Presentation is loading. Please wait.

Presentation is loading. Please wait.

Made by Nick Johnson Continue. Table of Content Start Lesson How to QuizTeachers.

Published byOlivia Stone Modified over 9 years ago

Similar presentations

Presentation on theme: "Made by Nick Johnson Continue. Table of Content Start Lesson How to QuizTeachers."— Presentation transcript:

1 Made by Nick Johnson Continue

2 Table of Content Start Lesson How to QuizTeachers

3 The Interface Use this to move back a slide Use this to go back to the Table of Contents Use this to move forward a slide

4 The Lessons Design Analysis (statics) (RECOMMENDED TO DO FIRST)

5 What Is A Truss?  A truss consists of straight members that connect at joints that form a triangular shape.

6 What Does A Truss Do?  Trusses are engineered to help hold the forces that will be placed on the object.  An example is snow on a roof.

7 Two Truss Categories All Trusses will fall under these two categories. - Pitched Truss- Parallel Chord Truss

8 The Categories  Characterized for it’s triangular shape  Usually used for roof construction  Will always have a parallel top and bottom chords.  Is often used for bridge design or floor construction. Pitched TrussParallel Chord Truss

9 Parts of a Truss Top Chord Gusset Kings Post Truss Web Bottom Chord Click Each Part to Learn More

10 Top Chord  An inclined or horizontal member(s) that establishes the top surface member of a truss Top Chord

11 Bottom Chords  Horizontal or inclined member that establishes the bottom edge of the truss Bottom Chord

12 Truss Web  Often given to the shorter members that join the top and bottom chords, which form triangular patterns in that truss. Truss Web

13 King Post  Is used to help support the peak or top of the common truss. King Post

14 Gussets  Used everywhere the web supports and king post intersect the top and bottom chord as well as at the bearing point Gussets

15 Types of Trusses Common TrussFlat Truss

16 Types of Trusses Double FinkBowstring Truss

17 Types of Trusses ScissorsDual Pitch

18 Great Job!  You have just finished one half of the lesson. Go ahead and take a short 5 minute break and come back and finish the other lesson.

19 Statics Example: F C = 15 lb 10in 6in

20 What You Need to Know The Sign Convention + +Y +X

21 What You Need to Know Attachments == FxFx FyFy PinRoller FyFy

22 Formulas  ∑F x = 0, all the forces in the x direction must equal zero.  ∑F y = 0, all the forces in the y direction must equal zero.  ∑M = 0, all the moments around one point must equal zero.

23 Solving  Lets go back to the example. F C = 15 lb 10i n 6in

24 Free Body Diagram  This is a drawing that shows all the forces that are acting on the model.

25 Solving  Now transfer the model into a FBD. F C = 15 lb 10in 6in F Ax F Ay F By 3in

26 Solving  Find which direction has one unknown.  You can look and see that the x direction has one unknown. Steps: ∑ F X = 0 0 = F ax F ax = 0

27 Solving  Now lets look at the y direction.  How many unknowns are there?  There are two unknowns so we will have to use moments. F C = 15 lb 10in 6in F ax = 0 F Ay F By 3in

28 Solving  So a moment is a force times it’s perpendicular distance to the selected point. Ex. M= F ∙ d 6in F Ay F By  So you have to pick a point that will cancel a unknown.  So let us pick point A

29 Solving for the Moment  Steps: ∑M A = 0 0 = F ax (d) + F ay (d) + F by (d) + F c (d) 0 = 0(0) + F ay (0) + F by (6) -15(3) F by = 7.5lb

30 Solving For F Ay  Now that you found one of the unknowns you can solve for F Ay. ∑ F ay = 0 0 = F ay + F by + F c 0= F ay + 7.5 – 15 F ay = 7.5lb

31 Why are these Important? Roof Failure

32 Why are these Important? Bridge Failure

33 Congrats! You have now finished the lesson you may now take the quiz or go back to the main menu. Quiz

34 Question 1 1) What is a Truss used for? a) Support forces from above. Support forces from above. b) It is used for looks. It is used for looks. c) They are used to frame a door. They are used to frame a door.

35 I’m Sorry You answer the question incorrectly. Please go back and try again. Review

36 What Does A Truss Do?  Trusses are engineered to help hold the forces that will be placed on the object.  An example is snow on a roof. Back To Question

37 That’s Right You answered the question correct! Next Question

38 Question 2 a) Roof Failure Roof Failure b) Bridge Failure Bridge Failure c) Nothing will happen Nothing will happen d) Both A & B Both A & B 2) What can happen if a truss is made wrong?

39 I’m Sorry You answer the question incorrectly. Please go back and try again. Review

40 Why Is This Important?  Roof Failure  Bridge Failure  It maximize the amount of strength that can be held. Back To Question

41 That’s Right You answered the question correct! Next Question

42 Question 3 a) Bottom Chord Bottom Chord b) Top Chord Top Chord c) King Post King Post d) Truss Web Truss Web 3) Name this Part.

43 I’m Sorry You answer the question incorrectly. Please go back and try again. Review

44 Parts of a Truss Top Chord Gusset Kings Post Truss Web Bottom Chord Click Each Part to Learn More Back To Question

45 Top Chord  An inclined or horizontal member(s) that establishes the top surface member of a truss Top Chord

46 Bottom Chords  Horizontal or inclined member that establishes the bottom edge of the truss Bottom Chord

47 Truss Web  Often given to the shorter members that join the top and bottom chords, which form triangular patterns in that truss. Truss Web

48 King Post  Is used to help support the peak or top of the common truss. King Post

49 Gussets  Used everywhere the web supports and king post intersect the top and bottom chord as well as at the bearing point Gussets

50 That’s Right You answered the question correct! Next Question

51 Question 4 a) Gusset Gusset b) Bearing Point Bearing Point c) Top Chord Top Chord d) Truss Web Truss Web 4) Name this Part.

52 I’m Sorry You answer the question incorrectly. Please go back and try again. Review

53 Parts of a Truss Top Chord Gusset Kings Post Truss Web Bottom Chord Click Each Part to Learn More Back To Question

54 Top Chord  An inclined or horizontal member(s) that establishes the top surface member of a truss Top Chord

55 Bottom Chords  Horizontal or inclined member that establishes the bottom edge of the truss Bottom Chord

56 Truss Web  Often given to the shorter members that join the top and bottom chords, which form triangular patterns in that truss. Truss Web

57 King Post  Is used to help support the peak or top of the common truss. King Post

58 Gussets  Used everywhere the web supports and king post intersect the top and bottom chord as well as at the bearing point Gussets

59 That’s Right You answered the question correct! Next Question

60 Question 5 a) Clear Span Clear Span b) Gable Gable c) King Post King Post d) Truss Web Truss Web 5) Name this Part.

61 I’m Sorry You answer the question incorrectly. Please go back and try again. Review

62 Parts of a Truss Top Chord Gusset Kings Post Truss Web Bottom Chord Click Each Part to Learn More Back To Question

63 Top Chord  An inclined or horizontal member(s) that establishes the top surface member of a truss Top Chord

64 Bottom Chords  Horizontal or inclined member that establishes the bottom edge of the truss Bottom Chord

65 Truss Web  Often given to the shorter members that join the top and bottom chords, which form triangular patterns in that truss. Truss Web

66 King Post  Is used to help support the peak or top of the common truss. King Post

67 Gussets  Used everywhere the web supports and king post intersect the top and bottom chord as well as at the bearing point Gussets

68 That’s Right You answered the question correct! Next Question

69 Question 6 a) Top Chord Top Chord b) Truss Web Truss Web c) Gusset Gusset d) Bottom Chord Bottom Chord 6) Name this Part.

70 I’m Sorry You answer the question incorrectly. Please go back and try again. Review

71 Parts of a Truss Top Chord Gusset Kings Post Truss Web Bottom Chord Click Each Part to Learn More Back To Question

72 Top Chord  An inclined or horizontal member(s) that establishes the top surface member of a truss Top Chord

73 Bottom Chords  Horizontal or inclined member that establishes the bottom edge of the truss Bottom Chord

74 Truss Web  Often given to the shorter members that join the top and bottom chords, which form triangular patterns in that truss. Truss Web

75 King Post  Is used to help support the peak or top of the common truss. King Post

76 Gussets  Used everywhere the web supports and king post intersect the top and bottom chord as well as at the bearing point Gussets

77 That’s Right You answered the question correct! Next Question

78 Question 7 a) Common Common b) Flat Flat c) Bowstring Bowstring 7) What is the name of this truss?

79 I’m Sorry You answer the question incorrectly. Please go back and try again. Review

80 Types of Trusses Common TrussFlat Truss

81 Types of Trusses Double FinkBowstring Truss

82 Types of Trusses ScissorsDual Pitch Back To Question

83 That’s Right You answered the question correct! Next Question

84 Question 8 a) Scissors Scissors b) Dual Pitch Dual Pitch c) Double Fink Double Fink 8) What is the name of this truss?

85 I’m Sorry You answer the question incorrectly. Please go back and try again. Review

86 Types of Trusses Common TrussFlat Truss

87 Types of Trusses Double FinkBowstring Truss

88 Types of Trusses ScissorsDual Pitch Back To Question

89 That’s Right You answered the question correct! Next Question

90 Question 9 a) Double Fink Double Fink b) Flat Flat c) Bowstring Bowstring 9) What is the name of this truss?

91 I’m Sorry You answer the question incorrectly. Please go back and try again. Review

92 Types of Trusses Common TrussFlat Truss

93 Types of Trusses Double FinkBowstring Truss

94 Types of Trusses ScissorsDual Pitch Back To Question

95 That’s Right You answered the question correct! Next Question

96 Question 10 a) 5lb 5lb b) 4lb 4lb c) 5lb 5lb d) 4lb 4lb 10) Solve for F ay ? F C = 10 lb 5in 4in F Ax F Ay F By 2in

97 I’m Sorry You answer the question incorrectly. Please go back and try again. Review

98 Solving  Find which direction has one unknown.  You can look and see that the x direction has one unknown. Steps: ∑ F X = 0 0 = F ax F ax = 0

99 Solving  Now lets look at the y direction.  How many unknowns are there?  There are two unknowns so we will have to use moments. F C = 15 lb 10in 6in F ax = 0 F Ay F By 3in

100 Solving  So a moment is a force times it’s perpendicular distance to the selected point. Ex. M= F ∙ d 6in F Ay F By  So you have to pick a point that will cancel a unknown.  So let us pick point A

101 Solving for the Moment  Steps: ∑M A = 0 0 = F ax (d) + F ay (d) + F by (d) + F c (d) 0 = 0(0) + F ay (0) + F by (6) -15(3) F by = 7.5lb

102 Solving For F Ay  Now that you found one of the unknowns you can solve for F Ay. ∑ F ay = 0 0 = F ay + F by + F c 0= F ay + 7.5 – 15 F ay = 7.5lb Back To Question

103 Congrats! You have completed the Quiz!

104 Objectives:  After completing with lesson, students will be able to distinguish the all of the different parts when given a truss.  After completing this lesson, students will be able to analyze the forces on the truss when given specific numbers to about 80% accuracy.

105 Target Audience  Grades 9-12  People in construction.  Home builders  Do-it-yourselfers

106 Learning Environment  During a lab period.  As individuals or in a group of around 2-3 people.

Download ppt "Made by Nick Johnson Continue. Table of Content Start Lesson How to QuizTeachers."

Similar presentations

Structural Steel Construction

Structural Steel Construction
EQUATIONS OF EQUILIBRIUM & TWO- AND THREE-FORCE MEMEBERS

EQUATIONS OF EQUILIBRIUM & TWO- AND THREE-FORCE MEMEBERS
Calculating Truss Forces

Calculating Truss Forces
ECIV 320 Structural Analysis I Analysis of Statically Determinate Trusses.

ECIV 320 Structural Analysis I Analysis of Statically Determinate Trusses.
Roof Framing Unit 33.

Roof Framing Unit 33.
TRUSS. Definition of a Truss Trusses are framed structures composed of short, straight pieces joined to form a series of triangles which are made of wood.

TRUSS. Definition of a Truss Trusses are framed structures composed of short, straight pieces joined to form a series of triangles which are made of wood.
Competency: Draw roof plans

Competency: Draw roof plans
EQUATIONS OF EQUILIBRIUM & TWO- AND THREE-FORCE MEMEBERS

EQUATIONS OF EQUILIBRIUM & TWO- AND THREE-FORCE MEMEBERS
Copyright 2006 The National Association of Certified Home Inspectors

Copyright 2006 The National Association of Certified Home Inspectors
Multiplication & Division Aoife Whiteacre.  Content Area: Mathematics  Grade Level: 3 rd  Summary: The purpose of this PowerPoint is to give students.

Multiplication & Division Aoife Whiteacre.  Content Area: Mathematics  Grade Level: 3 rd  Summary: The purpose of this PowerPoint is to give students.
DESIGN OF TRUSS ROOF Chapter 7

DESIGN OF TRUSS ROOF Chapter 7
UNT in partnership with TEA, Copyright ©. All rights reserved.

UNT in partnership with TEA, Copyright ©. All rights reserved.
Ceiling Framing Unit 32.

Ceiling Framing Unit 32.
Roof and Ceiling Framing

Roof and Ceiling Framing
Engineering Mechanics: Statics

Engineering Mechanics: Statics
Solving Force Probmems Physics Mr. Maloney © 2002 Mike Maloney Objectives You will be able to  diagram Force problems  use FBDs to analyze and solve.

Solving Force Probmems Physics Mr. Maloney © 2002 Mike Maloney Objectives You will be able to  diagram Force problems  use FBDs to analyze and solve.
Bridges Introduction to design.

Bridges Introduction to design.
Statics, Fourteenth Edition R.C. Hibbeler Copyright ©2016 by Pearson Education, Inc. All rights reserved. In-Class Activities: Check Homework Reading Quiz.

Statics, Fourteenth Edition R.C. Hibbeler Copyright ©2016 by Pearson Education, Inc. All rights reserved. In-Class Activities: Check Homework Reading Quiz.
Simple trusses A truss structure is composed of slender members joined together at their end points A truss structure is composed of slender members joined.

Simple trusses A truss structure is composed of slender members joined together at their end points A truss structure is composed of slender members joined.
Free Body Diagrams Free Body Diagrams Principles of EngineeringTM

Free Body Diagrams Free Body Diagrams Principles of EngineeringTM

Similar presentations

Ads by Google