May/June 2010 (R7)
VAAGDEVI INSTITUTE OF TECHNOLOGY & SCIENCES
PRODDATUR.
Engineering Drawing Unit 7 Question Bank
1. (a) A right regular hexagonal prism of side of base 25 mm and
altitude 55 mm has a square hole coincide one of the faces of the
square hole is parallel to one of the faces of the hexagon. Draw
the isometric projection of a prism with the hole.
(b) A cylinder of base 50 mm diameter and axis 70 mm long is
lying on the H.P. Draw its isometric projection when the axis is
horizontal. May/June 2010 (R7) Civil Engineering2. A cylinder 50 mm
diameter and 60 mm height stands on H.P.A section perpendicular to
V.P, inclined at 550 to HP cuts the cylinder and passes through a
point on the axis at a height of 45 mm above the base . Draw the
isometric projection of the truncated portion of the cylinder, when
the cut surface is clearly visible to the observer.
May/June 2011 (1) ECE3. A pentagonal pyramid, 30 mm edge of base
and 65 mm height , stands on H.P such that an edge of the base is
parallel to VP and nearer to it .A section plane perpendicular to
VP and inclined at 300 to HP cuts the pyramid passing through a
point on the axis at a height of 35 mm from the base. Draw the
isometric projection of the truncated pyramid.
May/June 2011 (2) ECE4. (a) Draw the isometric projection of a
triangular pyramid of side of base 35 mm and height 75 mm when it
is resting on H.P. such that an edge of the base is parallel to
V.P.
(b) Draw the isometric projection of a cone of base 40 mm
diameter and height 58 mm when it rest with its base on H.P.( axis
is vertical)
May/June 2011 (3) ECE5. (a) Draw the isometric projection of a
rectangular prism of base 50 mm X40 mm and height 75 mm , when it
rest with its base on H.P. and one of its rectangular faces is
parallel to V.P.
(b) Draw the isometric projection of a hollow rectangular prism
of base 50X40 mm (outside), height 75 mm and thickness 8 mm when
its axis is horizontal.
May/June 2011 (4) ECE6. A square pyramid with base edge 85 mm
and height 125 mm , is resting on a cube of side 100mm.The axes of
the solids coincide along a line. The two sides of the base of the
pyramid are parallel to the edges of the cube. Draw the isometric
view of the combination of the solids. May/June 2011 (1) EEE
7. A circular block of 75 mm diameter and 25 mm thick, is
pierced centrally through its at faces, by a square prism of base
35 mm side and 125 mm long ,which comes out equally on both sides
of the block . Draw the isometric projection of the combination
when the combined axis is horizontal.
May/June 2011 (2) EEE
8. (a) A cylinder of base 50 mm diameter and axis 70 mm long is
lying on the H.P. draw its isometric projection when the axis is
horizontal.
(b) Draw the isometric projection of a hexagonal pyramid of side
of base 30 mm and height 75 mm , when it is resting on H.P. such
that an edge of the base is parallel to V.P.
May/June 2011 (3) EEE
9. A hexagonal prism , side of base 25 mm and height 50 mm rests
on H.P. and one of the edges of its base is parallel to V.P .A
section plane perpendicular to V.P. and inclined at 500 to H.P.
bisects the axis of the prism . Draw the isometric projection of
the truncated prism.
May/June 2011 (4) EEE
10. Draw the elevation, plan and left and right side views of
the bracket shown in the picture below (dimensions in mm)
May/June 2011(1)11. Convert the bracket shown in the pictorial
view below into orthogonal projections of three views.
May/June 2011(2) CSE12. Draw the elevation, plan and left and
right side views of the bracket shown below in pictorial view
(dimensions in mm)
May/June 2011(3) CSE13. Convert the part shown in the pictorial
view below into orthogonal projections of three views (dimensions
in mm)
May/June 2011(4) CSE14. A hexagonal prism , side of base 25 mm
and height 50 mm rests on H.P. and one of the edges of its base is
parallel to V.P .A section plane perpendicular to V.P. and inclined
at 500 to H.P. bisects the axis of the prism . Draw the isometric
projection of the truncated prism. Dec 2010.(R09) Aeronautical
Engineering15. Draw the elevation, plan and left and right side
views of the bracket shown in the picture below (dimensions in
mm)
December 2010.(R09) Mechanical Engineering16. Draw the front
view, top view and left side view of the object shown below
(dimensions in mm).
December 2010.(R09) CSE17 Draw the front view, top view and
right side view of the object shown below
(dimensions in mm)
November/December 2011(R9) EEE
18. Two views of a casting are shown below. Draw the isometric
view of the casting
(dimensions are in mm)
November/December 2011(R9) ECE
19. Two views of a casting are shown below. Draw the isometric
view of the casting (dimensions are in mm)
November/December 2011(R9) CSE
20. Three views of a casting are shown below. Provide isometric
view of the casting (dimensions
are in mm)
May/June 2010(1) EEE
21. Draw the isometric view of the casting whose views are given
below. (dimensions are in mm)
May/June 2010(2) EEE
22. Three views of a machine part are shown below. Draw the
isometric view of the part (dimensions are in mm)
May/June 2010(3) EEE
23. Two views of a casting are shown below. Draw the isometric
view of the casting (dimensions are in mm)
May/June 2010(4) EEE
24. Two views of a casting are shown below. Draw the isometric
view of the casting (dimensions are in mm)
May/June 2010(1) ECE
25. Three views of a casting are shown below. Draw the isometric
view of the casting (dimensions are in mm)
May/June 2010(2) ECE
26. Two views of a casting are shown below. Draw the isometric
view of the casting (dimensions are in mm)
May/June 2010(3) ECE
27. Three views of a model are given below. Draw the isometric
view of the model (dimensions are in mm)
May/June 2010(4) ECE
28. Two views of a casting are shown below. Draw the isometric
projection of the casting (dimensions are in mm)
May/June 2010(1) CSE
29. Two views of a casting are shown below. Draw the isometric
projection of the casting (dimensions are in mm)
May/June 2010(2) CSE
30. Two views of a casting are shown below. Draw the isometric
view of the casting (dimensions are in mm)
May/June 2010(3) CSE
31. Two views of a casting are shown below. Draw the isometric
view of the casting (dimensions are in mm)
May/June 2010(4) CSE
32. Three views of a casting are shown below. Draw the isometric
view of the casting (dimensions are inmm)
May/June 2010(R7) Civil Engineering
33. Two views of a casting are shown in figure. Draw the
isometric projection of the casting. (dimensions are in mm)
December 2010(R7) EEE
34. Convert the bracket shown in the pictorial view below into
orthogonal projections of three views.
May 2012(1) ECE35. Draw the elevation, plan and left and right
side views of the bracket shown in the picture below (dimensions in
mm)
May 2012(2) ECE36 Two views of a piece are given below. Draw the
isometric view of the piece (dimensions are in mm)
May 2012(3) ECE37. Three views of a model are given below. Draw
the isometric view of the model (dimensions are in mm)
May 2012(4) ECE38. Draw the elevation, plan and left and right
side views of the bracket shown in the picture below (dimensions in
mm).
May 2012(1) CSE39. Two views of a casting are shown below. Draw
the isometric view of the casting (dimensions are in mm)
May 2012(2) CSE40. Two views of a bracket are given below. Draw
the isometric view of the bracket (dimensions are in mm)
May 2012(3) CSE41. Three views of a machine part are shown
below. Draw the isometric view of the part (dimensions are in
mm)
May 2012(4) CSE42. Draw the front view, top view, right and left
side views of the object shown below (dimensions in mm).
November/December 2012(R09) EEE43. Two views of a casting are
shown below. Draw the isometric view of the casting (dimensions are
in mm).
May 2012(1) EIE44. Two views of a model are shown below. Draw
the isometric projection of the model (dimensions are in mm).
May 2012(2) EIE45. Two views of a casting are shown below. Draw
the isometric projection of the casting (dimensions are in mm)May
2012(4) EIE
46. Draw the elevation, plan and left and right views of the
step model shown in the picture below (dimensions in mm).
May 2012(4) EIE