MIE 301
##### MIE 301 - University Of Toronto Study Resources
• 48 Pages
• ###### MIE301 - Chapter 4 - Solutions
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###### MIE301 - Chapter 4 - Solutions

School: University Of Toronto

• 3 Pages
###### Prob07 2013

School: University Of Toronto

MIE 301F Problem Set #7 C P8.2* C P8.6* C P8.10* C Supplementary Problem #3* * required for submission DUE: Friday, November 29, 2013, 5:00 pm _ Additional Suggested Problems C P8.3 C P8.5 C P8.7 C P8.9 Supplementary Problem #3 The attached figure shows a

• 8 Pages
• ###### Midterm_2_2014_solutions
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###### Midterm_2_2014_solutions

School: University Of Toronto

Last Name: P1 (35 pts) Consider the figure On the following page. Partially-solved velocity and acceleration polygons are provided. ' 1*! Pom! (IN-7| 62:262rmeW re” Cogeo d - 7. EL _ '2 4r s a) Find 96 and its direction. b) Find IEHI in cm/s2 and clearly

• 2 Pages
• ###### MIE301 - Midterm 2 - 2010
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###### MIE301 - Midterm 2 - 2010

School: University Of Toronto

UNIVERSITY OF TORONTO FACULTY OF APPLIED SCIENCE AND ENGINEERING TERM TEST 2, NOVEMBER 17, 2010 MIE 30lF - KINEMATICS AND DYNAMICS OF MACHINES Examiner - Professor 'V.L. Cleghorn Notes: - only \witten/printed aid: aid sheet - answer all questions - durati

• 3 Pages
• ###### MIE301 - Midterm 2 - 2012
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###### MIE301 - Midterm 2 - 2012

School: University Of Toronto

SURNAME: FIRST Name: Student #: Question 3 Consider the mechanism in the configuration shown below: 3.0 cm 10.0 cm (NOT TO SCALE NOT SCALE) You may use the following values (plus those indicated on the diagram) to test your solution: (+, 2# 4.0 ./; ( 3 20

• 2 Pages
• ###### MIE301_Fall2015_DesignProject
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###### MIE301_Fall2015_DesignProject

School: University Of Toronto

MIE301 Design Project: Fall 2015 The MIE301 design project requires student groups of 4-5 students to design and analyze a machine containing mechanisms studied in the course, including linkages and optionally, gears and cams or other basic mechanisms. Th

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• ###### MIE301_Fall2015_syllabus
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###### MIE301_Fall2015_syllabus

School: University Of Toronto

MIE301 H1F- FALL 2015 KINEMATICS AND DYNAMICS OF MACHINES Department of Mechanical and Industrial Engineering University of Toronto Course Topics Classifications of mechanisms, velocity, acceleration and force analysis, graphical and computer-oriented met

• 69 Pages
###### L02-04

School: University Of Toronto

Introduction Lecture 2: Motivation 1/3/2015 MIE315 Be Proactive Engineers should consider the environmental impacts when designing products and processes (i.e. be proactive). What else should be considered? What are processes and products? 1/3/2015 MIE3

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• ###### MTE301_FinalReport_Template
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###### MTE301_FinalReport_Template

School: University Of Toronto

DEPARTMENTOFMECHANICALANDINDUSTRIALENGINEERING, UNIVERSITYOFTORONTO ProjectName MIE301:FinalDesignReport *Date* Student1# Student2# Student3# Group# TableofContents 1. Group # 2 1 ExampleSection 1.1 Examplesubsection 2 NotesonReportFormat Maximum report l

• 9 Pages
###### Midterm 2_2014

School: University Of Toronto

Last Name: First Name: Student #: MIE301F Kinematics and Dynamics of Machinery Midterm 2 3:10-4:40 PM; November 17, 2014 Examiner: Prof. Eric Diller P1 / 35 P2 / 35 P3 / 30 Total / 100 Notes: Show all of your work and methods clearly to receive full credi

• 3 Pages
###### Test 2 MIE301F 2013

School: University Of Toronto

UNIVERSITY OF TORONTO FACULTY OF APPLIED SCIENCE AND ENGINEERING TERM TEST 2, NOVENIBER 15, 2013 MIE 301F - KINEMATICS AND DYNAMICS OF MACHINES Examiner - Professor W.L. Cleghom Notes: — only written/printed aid: aid sheet - answer all questions — duratio

• 6 Pages
• ###### MIE301 - Problem Set 6_2015
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###### MIE301 - Problem Set 6_2015

School: University Of Toronto

MIE301 Problem Set 6 Due: November 18, 2015 at noon in the dropbox outside RS208 Static Force Analysis Use the attached worksheets if you like (not required) Problem 1 (P12). Consider the clamping mechanism below in the configuration shown. Determine the

• 10 Pages
• ###### MIE301 - Problem Set 4 - 2015_soln
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###### MIE301 - Problem Set 4 - 2015_soln

School: University Of Toronto

3.32 3.35 3.36 3.37 3.60 3.61 3.66 3.67 3.68 3.69

• 3 Pages
• ###### MIE301 - Problem Set 4 - 2015
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###### MIE301 - Problem Set 4 - 2015

School: University Of Toronto

MIE301 Problem Set 4 - 2015 Velocity and Acceleration Polygons Due: October 29, 2015 to the dropbox outside RS208 Problems marked (optional) will not be marked, but are suggested as preparation for the exams. From Mechanics of Machines (2nd edition): Chap

• 5 Pages
• ###### MIE301 - Problem Set 5_2015
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###### MIE301 - Problem Set 5_2015

School: University Of Toronto

MIE301 Problem Set 5 Due: November 11th, 2015 to dropbox outside RS208 Vector Loop Analysis The last two are optional problems (P4 and P5). P1 For the mechanism shown below (and in the configuration shown), determine the rotational speed of link 2 and the

• 8 Pages
• ###### MIE301H1_20159_641445223063MIE301 - Solution for Problem Set 3 2015
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###### MIE301H1_20159_641445223063MIE301 - Solution for Problem Set 3 2015

School: University Of Toronto

2.31 P1 P2 2.32 2.22 P3 P4 PS3-P4: a) VP2,3 rP1,2 P2,3 2 3.6 cm 10 rad/s VP2,3 = rP1,3 P2,3 3 9.6 cm 3 3.6 10 3 3.75 rad/s CW 9.6 b) VD VP2,6 rP1,2 P2,6 2 4.6 cm 10 rad/s = 46 cm/s P5. Theta2 dot is changed here to 40rpm from 400 rpm, so all velocities

• 3 Pages
• ###### MIE301H1_20159_641445222995MIE301 - Solution for Problem Set 2 2015
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###### MIE301H1_20159_641445222995MIE301 - Solution for Problem Set 2 2015

School: University Of Toronto

MIE310 Problemn Set 2 Solutions 2015 Benjamin Turnbull October 7, 2015 P1 a) Link 6 will be stationary if link 5 is stationary or if link 5 is vertical. Link 5 will only stop moving if link3 stops rotating. This happens when a right angle is formed betwee

• 7 Pages
• ###### MIE301H1_20159_641445222869MIE301 - Solution for Problem Set 1 2015
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###### MIE301H1_20159_641445222869MIE301 - Solution for Problem Set 1 2015

School: University Of Toronto

MIE301 Solutions for Problem Set 1 P1. Draw a kinematic stick-diagram representation of each of the mechanisms shown in Figure P1. Label the input, output and ground links, where appropriate. Also label key features such as handles and jaws. A. Solution:

• 15 Pages
• ###### Test 2 MIE301F 2013 SOLUTIONS
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###### Test 2 MIE301F 2013 SOLUTIONS

School: University Of Toronto

/-w/ ﬂiﬁgﬂ/ﬂ W 79ng @377": g % 9&9}? v" ﬁﬂéUf/QME D1 onl D3 0113 @P C/OSLJ/e Equaﬁon (Dz/9. -' C3 , 6'3) ﬂ,_/Q3’IQZ:O /- 2 [(26 21/ @fﬂ/OOI’) 5/775? w/ CN”@605€3~V1605€2¢§ U) fmai/‘na Com/when%5 0) g 6055; ~ -/} » F2 60ng (—3) (2): I;

• 48 Pages
• ###### MIE301 - Chapter 4 - Solutions
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###### MIE301 - Chapter 4 - Solutions

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• 5 Pages
• ###### MIE301 - Supplementary Notes - Diagrams 9
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###### MIE301 - Supplementary Notes - Diagrams 9

School: University Of Toronto

MIE301 Supplementary Notes Lecture 9 and 10, 2014 1 MIE301 Supplementary Notes Lecture 9 and 10, 2014 2 VelocityAnalysisofMechanisms UsingVelocityPolygonMethod GeneralProcedure: 1. Drawascalediagramofthemechanism,intheconfigurationunderanalysis 2. Setupap

• 2 Pages
###### Prob06 2013

School: University Of Toronto

MIE 301F Problem Set #6 C P5.13* C P5.14* C P5.15* C SUPPLEMENTARY PROBLEM #2* * required for submission DUE: Friday, November 8, 2013, 5:00 pm _ Additional Suggested Problems C P5.9 C P6.2 C P6.4 Supplementary Problem 2 The following information pertains

• 8 Pages
• ###### solutions 07.mie301f 2013
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###### solutions 07.mie301f 2013

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• 14 Pages
• ###### solutions supp 02 mie301f 2013
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###### solutions supp 02 mie301f 2013

School: University Of Toronto

5'2! M/EBWF * Suzpplemen fairy Prob/em 52?! #2 - SUM/770.46 PéJ/ (a)(i) 8 ed 0 mink so: = 5" QITE'W C W t " T 5 H MC) in.) = N1 : . S l 7; HR; 51 00 27 x _ 37.5 ~ sec (52) we goluc fm» 3: 4457.5 The 9?.224 of ns: sum 30:»? is, mt=ér+ y :- 44-42-52er

• 8 Pages
• ###### solutions supp 03 mie301f 2013
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###### solutions supp 03 mie301f 2013

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• 13 Pages
• ###### solutions 06 mie301f 2013
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###### solutions 06 mie301f 2013

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• 52 Pages
###### Ch-13

School: University Of Toronto

CONTENTS CONTENTS 428 l Theory of Machines 13 eatur tures Features 1. Introduction. Gear Trains 2. Types of Gear Trains. 3. Simple Gear Train. 4. Compound Gear Train. 5. Design of Spur Gears. 6. Reverted Gear Train. 7. Epicyclic Gear Train. 8. Velocity Ra

• 13 Pages
###### solutions 01

School: University Of Toronto

/~/ P/J (a) n = 6 ' *urnl'n Pail/'5) 5 /' " 5/iain pair, / /' ' roll/r103 pair) / , 5+II./+/ : 7) ' 2 dO/loah5, m: 3(/5"/>~2& &2- = aCax) 2x7=4 (b) n = 6 %urnim% pairs, 5) a Shaina pairs, 2 /' ° ro/lz'npairs, 0 (Kg, " 5+2+O=7) ID/.23 (a) n = 6

• 10 Pages
###### solutions 02

School: University Of Toronto

2/ l_ M/EBO/F Prob/em 5d #2 - 504 ({7ng5 P2.) 102.5, (a) geomelcs ér which Velochy of link 6 is Zero (/2 4, limh ,aasi-h'ans) I IimH' geome'l'ry 62a) -- cos" @2022 /020a) = 05-, (ad/5'0) =53/O 62(2) = 560° r 2") = 306.9" (b) 8e speed o

• 11 Pages
###### solutions 03

School: University Of Toronto