Descriptive Geometry - PowerPoint PPT Presentation

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Descriptive Geometry

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This is ppt show for Descriptive Geometry. This is a subject that deals with orthographic projection of points, lines, planes as well as solids. The subject helps in developing the concept of orthographic projection. – PowerPoint PPT presentation

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Title: Descriptive Geometry


1
DESCRIPTIVE GEOMETRY
  • Dr. Tarun Kanti Naskar
  • Prof. Mechanical Engineering Department
  • Jadavpur University
  • Kolkata, India

2
Projections on 3 Principal Planes
P
Rays of light
V
H
3
Projection of a Solid
4
3 Principal Planes Convention of Rotation
V
P
P
V
H
H
5
1st Angle Projection Solid
6
Projection of a solid
7
3 views of a solid 1st angle
PP
GL
8
Projection of a solid
9
Views in 4 Quadrants
10
Views in 4 Quadrants
No to lt2
11
Views in 4 Quadrants
12
Views in 4 Quadrants
No to lt4
13
3rd Angle Projection Solid
14
3rd Angle Projection
15
Multi-view Projections
16
Projection of a Point
A
17
Projection of a Point
P
A
V
H
18
3 views of a point
19
Projection of a Line
A
B
20
Types of Lines
  • Oblique Line
  • Horizontal Line
  • Frontal Line
  • Profile Line
  • Horizontal-Frontal Line
  • Horizontal-Profile Line
  • Frontal-Profile Line or Vertical Line

21
Projection of an Oblique Line 3 Views
22
Projections of a Horizontal Line
A
B
23
Projection of a Frontal Line
AB is parallel to Front plane, called Frontal
Line. Other similar lines are Horizontal
Profile lines.
True lengths are obtained.
True lengths are obtained for these lines.
B
24
3 Views of a line Frontal Line
25
Horizontal-Frontal Line
TL
TL
TL
PROJECTION OF DIFFERENT SPECIAL LINES
Profile Line
Vertical Line
TL
TL
Horizontal-Profile Line
26
True Length of a Line Revolution Method
A2
OA is an oblique line.
It is revolved about O keeping at a fixed
distance from H-plane.
A
A1
Two positions are obtained, OA1 OA2, when the
line is parallel to V-plane.
True lengths will be obtained on V-plane for
these positions.
O
27
TL and True Angle a of a Line Revolution Method
TL
28
True Length of a Line Revolution Method
29
TL and True Angle b of a Line Revolution Method
TL
30
True Length of a Line Auxiliary View Method
Auxiliary Plane A parallel to oblique line PQ
perpendicular to H
A
Q
V
TL
a
P
H
31
True Lengths Angles by Auxiliary View Method
TL
g
TL
32
True Shape of a Plane
H
TS
V
EV
TL
B
Projections of an oblique plane
A
33
Traces of a Line
34
Traces of a Line
35
Traces of a Plane
Q is an oblique plane in space
V
The plane is extended to intersect V H planes
VQ HQ are the respective traces
The traces intersect at a point on GL Traces of
any line on the plane Q will lie on VQ HQ.
VQ
H
Q
HQ
36
Traces of a Plane Normal to HP Angle with VP
Q
VQ
VQ
PQ
HQ
HQ
37
Finding Dihedral Angle
If two planes in space are intersecting, there
must be a plane which is normal to both the
planes.
Q
A
R
P Q are two planes in space with line of
intersection AB.
P
RQ
Plane R is normal to the line of intersection AB
of the planes P Q. RP RQ are the traces of
the planes on R.
B
RP
Included angle between traces RP RQ is the
dihedral angle.
38
Point of Intersection of Line Plane
Point of intersection of line plane
H
Angle between line plane
TL of Line EV of Plane
Projections of point of intersection
C
B
True Shape (TS) of Plane
V
Edge View (EV) of Plane
A
True Length Line on plane
39
Line of Intersection of two Planes 1 2 and
Dihedral Angle between them
Line of intersection
2
1
2
H
A
V
EV
1
2
Points of intersection
TL
1
Line of intersection
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