session 4 multiview projection
TRANSCRIPT
![Page 1: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/1.jpg)
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DFTG-1305 Technical Drafting Prepared by Prof. Francis Ha
Session 4
Multiview Projection (or Orthographic Projection)
Reading: Geisecke’s textbook:
13th Ed. Chapter 4 – p.92
14th Ed. Chapter 5 – p.162
Update: 13-0612
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Engineering Graphics
What is Engineering Graphics?
What is an Engineering Drawing?
A drawing that communicates an idea or design.
A set of rules and guidelines that helps you to create an Engineering Drawing.
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Engineering Graphics
Examples of Engineering Drawings → Mechanical Drawings
• Detailed drawing of a part that needs to be machined.
→ Electromechanical Drawings
• Schematic Diagram – Enclosing design
• Printed Circuit Board layout & design
→ Civil Drawings
• Road layout and construction
• Bridge, freeway plans
→ Pipe Process Drawings
• Plant processing, pipelines
• Oil refineries and energy facilities
Architecture Drawings
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Summary
What will we learn in this Chapter?
→ How to create a multiview projection
Key points
→ A multiview projection is a 2-D
representation of a 3-D object.
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Introduction
Multiview projection is a 2-D drawing
representing a 3-D object.
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Introduction
A Multiview projection represents
different sides of an object.
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The Six Principle Views
The 6 principle
views are
created by
looking at the
object,
straight on, in
the directions
indicated.
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We will discuss the details of
1. Glass Box Method
2. Standard Views
3. Function of views
4. Lines Type and Line Weight
5. Rules for Line Creation and Use.
Multiview Projection
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Multiview Projection
1. The Glass Box Method
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The Glass Box Method
How do we create the six principle views?
→ Glass Box method:
• The object is placed in a glass box.
• The image of the object is projected on the sides
of the box.
• The box is unfolded.
• The sides of the box are the principle views.
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Glass Box Method
The object is
placed in a glass
box.
The sides of the
box represent the
6 principle planes.
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Glass Box Method
The image of
the object is
projected on
the sides of the
box.
Top view: Rhombus: equal sides
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Glass Box Method
Things to
notice: → The projection
planes.
→ The projectors.
→ How surfaces A
and B are
projected.
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Glass Box Method
The box is
unfolded creating
the 6 principle
views.
Top view: Rhombus: equal sides
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Glass Box Method
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Glass Box Method
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Exercise 1-1
Label the five principle views with the appropriate view
names.
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Exercise 1-1
Principle Views
In-class Practice
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Name
each
view
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Name
each
view.
Top
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Name
each
view.
Top
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Name
each
view.
Top
Right Side
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Name
each
view.
Top
Right Side
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Name
each
view.
Top
Rear Right Side
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Name
each
view.
Top
Rear Right Side
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Name
each
view.
Top
Rear Right Side Left Side
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Name
each
view.
Top
Rear Right Side
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Name
each
view.
Top
Rear Right Side Left Side
Bottom
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Conclusion
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What are the differences
between the Right Side
and Left Side views?
Top
Right Side Rear
Left Side
Bottom
Right & Left
Sides
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What are the differences
between the Right Side
and Left Side views?
Top
Right Side Rear
Left Side
Bottom
They are mirror -images
with one different line type.
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What are the differences
between the Top and
Bottom, and Front and
Rear views?
Top
Right Side
Rear
Left Side
Bottom
Top and Bottom Views
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What are the differences
between the Top and
Bottom, and Front and
Rear views?
Top
Right Side
Rear
Left Side
Bottom
They are mirror-images
with different line types.
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Which view(s) has the
least amount of hidden
or dashed lines?
Top
Right Side Rear Left Side
Bottom
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Which view(s) has the
least amount of hidden
or dashed lines?
Top
Right Side Rear Left Side
Bottom
Front and Top Views
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You must put the view names
at the bottom of each view.
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Multiview Projection
1. Glass Box Method
2. Standard Views
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Standard Views
When constructing a multiview projection,
we need to include enough views to
completely describe the true shape of the
part.
→ Complex drawing = more views
→ Simple drawing = less views
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Standard Views
The standard views used in a multiview
projection are:
→ Front view
→ Top view
→ Right side view
If any of the remaining views doesn’t
add any new information, ignore it.
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Standard Views
How many views do we need to
completely describe a block?
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Standard Views
How many views do we need to
completely describe a block?
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Standard Views
How many views do we need to
completely describe a block?
Two views.
The 3rd view
duplicates
information.
TOP
FRONT (No need)
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Standard Views
How many views do we need to
completely describe a sphere?
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Standard Views
How many views do we need to
completely describe a sphere?
One view.
Why? A
sphere has
only one
dimension.
It’s the
diameter.
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Multiview Projection
1. Glass Box Method
2. Standard Views
3. Function of views
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Front View
The front view shows the most features
or characteristics of the object.
→ It usually contains the least amount of
hidden lines.
→ The front view is chosen first and the other
views are based on the orientation of the
front view.
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View Alignment
The top and front views are aligned
vertically and share the same width
dimension.
The front and right side views are
aligned horizontally and share the same
height dimension.
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Multiview Projection
1. Glass Box Method
2. Standard Views
3. Function of views
4. Line Type and Line Weight
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Line Type and Line Weight
Line type and line weight provide
valuable information to the print
reader.
For example, line type and weight can answer the
following questions.
→ Is the feature visible or hidden from view?
→ Is the line part of the object or part of a dimension?
→ Is the line indicating symmetry?
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Line Type and Weight
There are four commonly used line
types:
→ Continuous _________________ (Visible)
→ Hidden _ _ _ _ _ _ _ _ _ _ _ _
→ Center ___ _ ___ _ ___ _ __
→ Phantom ___ _ _ ___ _ _ ____
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Line Type and Weight
Some lines are more important than
others. Importance is indicated by line
weight or thickness.
→ The thicker the line, the more important it is.
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Line Types
Visible lines:
→ Visible lines represent visible edges and
boundaries.
→ Continuous and thick
→ (0.5 or 0.7 mm, B or BB type).
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Line Types
Hidden lines:
→ Hidden lines represent edges and
boundaries that cannot be seen.
→ Dashed and medium thick
→ (0.3mm, HB).
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Line Types
Center lines:
→ Represent axes of symmetry on a circle or
cylinder.
→ Long dash – short dash and thin
(0.3 mm, HB).
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Line Types
Phantom line:
→ Phantom lines are used to indicate
imaginary features.
• alternate positions of moving parts.
• adjacent positions of related parts.
→ The line type is long dash – short dash –
short dash and the line weight is usually
thin (0.3 mm, HB).
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Exercise 1-2
Line types
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Exercise 1-2
Draw a visible, hidden, center and
phantom line.
Visible line Center line
Hidden line Phantom line
Skip to next part of the exercise
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Exercise 1-2
Draw a visible, hidden, center and
phantom line.
Skip to next part of the exercise
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Line Types
More on Center lines:
→ Important for interpreting cylindrical shapes.
→ Crossed center lines should be drawn at the
centers of circles.
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Line Types
More on Center lines:
→ They are also used to indicate circle of
centers and paths of motion.
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Line Types
Dimension and Extension lines:
→ Dimension and extension lines are used to
show the size of an object.
• In general, a dimension line is placed between
two extension lines and is terminated by
arrowheads, which indicates the direction and
extent of the dimension.
→ The line type is continuous and the line
weight is thin (0.3 mm, HB).
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Line Types
Cutting Plane line:
→ Cutting plane lines are used to show where
an imaginary cut has been made through
the object in order to view interior features.
→ The line type is phantom and the line
weight is very thick (0.9 mm, BB).
→ Arrows are placed at both ends of the
cutting plane line to indicate the direction of
sight.
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Skip to next part of the exercise
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Line Types
Section line:
→ Section lines are used to show areas that
have been cut by the cutting plane.
→ Section lines are grouped in parallel line
patterns and usually drawn at a 45 angle.
→ The line type is usually continuous and the
line weight is thin (0.3 mm, HB)
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Section Lines
This is how section
lines might look on
a drawing
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Line Types
Break line:
→ Break lines are used to show imaginary
breaks in objects.
→ A break line is usually made up of a series
of connecting arcs.
→ The line type is continuous and the line
weight is usually thick (0.5mm, HB or B).
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Exercise 1-3
Lines used in
a multiview projection
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Exercise 1-3
Fill the following dotted multiview projection with the appropriate line types.
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Fill in the visible lines
in to TOP view.
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Fill in the visible lines
in to FRONT view.
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Fill in the visible lines in
to RIGHT SIDE view.
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Fill in the HIDDEN lines into
front, top and right side views.
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Draw the center lines in all
the views.
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NOTICE: The small dashes
cross in the middle.
NOTICE:
The center line connects between
features in the same view.
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Multiview Projection
Break!
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Multiview Projection
1. Glass Box Method
2. Standard Views
3. Function of views
4. Lines Type and Weight
5. Rules for Line Creation and Use
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Rules for Line Creation and Use
The following rules will help us create
lines that communicates effectively. → CAUTION! Due to computer automation, some of
the rules may be hard to follow.
![Page 86: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/86.jpg)
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Using Hidden Lines
Hidden lines represent edges and
boundaries that cannot be seen.
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Creating Hidden Lines
Rule 1:
→ The length of the hidden line dashes may
vary slightly as the size of the drawing
changes.
![Page 88: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/88.jpg)
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Creating Hidden Lines
Rule 2:
→ Hidden lines
should always
begin and end
with a dash,
→ Exception: When
the hidden line
begins or ends at
a parallel visible
or hidden line.
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Creating Hidden Lines
Rule 3:
→ Dashes should join at corners.
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Using Center Lines
Center lines represent axes of
symmetry.
→ They are important for interpreting
cylindrical shapes.
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Using Center Lines Center lines represent axes of symmetry.
→ They are also used to indicate circle of
centers, and paths of motion.
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Creating Center Lines
Rule 1:
→ Center lines should start and end with long
dashes.
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Creating Center Lines
Rule 2:
→ Center lines should intersect by crossing
either the long dashes or the short dashes.
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Creating Center Lines
Rule 3:
→ Center lines should extend a short distance
beyond the object or feature.
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Creating Center Lines
Rule 4: → Center lines may be connected within a single
view to show that two or more features lie in the
same plane.
• Caution! Center lines should not extend through
the space between views .
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Using Phantom Lines
Phantom lines uses:
→ They may also be used to indicate adjacent
positions of related parts.
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Using Phantom Lines
Phantom lines uses:
→ Used to indicate repeated detail.
![Page 98: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/98.jpg)
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Using Phantom Lines
Phantom lines uses: → They are also used to show a change in surface
direction produced by fillets and rounds.
![Page 99: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/99.jpg)
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Using Phantom Lines
Phantom lines uses:
→ Used to indicate alternate positions of
moving parts.
![Page 100: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/100.jpg)
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Creating Phantom Lines
Rule 1:
→ Phantom lines should start and end with a
long dash.
![Page 101: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/101.jpg)
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Using Break Lines
Break lines are used to show imaginary
breaks in an object.
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Creating Break Lines
There are two types of break lines.
→ If the distance to traverse is short the series
of connecting arcs is used.
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Creating Break Lines
There are two types of break lines.
→ If the distance is long the thin straight line
with a jog is used.
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Line Precedence
If two lines occur in the same place, the line that is considered to be the least important is omitted.
Lines in order of precedence/importance are as follows;
→ Cutting plane line
→ Visible line
→ Hidden line
→ Centerline
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Multiview Projection
- The end -
![Page 106: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/106.jpg)
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EXTRA
for Chapter 1
Multiview Projection
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Multiview Projection (IF TIME PERMITTED 11-0913)
6. Creating a Multiview Projection
![Page 108: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/108.jpg)
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Creating a multiview projection
Choose a front view.
→ Which view shows the most about the
object?
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Creating a multiview projection
Decide how many views are needed.
→ How many and which views?
2 Front, Top
For procedural reasons, we will continue this example by drawing all 3 standard views.
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Creating a multiview projection
Draw the
visible
features of
the front
view.
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Creating a multiview projection
Draw
projectors
off of the
front view.
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Creating a multiview projection
Draw the
top view.
![Page 113: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/113.jpg)
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Creating a multiview projection
Project
back to the
front view.
![Page 114: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/114.jpg)
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Creating a multiview projection
Draw a 45
projector
off the front
view.
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Creating a multiview projection
Draw
projectors
over to the
45 line
and down.
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Creating a multiview projection
Draw the
right side
view.
![Page 117: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/117.jpg)
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Creating a multiview projection
Project
back if
needed.
![Page 118: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/118.jpg)
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Creating a multiview projection
Draw
centerlines
where
necessary.
![Page 119: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/119.jpg)
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Creating a multiview projection
![Page 120: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/120.jpg)
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Completed Drawing
![Page 121: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/121.jpg)
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Projection Symbol
United States = 3rd angle projection
Europe = 1st angle projection
![Page 122: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/122.jpg)
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Exercise 1-4 (extra)
In class practice:
Missing lines 1
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Exercise 1-4
Fill in the missing
lines in the front, right
side, and top views.
![Page 124: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/124.jpg)
1 missing
visible line in
the front view.
![Page 125: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/125.jpg)
The right side
view has 1
missing visible line
and 2 missing
hidden lines.
![Page 126: Session 4 Multiview Projection](https://reader031.vdocuments.net/reader031/viewer/2022020701/61f73d29370830536b7ea99b/html5/thumbnails/126.jpg)
The top view has
5 missing visible
lines and 2
missing hidden
lines.
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End of Chapter