mile, what is the density at capaci
2013-2014 Winter Quarter
CEE 327 Practicing Midterm Examination I
Please write your name on this cover.
Please write your last name on all other exam pages.
This examination is open-book and open-notes.
There are three sections worth a total of 100 points
-CEE 327 Assignment #2
Geometric design
Winter 2016
Due on Jan. 19th
3.11 An equal-tangent crest vertical curve is designed with a PVI at station 110 + 00 (elevation
927.2 ft) and a PVC at station 107 + 43.3 (elevation 921.55 ft). If the high point is at
2013-2014 Winter Quarter
CEE 327 Midterm Examination I
Please write your name on this cover.
Please write your last name on all other exam pages.
This examination is open-book and open-notes.
There are three sections worth a total of 100 points.
Section I
CEE 327 Assignment #3
Traffic theory and highway design
Winter 2016
Due on Feb. 2nd
5.3 Four race cars are traveling on a 2.5-mile tri-oval track. The four cars are traveling at
constant speeds of 195 mi/h, 190 mi/h, 185 mi/h, and 180 mi/h, respectively.
CEE 327 Assignment #5
Intersection signal timing
Winter 2016
Due on March 1st
An intersection has a four-phase signal with the movements allowed in each phase and
corresponding analysis and saturation flow rates shown in the table below.
i.
ii.
iii.
iv.
v
CEE 327 Midterm #1 Solution Sheet
Section I
1.
2.
3.
4.
5.
(b)
(d)
(c)
(b)
(c)
Section II
1. F
2. T
3. F
4. T
5. F
6. T
7. T
8. T
9. T
10. T
Section III
1.
(1) Given: V1 = 62 mph,V2 = 0 mph, and a = 11.2 ft/s2
V 2 V22 (62 5280 / 3600) 2
d1 1
369.15 ft, o