Unit 5: Orthographic Projection of
Inclined Planes
Russ Schultz and Larry Smith
PowerPoint presentation created by
LaVonne Vichlach
1
Foreshortened Views



Inclined angles are
at right angles to
two of six principal
views
Appears as an
edge on those two
views
Remaining views
are foreshortened
Schultz and Smith: Blueprint
2
Foreshortened Views



Plane a appears as
edge in top and
bottom views
Foreshortened in
other four-twice
visible and twice
hidden
views to determine
true shape
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Foreshortened Views


Line “E” is created by the edge of principal plane
“V”
Both surfaces in the right hand view represent the
true shape
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Foreshortened Views


Line “I” is created by the intersection of inclined
plane “W” and the principal plane “X”
The right hand view represents one
foreshortened and one true shape
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Foreshortened Views


No line is created when curved surface “Y”
runs tangent with the principal plane “Z”
Combines foreshortening and true shape
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #1.
T
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #2.
E
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #3.
T
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #4.
E
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #5.
E
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #6.
T
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #7.
E
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #8.
T
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #9.
T
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #10.
T
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #11.
F
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #12.
I
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #13.
E
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #14.
T
Schultz and Smith: Blueprint
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #15.
E
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #16.
I
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #17.
F
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Surface Identification 4
E: Edge view of surface
I: Intersection of surfaces
F: Foreshortened surface
T: True shape
Identify the condition for
circle #18.
T
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Surface Identification 5
L
Enter the
letters
into the
balloons.
J
B
A
D G
F
H L
J
D
E
A
L
K
M
C
N
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Surface Identification 6
Place the letters
from the pictorial
views onto their
respective
surfaces in the
orthographic
views.
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Surface Identification 6
A
D
B
B
C
Place the letters
from the pictorial
views onto their
respective
surfaces in the
orthographic
views.
Schultz and Smith: Blueprint
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Surface Identification 6
B
D
A
D
E
C
Place the letters
from the pictorial
views onto their
respective
surfaces in the
orthographic
views.
Schultz and Smith: Blueprint
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Surface Identification 6
B
C
A
C
D
Place the letters
from the pictorial
views onto their
respective
surfaces in the
orthographic
views.
Schultz and Smith: Blueprint
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Surface Identification 6
A
F
D
B
H
E
C
G
Place the letters
from the pictorial
views onto their
respective
surfaces in the
orthographic
views.
Schultz and Smith: Blueprint
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Surface Identification 6
C
A
B
C
E
D
F
Place the letters
from the pictorial
views onto their
respective
surfaces in the
orthographic
views.
Schultz and Smith: Blueprint
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Surface Identification 6
E
C
A
B
D
B
Place the letters
from the pictorial
views onto their
respective
surfaces in the
orthographic
views.
Schultz and Smith: Blueprint
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Surface Identification 6
A
D
B
E
E
B
C
Place the letters
from the pictorial
views onto their
respective
surfaces in the
orthographic
views.
Schultz and Smith: Blueprint
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Angular Dimensions



Inclined planes dimensioned two ways
 Coordinate method
 Angular method
Angular method uses one linear and one
angular dimension-allows variation to increase
with distance from vertex
Coordinate controls accuracy more than
angular
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Angular Dimensions



Most angular
dimensions held
from vertical or
horizontal centerline
Easy to calculate
other angle from 90
All triangles have
180 
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Angular Dimensions



Right triangle always
has 90 angle
Other two angles
180 total in triangle
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Angular Dimensions


Isosceles triangle
has 2 sides equal
Two angles are also
equal
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Angular Dimensions


Equilateral triangle
has three equal
sides
Also has three equal
angles
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Angular Dimensions
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Angular Dimensions
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Angular
Block
1. Are the inclined
planes
dimensioned by
the coordinate
method or the
angular method?
Angular
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Angular
Block
2. What is the
tolerance
assigned to the
angular
dimensions?
030’
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Angular
Block
3. What is the
tolerance on the
liner
dimensions?
.020
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Angular
Block
4. What type of
line was drawn
on the front and
the top views to
permit them to
be shortened?
Long Break
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Angular
Block
5. How many
hidden lines
would appear on
a bottom view?
1
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Angular
Block
6. How many
hidden lines
would appear on
a left side view?
0
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Angular
Block
7. How many
inclined planes
does the object
contain?
2
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47
Angular
Block
8. How many
principal planes
does the object
contain?
8
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Angular
Block
9. How much
tolerance
accumulates
with dimension
“A?”
.04
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Angular
Block
10. What is the
MMC of the
overall height?
1.32
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Angular
Block
Enter the
dimension for the
letter “A.”
.60
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Angular
Block
Enter the
dimension for the
letter “B.”
.60
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Angular
Block
Enter the
dimension for the
letter “C.”
.70
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Angular
Block
Enter the
dimension for the
letter “D.”
.50
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Angular
Block
Enter the
dimension for the
letter “E.”
1.20
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Angular
Block
Enter the
dimension for the
letter “F.”
.60
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Angular
Block
Enter the
dimension for the
letter “G.”
45
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Angular
Block
Enter the
dimension for the
letter “H.”
.80
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Angular
Block
Enter the
dimension for the
letter “I.”
.20
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Angular
Block
Enter the
dimension for the
letter “J.”
135
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Surface
Identification 7
Enter the appropriate
letters to describe the
surfaces using:
PS: For principal surface
IS: For inclined surface
CS: For curved surface
1. IS
3. PS
2. PS
4. IS
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Surface
Identification 7
Enter the appropriate
letters to describe the
surfaces using:
PS: For principal surface
IS: For inclined surface
CS: For curved surface
5. IS
7. IS
6. PS
8. PS
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Surface
Identification 7
Enter the appropriate
letters to describe the
surfaces using:
PS: For principal surface
IS: For inclined surface
CS: For curved surface
9. PS
11. PS
10. CS
12. CS
Schultz and Smith: Blueprint
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Surface
Identification 7
Enter the appropriate
letters to describe the
surfaces using:
PS: For principal surface
IS: For inclined surface
CS: For curved surface
13. CS
15. CS
14. IS
16. IS
Schultz and Smith: Blueprint
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Surface
Identification 7
Enter the appropriate
letters to describe the
surfaces using:
PS: For principal surface
IS: For inclined surface
CS: For curved surface
17. CS
19. CS
18. IS
20. PS
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Surface
Identification 7
Enter the appropriate
letters to describe the
surfaces using:
PS: For principal surface
IS: For inclined surface
CS: For curved surface
21. PS
23. PS
22. IS
24. IS
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Angular
Calculations 1
Three sets of parallel
lines-calculate the
correct angle for each of
the following letters:
A
90
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Angular
Calculations 1
Three sets of parallel
lines-calculate the correct
angle for each of the
following letters:
B
180
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Angular
Calculations 1
Three sets of parallel
lines-calculate the
correct angle for each
of the following letters:
C
40
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Angular
Calculations 1
Three sets of parallel
lines-calculate the
correct angle for each
of the following letters:
D
50
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Angular
Calculations 1
Three sets of parallel
lines-calculate the correct
angle for each of the
following letters:
E
40
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Angular
Calculations 1
Three sets of parallel
lines-calculate the
correct angle for each
of the following letters:
F
130
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Angular
Calculations 1
Three sets of parallel
lines-calculate the
correct angle for each
of the following letters:
G
140
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Angular
Calculations 1
Three sets of parallel
lines-calculate the
correct angle for each
of the following letters:
H
230
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Angular
Calculations 1
Three sets of parallel
lines-calculate the
correct angle for each
of the following letters:
I
220
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Angular
Calculations 1
Three sets of parallel
lines-calculate the correct
angle for each of the
following letters:
J
320
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Angular
Calculations 2
Based on the 40 angular
dimensions (NTS) found
on the top view, calculate
the angular dimensions
for the following letters:
A
50
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Angular
Calculations 2
Based on the 40 angular
dimensions (NTS) found
on the top view, calculate
the angular dimensions
for the following letters:
B
40
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Angular
Calculations 2
Based on the 40 angular
dimensions (NTS) found
on the top view, calculate
the angular dimensions
for the following letters:
C
50
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Angular
Calculations 2
Based on the 40 angular
dimensions (NTS) found on
the top view, calculate the
angular dimensions for the
following letters:
D
40
Schultz and Smith: Blueprint
80
Angular
Calculations 2
Based on the 40 angular
dimensions (NTS) found on
the top view, calculate the
angular dimensions for the
following letters:
E
50
Schultz and Smith: Blueprint
81
Angular
Calculations 2
Based on the 40 angular
dimensions (NTS) found on
the top view, calculate the
angular dimensions for the
following letters:
F
40
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82
Angular
Calculations 2
Based on the 40 angular
dimensions (NTS) found on
the top view, calculate the
angular dimensions for the
following letters:
G
40
Schultz and Smith: Blueprint
83
Angular
Calculations 2
Based on the 40 angular
dimensions (NTS) found on
the top view, calculate the
angular dimensions for the
following letters:
H
100
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Included Angle

Included angle is angular
measurement taken




From one surface to another
Across a conical shape
Always less than 180°
Drill points and
countersinks commonly
dimensioned by included
angles
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Angular
Calculations 3
Calculate the
angles using the
objects to the left.
1. Included angle
between A and
B:
130
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Angular
Calculations 3
Calculate the
angles using the
objects to the left.
2. Included angle
between A and
C.
140
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Angular
Calculations 3
Calculate the angles
using the objects to
the right.
3. Included angle
between A and
D.
40
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Angular
Calculations 3
Calculate the angles
using the objects to
the right.
4. Angle “E”
125
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Angular
Calculations 3
Calculate the angles
using the objects to
the right.
5. Angle “F”
55
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90
Angular
Calculations 3
Calculate the angles
using the objects to
the right.
6. Angle “G”
35
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Angular
Calculations 3
Calculate the angles
using the objects to
the right.
7. Angle “H”
42
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Angular
Calculations 3
Calculate the angles
using the objects to
the right.
8. Angle “I”
47 45’
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Angular
Calculations 3
Calculate the angles
using the objects to
the right.
9. Angle “J”
47
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Angular
Calculations 3
Calculate the angles
using the objects to
the right.
10. Angle “K”
91
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View Selection 5
Circle the letter
that identifies the
correct
orthographic view
for each of the
pictorial views
shown.
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View Selection 5
Circle the letter
that identifies the
correct
orthographic view
for each of the
pictorial views
shown.
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97
View Selection 5
Circle the letter
that identifies the
correct
orthographic view
for each of the
pictorial views
shown.
Schultz and Smith: Blueprint
98
View Selection 5
Circle the letter
that identifies the
correct
orthographic view
for each of the
pictorial views
shown.
Schultz and Smith: Blueprint
99
View Selection 5
Circle the letter
that identifies the
correct
orthographic view
for each of the
pictorial views
shown.
Schultz and Smith: Blueprint
10
0
View Selection 5
Circle the letter
that identifies the
correct
orthographic view
for each of the
pictorial views
shown.
Schultz and Smith: Blueprint
10
1
View Selection 5
Circle the letter
that identifies the
correct
orthographic view
for each of the
pictorial views
shown.
Schultz and Smith: Blueprint
10
2
View Selection 5
Circle the letter
that identifies the
correct
orthographic view
for each of the
pictorial views
shown.
Schultz and Smith: Blueprint
10
3
View Selection 5
Circle the letter
that identifies the
correct
orthographic view
for each of the
pictorial views
shown.
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4
Missing Lines 1
lines to the top
and/or right side
views only.
Include the hidden
lines.
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5
Missing Lines 1
lines to the top
and/or right side
views only.
Include the hidden
lines.
Schultz and Smith: Blueprint
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6
Missing Lines 1
lines to the top
and/or right side
views only.
Include the hidden
lines.
Schultz and Smith: Blueprint
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7
Missing Lines 1
lines to the top
and/or right side
views only.
Include the hidden
lines.
Schultz and Smith: Blueprint
10
8
Missing Lines 1
lines to the top
and/or right side
views only.
Include the hidden
lines.
Schultz and Smith: Blueprint
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9
Missing Lines 1
lines to the top
and/or right side
views only.
Include the hidden
lines.
Schultz and Smith: Blueprint
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0
Slots And Grooves




Dovetail slots & tee slots (Tslots)-common used to
produce reciprocating
movement
E.G.-cross feed on a lathe
Depth always measured from
surface from which it is cut
Profile view is most
descriptive-shows depth and
width
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11
1
Slots And Grooves


Length of slot is
distance over which it
extends for function
Included angle of
dovetail slot or vee
groove is the angle
between the two
sides
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11
2
Slots And Grooves


V-grooves and slots
are machined with one
tool
Dovetails and T-Slots
require two operations


Machine primary
opening
Finish form tool
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3
Groove &
Slot
Exercise
Refer to the two
views above, then
enter the
appropriate
dimensions in the
table provided.
Schultz and Smith: Blueprint
.35
.40
.70
.60
.30
1.40
.95
.45
2.10
2.80
11
4
Sliding Tool
Block
1. What is the
overall height of
the block?
Sliding Tool
Block
2.50
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5
Sliding Tool
Block
2. What is the
depth of the
block?
2.00
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6
Sliding Tool
Block
3. What is the
depth of the
vee groove?
.75
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7
Sliding Tool
Block
4. What is the
depth of the
dovetail slot?
.25
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8
Sliding Tool
Block
5. What is the
width of the
vee groove?
1.50
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9
Sliding Tool
Block
6. What is the
length of the
dovetail slot?
2.50
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12
0
Sliding Tool
Block
7. What is the
length of the
vee groove?
1.00
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1
Sliding Tool
Block
8. What is the
included angle of
the vee groove?
90°
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2
Sliding Tool
Block
9. What is the
included angle of
the dovetail slot?
60°
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3
Sliding Tool
Block
10. What view shows
the profile of the
vee groove?
Front
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4
Sliding Tool
Block
11. What view shows
the profile of the
dovetail slot?
Rightside
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5
Sliding Tool
Block
12. How many
inclined surfaces
does the block
contain?
4
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6
Sliding Tool
Block
13. How much
tolerance
accumulates with
dimension “A”?
±.03
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7
Sliding Tool
Block
Enter the
dimension for
the letter “A”
.50
Schultz and Smith: Blueprint
12
8
Sliding Tool
Block
Enter the
dimension for
the letter “B”
.25
Schultz and Smith: Blueprint
12
9
Sliding Tool
Block
Enter the
dimension for
the letter “C”
1.25
Schultz and Smith: Blueprint
13
0
Sliding Tool
Block
Enter the
dimension for
the letter “D”
.25
Schultz and Smith: Blueprint
13
1
Sliding Tool
Block
Enter the
dimension for
the letter “E”
2.00
Schultz and Smith: Blueprint
13
2
Sliding Tool
Block
Enter the
dimension for
the letter “F”
1.00
Schultz and Smith: Blueprint
13
3
Sliding Tool
Block
Enter the
dimension for
the letter “G”
.50
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13
4
Surface
Identification 8
B
C
Place the letters
from the front
views into their
positions in the top
view for #1.
A
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5
Surface
Identification 8
Place the letters
from the front
views into their
positions in the top
view for #2.
C
B
D
A
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6
Surface
Identification 8
Place the letters
from the front
views into their
positions in the top
view for #3.
C
A
D
B
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7
Surface
Identification 8
Place the letters
from the front
views into their
positions in the top
view for #4.
A
E
D
C
B
Schultz and Smith: Blueprint
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8
Surface
Identification 8
B
E
C
Place the letters
from the front
views into their
positions in the top
view for #5.
A
D
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13
9
Surface
Identification 8
Place the letters
from the front
views into their
positions in the top
view for #6.
A
D
E
B
F
C
Schultz and Smith: Blueprint
14
0
Surface
Identification 8
Place the letters
from the front
views into their
positions in the top
view for #7.
C
A
B
F
D
E
Schultz and Smith: Blueprint
14
1
Angular Calculations 4
Refer to the drawing to
determine the values for
the angular dimensions
for each letter.
A=120°
Schultz and Smith: Blueprint
14
2
Angular Calculations 4
Refer to the drawing to
determine the values for
the angular dimensions
for each letter.
B=135°
C=125°
Schultz and Smith: Blueprint
14
3
Angular Calculations 4
Refer to the drawing to
determine the values for
the angular dimensions
for each letter.
D=56°
E=16°
Schultz and Smith: Blueprint
14
4
Angular Calculations 4
Refer to the drawing to
determine the values for
the angular dimensions
for each letter.
F=90°
G=66°
Schultz and Smith: Blueprint
14
5
Angular Calculations 4
Refer to the drawing to
determine the values for
the angular dimensions
for each letter.
H=99°
I=100°
J=40°
Schultz and Smith: Blueprint
14
6
Angular Calculations 4
Refer to the drawing to
determine the values for
the angular dimensions
for each letter.
K=89°
M=14°
L=28°
Schultz and Smith: Blueprint
14
7
Angular
Base
1. What is the
tolerance on
the height
dimension?
±.01
Schultz and Smith: Blueprint
14
8
Angular
Base
2. What is the
MMC of the
3.812
dimension?
3.817
Schultz and Smith: Blueprint
14
9
Angular
Base
3. How many
inclined planes
does the
object contain?
4
Schultz and Smith: Blueprint
15
0
Angular
Base
4. What angle is
the bottom of
the base from
vertical?
81°30’
Schultz and Smith: Blueprint
15
1
Angular
Base
5. What angle is
the 28°47’
surface from
vertical?
61°13’
Schultz and Smith: Blueprint
15
2
Angular
Base
6. What is the
maximum angular
dimension for the
28°47’ surface?
(Include the
tolerance in your
29°17’
Schultz and Smith: Blueprint
15
3
Angular
Base
7. What is the
included angle
between the two
bottom inclined
surfaces? (See
balloon 7.)
163°
Schultz and Smith: Blueprint
15
4
Angular
Base
8. What is the
included angle
between the two
top inclined
surfaces? (See
balloon 8.)
106° 13’
Schultz and Smith: Blueprint
15
5
Angular
Base
9. How many lines in
the side view
represent
intersections of
surfaces only, not
edges?
3
Schultz and Smith: Blueprint
15
6
Angular
Base
10. How many lines in
the top view
represent
intersections of
surfaces only, not
edges?
7
Schultz and Smith: Blueprint
15
7
Angular
Base
Enter the
dimensions for
the letter
A
.56
Schultz and Smith: Blueprint
15
8
Enter the
dimensions for
the letter
B
.58
Schultz and Smith: Blueprint
15
9
Angular
Base
Enter the
dimensions for
the letter
C
.11
Schultz and Smith: Blueprint
16
0
Angular
Base
Enter the
dimensions for
the letter
D
.33
Schultz and Smith: Blueprint
16
1
Angular
Base
Enter the
dimensions for
the letter
E
.22
Schultz and Smith: Blueprint
16
2
Angular
Base
Enter the
dimensions for
the letter
F
.78
Schultz and Smith: Blueprint
16
3
Angular
Base
Enter the
dimensions for
the letter
G
1.07
Schultz and Smith: Blueprint
16
4
Angular
Base
Enter the
dimensions for
the letter
H
1.906
Schultz and Smith: Blueprint
16
5
Angular
Base
Enter the
dimensions for
the letter
I
1.00
Schultz and Smith: Blueprint
16
6
Angular
Base
Enter the
dimensions for
the letter
J
.85
Schultz and Smith: Blueprint
16
7
View
Selection B
Circle the letter
that represents the
correct right side
view the the shape
shown
Schultz and Smith: Blueprint
16
8
View
Selection B
Circle the letter
that represents the
correct right side
view the the shape
shown
Schultz and Smith: Blueprint
16
9
View
Selection B
Circle the letter
that represents the
correct right side
view the the shape
shown
Schultz and Smith: Blueprint
17
0
View
Selection B
Circle the letter
that represents the
correct right side
view the the shape
shown
Schultz and Smith: Blueprint
17
1
View
Selection B
Circle the letter
that represents the
correct right side
view the the shape
shown
Schultz and Smith: Blueprint
17
2
View
Selection B
Circle the letter
that represents the
correct right side
view the the shape
shown
Schultz and Smith: Blueprint
17
3
View
Selection B
Circle the letter
that represents the
correct right side
view the the shape
shown
Schultz and Smith: Blueprint
17
4
View
Selection B
Circle the letter
that represents the
correct right side
view the the shape
shown
Schultz and Smith: Blueprint
17
5
View
Selection B
Circle the letter
that represents the
correct right side
view the the shape
shown
Schultz and Smith: Blueprint
17
6
Missing Lines 2
lines to complete
the view. Include
all hidden lines.
Schultz and Smith: Blueprint
17
7
Missing Lines 2
lines to complete
the view. Include
all hidden lines.
Schultz and Smith: Blueprint
17
8
Missing Lines 2
lines to complete
the view. Include
all hidden lines.
Schultz and Smith: Blueprint
17
9
Missing Lines 2
lines to complete
the view. Include
all hidden lines.
Schultz and Smith: Blueprint
18
0
View Selection 7
Select the correct orthographic
view to correspond with the
shown.
Schultz and Smith: Blueprint
18
1
View Selection 7
Select the correct orthographic
view to correspond with the
shown.
Schultz and Smith: Blueprint
18
2
View Selection 7
Select the correct orthographic
view to correspond with the
shown.
Schultz and Smith: Blueprint
18
3
View Selection 7
Select the correct orthographic
view to correspond with the
shown.
Schultz and Smith: Blueprint
18
4
View Selection 7
Select the correct orthographic
view to correspond with the
shown.
Schultz and Smith: Blueprint
18
5
View Selection 7
Select the correct orthographic
view to correspond with the
shown.
Schultz and Smith: Blueprint
18
6
View Selection 7
Select the correct orthographic
view to correspond with the
shown.
Schultz and Smith: Blueprint
18
7
View Selection 7
Select the correct orthographic
view to correspond with the
shown.
Schultz and Smith: Blueprint
18
8
View Selection 7
Select the correct orthographic
view to correspond with the
shown.
Schultz and Smith: Blueprint
18
9
View Selection 7
Select the correct orthographic
view to correspond with the
shown.
Schultz and Smith: Blueprint
19
0
View Selection 8
Each balloon represents the
position of a missing view.
Select the correct view.
Schultz and Smith: Blueprint
19
1
View Selection 8
Each balloon represents the
position of a missing view.
Select the correct view.
Schultz and Smith: Blueprint
19
2
View Selection 8
Each balloon represents the
position of a missing view.
Select the correct view.
Schultz and Smith: Blueprint
19
3
View Selection 8
Each balloon represents the
position of a missing view.
Select the correct view.
Schultz and Smith: Blueprint
19
4
View Selection 8
Each balloon represents the
position of a missing view.
Select the correct view.
Schultz and Smith: Blueprint
19
5
View Selection 8
Each balloon represents the
position of a missing view.
Select the correct view.
Schultz and Smith: Blueprint
19
6
View Selection 8
Each balloon represents the
position of a missing view.
Select the correct view.
Schultz and Smith: Blueprint
19
7
View Selection 8
Each balloon represents the
position of a missing view.
Select the correct view.
Schultz and Smith: Blueprint
19
8
View Selection 8
Each balloon represents the
position of a missing view.
Select the correct view.
Schultz and Smith: Blueprint
19
9
View Selection 8
Each balloon represents the
position of a missing view.
Select the correct view.
Schultz and Smith: Blueprint
20
0
Tool
Slide
1. What is the
length of the tee
slot?
3.48
Schultz and Smith: Blueprint
20
1
Tool
Slide
2. What is the
depth of the
dovetail slot?
.32
Schultz and Smith: Blueprint
20
2
Tool
Slide
3. What is the
length of the
dovetail slot?
1.10
Schultz and Smith: Blueprint
20
3
Tool
Slide
4. How much
tolerance can
accumulate in
the full depth of
the tee slot?
±.020
Schultz and Smith: Blueprint
20
4
Tool
Slide
5. How many
inclined surfaces
does the tool
slide contain?
6
Schultz and Smith: Blueprint
20
5
Tool
Slide
6. What angle is
created between
the two sides of
the dovetail slot?
70°
Schultz and Smith: Blueprint
20
6
Tool
Slide
7. What angle is
created between
the two outside
edges in the top
view?
40°
Schultz and Smith: Blueprint
20
7
Tool
Slide
8. What is the MMC
of the overall
depth of the tool
slide? (Top and
right side views.)
1.00
Schultz and Smith: Blueprint
20
8
Tool
Slide
9. What is the MMC of
the drilled holes?
(Observe separate
tolerance for drilled
holes.)
.248
Schultz and Smith: Blueprint
20
9
Tool
Slide
10. How many lines
(include hidden) in
the front view
represent surface
intersections only,
not edges?
12
Schultz and Smith: Blueprint
21
0
Tool
Slide
What is the
dimension for
the letter
A
40°
Schultz and Smith: Blueprint
21
1
What is the
dimension for
the letter
B
80°
Schultz and Smith: Blueprint
21
2
Tool
Slide
What is the
dimension for
the letter
C
50°
Schultz and Smith: Blueprint
21
3
Tool
Slide
What is the
dimension for
the letter
D
35°
Schultz and Smith: Blueprint
21
4
Tool
Slide
What is the
dimension for
the letter
E
.52
Schultz and Smith: Blueprint
21
5
Tool
Slide
What is the
dimension for
the letter
F
.46
Schultz and Smith: Blueprint
21
6
Tool
Slide
What is the
dimension for
the letter
G
.10
Schultz and Smith: Blueprint
21
7
Tool
Slide
What is the
dimension for
the letter
H
.58
Schultz and Smith: Blueprint
21
8
Tool
Slide
What is the
dimension for
the letter
I
.30
Schultz and Smith: Blueprint
21
9
Tool
Slide
What is the
dimension for
the letter
J
.58
Schultz and Smith: Blueprint
22
0
Similar View
Sketches
shapes that would
correspond with
the orthographic
views shown to
the left.
Schultz and Smith: Blueprint
22
1
Similar View
Sketches
shapes that would
correspond with
the orthographic
views shown to
the left.
Schultz and Smith: Blueprint
22
2
Similar View
Sketches
shapes that would
correspond with
the orthographic
views shown to
the left.
Schultz and Smith: Blueprint
22
3
Missing View 3
right-sides view to
each of the objects
shown above.
Schultz and Smith: Blueprint
22
4
Missing View 3
right-sides view to
each of the objects
shown above.
Schultz and Smith: Blueprint
22
5
Missing View 3
right-sides view to
each of the objects
shown above.
Schultz and Smith: Blueprint
22
6
Missing View 3
right-sides view to
each of the objects
shown above.
Schultz and Smith: Blueprint
22
7
Missing View 3
right-sides view to
each of the objects
shown above.
Schultz and Smith: Blueprint
22
8
Missing View 3
right-sides view to
each of the objects
shown above.
Schultz and Smith: Blueprint
22
9
Brain Teaser
The front side and
right-side views are
complete, with no
missing lines. Can
you solve the top
view?
Schultz and Smith: Blueprint
23
0
Brain Teaser
The front side and
right-side views
are complete, with
no missing lines.
Can you solve the
top view?
Schultz and Smith: Blueprint
23
1
Brain Teaser
The front side and
right-side views
are complete, with
no missing lines.
Can you solve the
top view?
Schultz and Smith: Blueprint
23
2
Brain Teaser
The front side and
right-side views
are complete, with
no missing lines.
Can you solve the
top view?
Schultz and Smith: Blueprint
23
3
Brain Teaser
The front side and
right-side views
are complete, with
no missing lines.
Can you solve the
top view?
Schultz and Smith: Blueprint
23
4
Brain Teaser
The front side and
right-side views
are complete, with
no missing lines.
Can you solve the
top view?
Schultz and Smith: Blueprint