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Engineering Drawing 
MECHANICAL ENGINEERING DEPARTMENT 
L.J. POLYTECHNIC 
Missamraza 
Page 2


Engineering Drawing 
MECHANICAL ENGINEERING DEPARTMENT 
L.J. POLYTECHNIC 
Missamraza 
TO DRAW PROJECTIONS OF ANY OBJECT,  
ONE MUST HAVE FOLLOWING INFORMATION 
A) OBJECT  
 { WITH IT’S DESCRIPTION, WELL DEFINED.} 
B) OBSERVER  
 { ALWAYS OBSERVING PERPENDICULAR TO RESP. REF.PLANE}. 
C) LOCATION OF OBJECT,  
 { MEANS IT’S POSITION WITH REFFERENCE TO H.P. & V.P.} 
TERMS ‘ABOVE’ & ‘BELOW’ WITH RESPECTIVE TO H.P.  
AND TERMS ‘INFRONT’ & ‘BEHIND’ WITH RESPECTIVE TO V.P  
FORM 4 QUADRANTS.  
OBJECTS CAN BE PLACED IN ANY ONE OF THESE 4 QUADRANTS. 
 
IT IS INTERESTING TO LEARN THE EFFECT ON THE POSITIONS OF VIEWS ( FV, TV )  
OF THE OBJECT WITH RESP. TO X-Y LINE, WHEN PLACED IN DIFFERENT QUADRANTS. 
ORTHOGRAPHIC PROJECTIONS 
OF POINTS, LINES, PLANES, AND SOLIDS. 
STUDY ILLUSTRATIONS GIVEN ON HEXT PAGES AND NOTE THE RESULTS.TO MAKE IT EASY  
HERE A POINT   A   IS TAKEN AS AN OBJECT. BECAUSE IT’S ALL VIEWS ARE JUST POINTS. 
Page 3


Engineering Drawing 
MECHANICAL ENGINEERING DEPARTMENT 
L.J. POLYTECHNIC 
Missamraza 
TO DRAW PROJECTIONS OF ANY OBJECT,  
ONE MUST HAVE FOLLOWING INFORMATION 
A) OBJECT  
 { WITH IT’S DESCRIPTION, WELL DEFINED.} 
B) OBSERVER  
 { ALWAYS OBSERVING PERPENDICULAR TO RESP. REF.PLANE}. 
C) LOCATION OF OBJECT,  
 { MEANS IT’S POSITION WITH REFFERENCE TO H.P. & V.P.} 
TERMS ‘ABOVE’ & ‘BELOW’ WITH RESPECTIVE TO H.P.  
AND TERMS ‘INFRONT’ & ‘BEHIND’ WITH RESPECTIVE TO V.P  
FORM 4 QUADRANTS.  
OBJECTS CAN BE PLACED IN ANY ONE OF THESE 4 QUADRANTS. 
 
IT IS INTERESTING TO LEARN THE EFFECT ON THE POSITIONS OF VIEWS ( FV, TV )  
OF THE OBJECT WITH RESP. TO X-Y LINE, WHEN PLACED IN DIFFERENT QUADRANTS. 
ORTHOGRAPHIC PROJECTIONS 
OF POINTS, LINES, PLANES, AND SOLIDS. 
STUDY ILLUSTRATIONS GIVEN ON HEXT PAGES AND NOTE THE RESULTS.TO MAKE IT EASY  
HERE A POINT   A   IS TAKEN AS AN OBJECT. BECAUSE IT’S ALL VIEWS ARE JUST POINTS. 
NOTATIONS  
 
FOLLOWING NOTATIONS SHOULD BE FOLLOWED WHILE NAMEING 
DIFFERENT VIEWS IN ORTHOGRAPHIC PROJECTIONS. 
IT’S FRONT VIEW        a’                              a’ b’ 
SAME SYSTEM OF NOTATIONS SHOULD BE FOLLOWED   
                                                     INCASE NUMBERS, LIKE 1, 2, 3 – ARE USED. 
OBJECT               POINT  A                    LINE  AB 
IT’S TOP VIEW             a                               a b 
IT’S SIDE VIEW            a”                             a” b” 
Page 4


Engineering Drawing 
MECHANICAL ENGINEERING DEPARTMENT 
L.J. POLYTECHNIC 
Missamraza 
TO DRAW PROJECTIONS OF ANY OBJECT,  
ONE MUST HAVE FOLLOWING INFORMATION 
A) OBJECT  
 { WITH IT’S DESCRIPTION, WELL DEFINED.} 
B) OBSERVER  
 { ALWAYS OBSERVING PERPENDICULAR TO RESP. REF.PLANE}. 
C) LOCATION OF OBJECT,  
 { MEANS IT’S POSITION WITH REFFERENCE TO H.P. & V.P.} 
TERMS ‘ABOVE’ & ‘BELOW’ WITH RESPECTIVE TO H.P.  
AND TERMS ‘INFRONT’ & ‘BEHIND’ WITH RESPECTIVE TO V.P  
FORM 4 QUADRANTS.  
OBJECTS CAN BE PLACED IN ANY ONE OF THESE 4 QUADRANTS. 
 
IT IS INTERESTING TO LEARN THE EFFECT ON THE POSITIONS OF VIEWS ( FV, TV )  
OF THE OBJECT WITH RESP. TO X-Y LINE, WHEN PLACED IN DIFFERENT QUADRANTS. 
ORTHOGRAPHIC PROJECTIONS 
OF POINTS, LINES, PLANES, AND SOLIDS. 
STUDY ILLUSTRATIONS GIVEN ON HEXT PAGES AND NOTE THE RESULTS.TO MAKE IT EASY  
HERE A POINT   A   IS TAKEN AS AN OBJECT. BECAUSE IT’S ALL VIEWS ARE JUST POINTS. 
NOTATIONS  
 
FOLLOWING NOTATIONS SHOULD BE FOLLOWED WHILE NAMEING 
DIFFERENT VIEWS IN ORTHOGRAPHIC PROJECTIONS. 
IT’S FRONT VIEW        a’                              a’ b’ 
SAME SYSTEM OF NOTATIONS SHOULD BE FOLLOWED   
                                                     INCASE NUMBERS, LIKE 1, 2, 3 – ARE USED. 
OBJECT               POINT  A                    LINE  AB 
IT’S TOP VIEW             a                               a b 
IT’S SIDE VIEW            a”                             a” b” 
X 
Y 
1
ST
 Quad. 
2
nd
  Quad. 
3
rd
  Quad. 
4
th
 Quad. 
X  Y 
VP 
HP 
Observer 
THIS QUADRANT PATTERN,  
IF OBSERVED ALONG X-Y LINE ( IN RED ARROW DIRECTION) 
WILL EXACTLY APPEAR AS SHOWN ON RIGHT SIDE AND HENCE, 
IT IS FURTHER USED TO UNDERSTAND ILLUSTRATION PROPERLLY. 
Page 5


Engineering Drawing 
MECHANICAL ENGINEERING DEPARTMENT 
L.J. POLYTECHNIC 
Missamraza 
TO DRAW PROJECTIONS OF ANY OBJECT,  
ONE MUST HAVE FOLLOWING INFORMATION 
A) OBJECT  
 { WITH IT’S DESCRIPTION, WELL DEFINED.} 
B) OBSERVER  
 { ALWAYS OBSERVING PERPENDICULAR TO RESP. REF.PLANE}. 
C) LOCATION OF OBJECT,  
 { MEANS IT’S POSITION WITH REFFERENCE TO H.P. & V.P.} 
TERMS ‘ABOVE’ & ‘BELOW’ WITH RESPECTIVE TO H.P.  
AND TERMS ‘INFRONT’ & ‘BEHIND’ WITH RESPECTIVE TO V.P  
FORM 4 QUADRANTS.  
OBJECTS CAN BE PLACED IN ANY ONE OF THESE 4 QUADRANTS. 
 
IT IS INTERESTING TO LEARN THE EFFECT ON THE POSITIONS OF VIEWS ( FV, TV )  
OF THE OBJECT WITH RESP. TO X-Y LINE, WHEN PLACED IN DIFFERENT QUADRANTS. 
ORTHOGRAPHIC PROJECTIONS 
OF POINTS, LINES, PLANES, AND SOLIDS. 
STUDY ILLUSTRATIONS GIVEN ON HEXT PAGES AND NOTE THE RESULTS.TO MAKE IT EASY  
HERE A POINT   A   IS TAKEN AS AN OBJECT. BECAUSE IT’S ALL VIEWS ARE JUST POINTS. 
NOTATIONS  
 
FOLLOWING NOTATIONS SHOULD BE FOLLOWED WHILE NAMEING 
DIFFERENT VIEWS IN ORTHOGRAPHIC PROJECTIONS. 
IT’S FRONT VIEW        a’                              a’ b’ 
SAME SYSTEM OF NOTATIONS SHOULD BE FOLLOWED   
                                                     INCASE NUMBERS, LIKE 1, 2, 3 – ARE USED. 
OBJECT               POINT  A                    LINE  AB 
IT’S TOP VIEW             a                               a b 
IT’S SIDE VIEW            a”                             a” b” 
X 
Y 
1
ST
 Quad. 
2
nd
  Quad. 
3
rd
  Quad. 
4
th
 Quad. 
X  Y 
VP 
HP 
Observer 
THIS QUADRANT PATTERN,  
IF OBSERVED ALONG X-Y LINE ( IN RED ARROW DIRECTION) 
WILL EXACTLY APPEAR AS SHOWN ON RIGHT SIDE AND HENCE, 
IT IS FURTHER USED TO UNDERSTAND ILLUSTRATION PROPERLLY. 
HP 
VP 
a’ 
a 
A 
POINT A IN 
1
ST
 QUADRANT 
OBSERVER 
VP 
HP 
POINT A IN 
2
ND
 QUADRANT 
OBSERVER 
a’ 
a 
A 
OBSERVER 
a 
a’ 
POINT A IN 
3
RD
  QUADRANT 
HP 
VP 
A 
OBSERVER 
a 
a’ 
POINT A IN 
4
TH
  QUADRANT 
HP 
VP 
A 
Point A is  
Placed In  
different  
quadrants 
and it’s Fv & Tv  
are brought in  
same plane for  
Observer to see  
clearly.  
Fv is visible as 
it is a view on  
VP. But as Tv is 
 is a view on Hp,  
it is rotated 
downward 90
0
,  
In clockwise  
direction.The  
In front part of 
 Hp comes below  
xy line and the  
part behind Vp  
comes above. 
 
Observe and  
note the  
process.

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FAQs on Engineering Drawing - BE Mechanical Engineering

1. What is engineering drawing?

Ans. Engineering drawing is a graphical representation of an object or structure using various symbols, lines, and dimensions. It is used to communicate technical details and specifications to engineers, manufacturers, and other stakeholders involved in the design and production process.

2. What are the different types of engineering drawings?

Ans. There are several types of engineering drawings, including: 1. Orthographic projection: This type of drawing represents a three-dimensional object using two-dimensional views from multiple angles. 2. Isometric projection: It shows a three-dimensional object on a two-dimensional plane, with all three axes equally foreshortened. 3. Sectional view: This drawing technique is used to reveal the internal structure of an object by cutting it along a specific plane and showing the exposed interior. 4. Exploded view: It demonstrates the assembly and disassembly of a complex object by separating its components to clearly illustrate their relationship. 5. Pictorial view: This type of drawing provides a realistic representation of an object, often used to showcase its appearance and features.

3. What are the common symbols used in engineering drawings?

Ans. Engineering drawings use various symbols to represent different features and components. Some common symbols include: 1. Dimension lines: These lines indicate the size and location of features, such as length, width, and height. 2. Geometric symbols: These symbols represent shapes, angles, and positions, such as circles, squares, triangles, and parallel lines. 3. Surface finish symbols: These symbols indicate the desired surface texture or roughness of a component. 4. Arrowheads: These symbols show the direction and extent of dimensions, notes, or other annotations. 5. Section lines: These lines are used in sectional views to indicate the cut surfaces and differentiate them from the rest of the object.

4. What is the importance of engineering drawing in mechanical engineering?

Ans. Engineering drawing is crucial in mechanical engineering for several reasons: 1. Design communication: It allows engineers to effectively communicate their design ideas and specifications to other team members, manufacturers, and stakeholders. 2. Accuracy and precision: Engineering drawings ensure that the dimensions, tolerances, and other specifications are accurately communicated, leading to precise manufacturing and assembly processes. 3. Documentation: Drawings serve as a permanent record of the design and manufacturing details, facilitating future reference, modifications, and troubleshooting. 4. Quality control: Engineering drawings are essential for inspecting and verifying the manufactured components, ensuring they meet the required standards and specifications. 5. Safety and compliance: Detailed drawings help ensure that the design and manufacturing processes comply with safety regulations and industry standards.

5. What software tools are commonly used for creating engineering drawings?

Ans. Several software tools are widely used for creating engineering drawings, including: 1. Computer-Aided Design (CAD) software: Popular CAD software such as AutoCAD, SolidWorks, and Creo Parametric provide advanced features and tools for creating precise and detailed engineering drawings. 2. Drafting software: DraftSight, TurboCAD, and LibreCAD are examples of drafting software that offer basic drawing and editing capabilities for creating 2D technical drawings. 3. 3D modeling software: Software like SketchUp, Blender, and Rhino 3D allow engineers to create 3D models, which can then be used to generate engineering drawings. 4. Building Information Modeling (BIM) software: BIM software such as Revit and ArchiCAD are primarily used for architectural and structural drawings, but they can also incorporate mechanical engineering elements into the overall design process. 5. Online drawing tools: Online platforms like Lucidchart, Draw.io, and SmartDraw provide easy-to-use interfaces for creating simple engineering drawings without the need for complex software installations.

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