Student Group Case Study #3
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Title of Case Study #3:
The Current Dominant Trends in Automotive
Design Engineering Related to the Development of
Driverless (self-driving) Motor Vehicles.
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Assigned: October 18, 2016
Due: November 2, 2016 (The full CS
Student Group Case Study #2
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Title of CS#2:
Analysis of the Critical Design Principles Applied to
Remotely Operated Underwater Vehicles (ROVs)
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Assigned: September 26, 2016
Due: October 19, 2016 (The full CS #2 related required paperwork submissio
Group Case Study #1 (slide 1 of 2)
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Case Study #1 Topic:
Analyze, Compare, and Discuss the Various Concurrent
Engineering and Design Principles Implemented on the following
Competing Projects: Airbus A380 (and/or A350) versus Boeing
777 (and/or Boeing 78
Solutions to Chapter 15 Exercise Problems
Problem 15.1
The figure below shows a system with two weights, WA and WB, which have been found to balance
a system of weights (not shown) on the shaft. The weights for W A and W B are 4 and 8 lb,
respectively, an
Solutions to Chapter 14 Exercise Problems
Problem 14.1
The four-wheeled vehicle shown slides down a steep slope with its rear wheels locked (not
moving relative to the body) and its front wheels rolling freely. If M is the mass of the vehicle, h
the norma
Solutions to Chapter 12 Exercise Problems
Problem 12.1
Find the angular velocity of gear 8 if the angular velocity of gear 2 is 800 rpm in the direction
shown.
3
7
5
15T
2
8
6
4
18T
25T
33T
44T
48T
18T
2
Solution:
The velocity ratio for the gear train is
Solutions to Chapter 13 Exercise Problems
Problem 13.1
In the mechanism shown, sketch a free-body diagram of each link, and determine the force P that
is necessary for equilibrium if T 12=90 N-m and = 90.
B
E
C
3
T12
CD = 125 mm
AD = 60 mm
ED = 200 mm
EF
Solutions to Chapter 11 Exercise Problems
Problem 11.1
Two helical gears are cut with a spur gear hob that has a diametral pitch of 4 and a pressure angle of
20. The pinion has 15 teeth, the gear has 35 teeth, and the helix angle is 30. Determine the mini
Solutions to Chapter 5 Exercise Problems
Problem 5.1 For the mechanism shown, do the following: a) Write the vector equation of the above linkage. b) Write the x and y displacement equations. c) Find the velocity component equations. d) Find the accelerat
Solutions to Chapter 6 Exercise Problems Problem 6.1: Design a double rocker, four-bar linkage so that the base link is 2-in and the output rocker is 1-in long. The input link turns counterclockwise 60 when the output link turns clockwise through 90. The
Solutions to Chapter 7 Exercise Problems
Problem 7.1 A coupler curve has the approximate straight-line section shown in the figure below. Design a four-bar linkage that will generate the portion of the curve shown. Describe the linkage in sufficient detai
Solutions to Chapter 10 Exercise Problems
Problem 10.1
Two spur gears have a diametral pitch of 6. Gear 2 has 24 teeth, and gear 3 has 48. The working
pressure angle is 20, and both gears are standard involutes. Determine the length of the contact
line an
Solutions to Chapter 9 Exercise Problems
Problem 9.1
For the information given, find the velocity of point C. Show all equations used with terms
properly labeled.
B
a
2
3
s
4
A
= 45, = 0.1 rad / s
= 90, = 0.1 rad / s
C
1
s = 2m, s = 0.5 m / s,
a = 2m
Solu
Solutions to Chapter 1 Exercise Problems
Problem 1.1 Find a mechanism as an isolated device or in a machine and make a realistic sketch of the mechanism. Then make a freehand sketch of the kinematic schematics for the mechanism chosen. Typical examples of
Solutions to Chapter 3 Exercise Problems Problem 3.1 In the figure below, points A and C have the same horizontal coordinate, and 3 = 30 rad/s. Draw and dimension the velocity polygon. Identify the sliding velocity between the block and the slide, and fin
Solutions to Chapter 2 Exercise Problems Problem 2.1 In the mechanism shown below, link 2 is rotating CCW at the rate of 2 rad/s (constant). In the position shown, link 2 is horizontal and link 4 is vertical. Write the appropriate vector equations, solve
Problem 2.21 Link 2 of the linkage shown in the figure has an angular velocity of 10 rad/s CCW. Find the angular velocity of link 6 and the velocities of points B, C, and D.
Y
C A 3 2 2 E 2 F 4 Position Analysis B 6 5 D
AE = 0.7" AB = 2.5" AC = 1.0" BC =
Solutions to Chapter 4 Exercise Problems Problem 4.1 Locate all of the instant centers in the mechanism shown below.
A 30 AB = 1.5" 2 63 B 3 1 4
Position Analysis Draw the linkage to scale. Start by locating point B. Then draw the line on which B must sli
Logistics
Logistics and Announcements
September 21, 2011
2011
Volunteers for CS2 8 groups needed
161 enrolled students and 28 groups in total.
Anyone left outside a group? Very last call!
Labs start THIS WEEK (week of September 19, 2011)
Lab attendanc
Logistics
Logistics and Announcements
September 19, 2011
2011
Submission of 5 groups volunteering for CS1 has been
completed Thank
completed. Thank you!
Volunteers for CS2 (one group submitted so far).
Same person appears in two groups (G11 and G26)! Choo
Logistics and Announcements
Lo
September 14, 2011
Submission of groups and volunteers for CS1.
Anyone left outside a group?
Labs start next week (week of September 19, 2011)
2011)
Lab attendance is mandatory and records will be kept.
Meccano kits will
ENGR 2310U Concurrent Engineering and Design
Lecture #0
Introductory Lecture
Prof. Remon Pop-Iliev, Ph.D, P.Eng.
Monday, September 12, 2011, 3:40-5:00 PM, UA1350
Faculty of Engineering and Applied Science
University of Ontario Institute of Technology
THE
University of Ontario Institute of Technology
Landing Gear Presentation
Gary Ataman MBA, M. Eng., P. Eng.
Manager of Product Improvement
Messier Bugatti Dowty
2011 09 28
This document and the information contained are Messier-Dowty property and shall not
ENGR3190U Manufacturing & Production Processes Lecture 10 (POST) Chapter 41 - Production Lines Introduction to production lines Analysis of manual production lines We will cover all sections in Chapter 41
1.0 Introduction Production Lines - important clas
Manufacturing & Production Processes ENGR3190U Lecture 09 - Calculations
Chapter 11 11.1.3 Buoyancy Calculations in Metal Casting During pouring, buoyancy of the molten metal tends to displace the core, which can cause casting to be defective Force tendin
Manufacturing and Production Processes ENGR 3190U Lecture 08 Part 2
Chapter 10 - Fundamentals of Metal Casting
We will covers all sections 1. 2. 3. 4. 5. Overview of Casting Technology Heating and Pouring Solidification and Cooling Sand Casting Video Cli
ENGR3190U: Manufacturing and Production Processes Lecture 08
G-codes Drilling - Notes
Example center drill A #3 center drill (HSS) is used to pre-drill some holes in aluminum part. Calculate the feed F and spindle speed S for this center drill. How deep s
ENGR3190U: Manufacturing and Production Processes Lecture 08
G-codes Drilling
There are various drilling operations in milling: G81 Spot or chamfer drilling cycle, (also called basic drill cycle). Use for drilling not too thick stock. G73 Chip break cycle