# JNTU Kakinada B-Tech 1-2 R161206 ENGINEERING DRAWING R16 May 2018 Question Paper

JNTU Kakinada (JNTUK) B-Tech First Year Second Semester (1-2) R161206 ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech) I B. Tech II Semester Regular/ R16 Regulation May 2018 Question Paper

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular heptagon with a side of 30mm by general method.
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
Draw the projections of a 75mm long straight line, perpendicular to the HP, in the
VP and its one end in the HP.
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.

PART -B
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis. Construct the ellipse, draw a tangent to the ellipse
from any point outside the ellipse.
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP. Draw the projections of the line. Find its inclination
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB and determine its true length, traces and inclinations
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections. (2M)
a 75mm long straight line, perpendicular to the HP, in the (2M)
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their (4M)
The top view of a rectangle, the surface of which is horizontal is shown in below (2M)
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
raw a tangent to the ellipse (7M)
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m. (7M)
A point P is 20mm below the HP and lies in the third quadrant. Its shortest (7M)
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
Draw the projections of the line. Find its inclination (7M)
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
and determine its true length, traces and inclinations (14M)
SET – 1
Code No: R161206
I B. Tech II Semester Regular/
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular heptagon with a side of 30mm by general method.
b) A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
c) Draw the projections of
VP and its one end in the HP.
d) Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
respective bases.
e) The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.
2. a) The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis.
from any point outside the ellipse.
b) The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
3. a) A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
b) A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP.
with HP.
4. The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB
with the two planes.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular heptagon with a side of 30mm by general method.
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
Draw the projections of a 75mm long straight line, perpendicular to the HP, in the
VP and its one end in the HP.
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.

PART -B
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis. Construct the ellipse, draw a tangent to the ellipse
from any point outside the ellipse.
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP. Draw the projections of the line. Find its inclination
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB and determine its true length, traces and inclinations
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections. (2M)
a 75mm long straight line, perpendicular to the HP, in the (2M)
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their (4M)
The top view of a rectangle, the surface of which is horizontal is shown in below (2M)
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
raw a tangent to the ellipse (7M)
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m. (7M)
A point P is 20mm below the HP and lies in the third quadrant. Its shortest (7M)
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
Draw the projections of the line. Find its inclination (7M)
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
and determine its true length, traces and inclinations (14M)
SET – 1
Code No: R161206

5. A thin 30
0
-60
0
set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
6. Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
7. Draw the isometric view

set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
0
with the VP. Draw the projections.
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
the isometric views for the below figure: (All dimensions are in mm)

R16
2 of 2
set square has its longest edge in the VP and inclined at 30
0
to the
with the VP. Draw the projections. (14M)
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying (14M) (All dimensions are in mm). (14M)
SET – 1
Code No: R161206
I B. Tech II Semester Regular/
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular heptagon with a side of 30mm by general method.
b) A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
c) Draw the projections of
VP and its one end in the HP.
d) Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
respective bases.
e) The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.
2. a) The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis.
from any point outside the ellipse.
b) The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
3. a) A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
b) A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP.
with HP.
4. The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB
with the two planes.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular heptagon with a side of 30mm by general method.
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
Draw the projections of a 75mm long straight line, perpendicular to the HP, in the
VP and its one end in the HP.
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.

PART -B
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis. Construct the ellipse, draw a tangent to the ellipse
from any point outside the ellipse.
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP. Draw the projections of the line. Find its inclination
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB and determine its true length, traces and inclinations
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections. (2M)
a 75mm long straight line, perpendicular to the HP, in the (2M)
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their (4M)
The top view of a rectangle, the surface of which is horizontal is shown in below (2M)
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
raw a tangent to the ellipse (7M)
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m. (7M)
A point P is 20mm below the HP and lies in the third quadrant. Its shortest (7M)
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
Draw the projections of the line. Find its inclination (7M)
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
and determine its true length, traces and inclinations (14M)
SET – 1
Code No: R161206

5. A thin 30
0
-60
0
set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
6. Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
7. Draw the isometric view

set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
0
with the VP. Draw the projections.
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
the isometric views for the below figure: (All dimensions are in mm)

R16
2 of 2
set square has its longest edge in the VP and inclined at 30
0
to the
with the VP. Draw the projections. (14M)
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying (14M) (All dimensions are in mm). (14M)
SET – 1
Code No: R161206
I B. Tech II Semester Regular/Supplementary
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular hexagon with a side of 30mm.
b) Draw the projections of the point E, 15 mm above the HP and 50mm behind the
VP.
c) Draw the projections of a 75mm long
of the VP and in the HP.
d) Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on
their respective bases.
e) The front view of a quadrilateral whose surface is parallel to
below figure. Draw its isometric view.
2.
a)Construct a diagonal scale of RF=
meters on it. Show a length of 653 meters on it.
b) A plot of ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical
lawn in it. Take a suitable scale.
3. a) A line RS measuring 52mm is in HP and inclined at an angle of 45
end R is 10mm in front of VP. Draw the projections.
b) A point P is 25mm below HP and lies in the third quadrant. Its shortest distance
from xy is 45mm. Draw it projections.
4. Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
and 2.1m from a 0.3m thick wall, but on the
between the oranges, measured along the ground and parallel to the wall is 2.7m.
Determine the real distance between the oranges.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular hexagon with a side of 30mm.
Draw the projections of the point E, 15 mm above the HP and 50mm behind the
Draw the projections of a 75mm long straight line, parallel to and 40mm in
of the VP and in the HP.
Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on
The front view of a quadrilateral whose surface is parallel to the VP is shown in
figure. Draw its isometric view.

PART -B

Construct a diagonal scale of RF=
6250
1
meters on it. Show a length of 653 meters on it.
ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical
lawn in it. Take a suitable scale.
A line RS measuring 52mm is in HP and inclined at an angle of 45
0
end R is 10mm in front of VP. Draw the projections.
A point P is 25mm below HP and lies in the third quadrant. Its shortest distance
from xy is 45mm. Draw it projections.
Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
and 2.1m from a 0.3m thick wall, but on the opposite sides of it. The distance
between the oranges, measured along the ground and parallel to the wall is 2.7m.
Determine the real distance between the oranges.
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
Draw the projections of the point E, 15 mm above the HP and 50mm behind the (2M)
straight line, parallel to and 40mm in front (2M)
Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on (4M)
the VP is shown in (2M)
ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical (7M)
to VP. The (7M)
A point P is 25mm below HP and lies in the third quadrant. Its shortest distance (7M)
Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
opposite sides of it. The distance
between the oranges, measured along the ground and parallel to the wall is 2.7m. (14M)
SET – 2
Code No: R161206
I B. Tech II Semester Regular/
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular heptagon with a side of 30mm by general method.
b) A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
c) Draw the projections of
VP and its one end in the HP.
d) Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
respective bases.
e) The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.
2. a) The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis.
from any point outside the ellipse.
b) The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
3. a) A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
b) A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP.
with HP.
4. The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB
with the two planes.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular heptagon with a side of 30mm by general method.
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
Draw the projections of a 75mm long straight line, perpendicular to the HP, in the
VP and its one end in the HP.
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.

PART -B
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis. Construct the ellipse, draw a tangent to the ellipse
from any point outside the ellipse.
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP. Draw the projections of the line. Find its inclination
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB and determine its true length, traces and inclinations
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections. (2M)
a 75mm long straight line, perpendicular to the HP, in the (2M)
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their (4M)
The top view of a rectangle, the surface of which is horizontal is shown in below (2M)
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
raw a tangent to the ellipse (7M)
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m. (7M)
A point P is 20mm below the HP and lies in the third quadrant. Its shortest (7M)
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
Draw the projections of the line. Find its inclination (7M)
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
and determine its true length, traces and inclinations (14M)
SET – 1
Code No: R161206

5. A thin 30
0
-60
0
set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
6. Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
7. Draw the isometric view

set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
0
with the VP. Draw the projections.
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
the isometric views for the below figure: (All dimensions are in mm)

R16
2 of 2
set square has its longest edge in the VP and inclined at 30
0
to the
with the VP. Draw the projections. (14M)
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying (14M) (All dimensions are in mm). (14M)
SET – 1
Code No: R161206
I B. Tech II Semester Regular/Supplementary
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular hexagon with a side of 30mm.
b) Draw the projections of the point E, 15 mm above the HP and 50mm behind the
VP.
c) Draw the projections of a 75mm long
of the VP and in the HP.
d) Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on
their respective bases.
e) The front view of a quadrilateral whose surface is parallel to
below figure. Draw its isometric view.
2.
a)Construct a diagonal scale of RF=
meters on it. Show a length of 653 meters on it.
b) A plot of ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical
lawn in it. Take a suitable scale.
3. a) A line RS measuring 52mm is in HP and inclined at an angle of 45
end R is 10mm in front of VP. Draw the projections.
b) A point P is 25mm below HP and lies in the third quadrant. Its shortest distance
from xy is 45mm. Draw it projections.
4. Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
and 2.1m from a 0.3m thick wall, but on the
between the oranges, measured along the ground and parallel to the wall is 2.7m.
Determine the real distance between the oranges.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular hexagon with a side of 30mm.
Draw the projections of the point E, 15 mm above the HP and 50mm behind the
Draw the projections of a 75mm long straight line, parallel to and 40mm in
of the VP and in the HP.
Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on
The front view of a quadrilateral whose surface is parallel to the VP is shown in
figure. Draw its isometric view.

PART -B

Construct a diagonal scale of RF=
6250
1
meters on it. Show a length of 653 meters on it.
ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical
lawn in it. Take a suitable scale.
A line RS measuring 52mm is in HP and inclined at an angle of 45
0
end R is 10mm in front of VP. Draw the projections.
A point P is 25mm below HP and lies in the third quadrant. Its shortest distance
from xy is 45mm. Draw it projections.
Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
and 2.1m from a 0.3m thick wall, but on the opposite sides of it. The distance
between the oranges, measured along the ground and parallel to the wall is 2.7m.
Determine the real distance between the oranges.
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
Draw the projections of the point E, 15 mm above the HP and 50mm behind the (2M)
straight line, parallel to and 40mm in front (2M)
Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on (4M)
the VP is shown in (2M)
ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical (7M)
to VP. The (7M)
A point P is 25mm below HP and lies in the third quadrant. Its shortest distance (7M)
Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
opposite sides of it. The distance
between the oranges, measured along the ground and parallel to the wall is 2.7m. (14M)
SET – 2
Code No: R161206
5. A circular lamina of 60mm
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
makes an angle of 45
0
with
made by the lamina with HP.
6. Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
to the VP.
7. Draw the isometric view

A circular lamina of 60mm diameter rests on HP on a point 1 on the
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
with VP. (i) Draw the projections (ii) Determine the angle
made by the lamina with HP.
Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
the isometric views for the below figure: (All dimensions are in mm).
R16
2 of 2
diameter rests on HP on a point 1 on the
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
) Determine the angle (14M)
Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
0(14M) (All dimensions are in mm). (14M)
SET – 2
Code No: R161206
I B. Tech II Semester Regular/
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular heptagon with a side of 30mm by general method.
b) A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
c) Draw the projections of
VP and its one end in the HP.
d) Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
respective bases.
e) The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.
2. a) The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis.
from any point outside the ellipse.
b) The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
3. a) A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
b) A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP.
with HP.
4. The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB
with the two planes.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular heptagon with a side of 30mm by general method.
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
Draw the projections of a 75mm long straight line, perpendicular to the HP, in the
VP and its one end in the HP.
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.

PART -B
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis. Construct the ellipse, draw a tangent to the ellipse
from any point outside the ellipse.
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP. Draw the projections of the line. Find its inclination
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB and determine its true length, traces and inclinations
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections. (2M)
a 75mm long straight line, perpendicular to the HP, in the (2M)
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their (4M)
The top view of a rectangle, the surface of which is horizontal is shown in below (2M)
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
raw a tangent to the ellipse (7M)
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m. (7M)
A point P is 20mm below the HP and lies in the third quadrant. Its shortest (7M)
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
Draw the projections of the line. Find its inclination (7M)
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
and determine its true length, traces and inclinations (14M)
SET – 1
Code No: R161206

5. A thin 30
0
-60
0
set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
6. Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
7. Draw the isometric view

set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
0
with the VP. Draw the projections.
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
the isometric views for the below figure: (All dimensions are in mm)

R16
2 of 2
set square has its longest edge in the VP and inclined at 30
0
to the
with the VP. Draw the projections. (14M)
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying (14M) (All dimensions are in mm). (14M)
SET – 1
Code No: R161206
I B. Tech II Semester Regular/Supplementary
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular hexagon with a side of 30mm.
b) Draw the projections of the point E, 15 mm above the HP and 50mm behind the
VP.
c) Draw the projections of a 75mm long
of the VP and in the HP.
d) Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on
their respective bases.
e) The front view of a quadrilateral whose surface is parallel to
below figure. Draw its isometric view.
2.
a)Construct a diagonal scale of RF=
meters on it. Show a length of 653 meters on it.
b) A plot of ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical
lawn in it. Take a suitable scale.
3. a) A line RS measuring 52mm is in HP and inclined at an angle of 45
end R is 10mm in front of VP. Draw the projections.
b) A point P is 25mm below HP and lies in the third quadrant. Its shortest distance
from xy is 45mm. Draw it projections.
4. Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
and 2.1m from a 0.3m thick wall, but on the
between the oranges, measured along the ground and parallel to the wall is 2.7m.
Determine the real distance between the oranges.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular hexagon with a side of 30mm.
Draw the projections of the point E, 15 mm above the HP and 50mm behind the
Draw the projections of a 75mm long straight line, parallel to and 40mm in
of the VP and in the HP.
Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on
The front view of a quadrilateral whose surface is parallel to the VP is shown in
figure. Draw its isometric view.

PART -B

Construct a diagonal scale of RF=
6250
1
meters on it. Show a length of 653 meters on it.
ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical
lawn in it. Take a suitable scale.
A line RS measuring 52mm is in HP and inclined at an angle of 45
0
end R is 10mm in front of VP. Draw the projections.
A point P is 25mm below HP and lies in the third quadrant. Its shortest distance
from xy is 45mm. Draw it projections.
Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
and 2.1m from a 0.3m thick wall, but on the opposite sides of it. The distance
between the oranges, measured along the ground and parallel to the wall is 2.7m.
Determine the real distance between the oranges.
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
Draw the projections of the point E, 15 mm above the HP and 50mm behind the (2M)
straight line, parallel to and 40mm in front (2M)
Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on (4M)
the VP is shown in (2M)
ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical (7M)
to VP. The (7M)
A point P is 25mm below HP and lies in the third quadrant. Its shortest distance (7M)
Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
opposite sides of it. The distance
between the oranges, measured along the ground and parallel to the wall is 2.7m. (14M)
SET – 2
Code No: R161206
5. A circular lamina of 60mm
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
makes an angle of 45
0
with
made by the lamina with HP.
6. Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
to the VP.
7. Draw the isometric view

A circular lamina of 60mm diameter rests on HP on a point 1 on the
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
with VP. (i) Draw the projections (ii) Determine the angle
made by the lamina with HP.
Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
the isometric views for the below figure: (All dimensions are in mm).
R16
2 of 2
diameter rests on HP on a point 1 on the
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
) Determine the angle (14M)
Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
0(14M) (All dimensions are in mm). (14M)
SET – 2
Code No: R161206

I B. Tech II Semester Regular/Supplementary Examinations, April/May – 2018
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)Time: 3 hours Max. Marks: 70
Note: 1. Question Paper consists of two parts (Part-A and Part-B) 2. Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
1. a) Draw a line AB 80mm long and divide it into five equal parts. (2M)
b) A point A is 2.5cm above the HP and 3cm infront of the VP. Draw its
projections. (2M)
c) Draw the projections of a 75mm long straight line, perpendicular to the HP,
20mm infront of the VP and its one end 15mm above the HP. (2M)
d) A hexagonal prism has one of its rectangular faces parallel to the HP. Its axis is
perpendicular to the VP and 3.5cm above the ground. (4M)
e) Draw the top view for the below figure, assuming suitable dimensions:
(4M)
PART -B
2. a) Construct a diagonal scale of 1: 2.5 showing centimeters and millimeters and
long enough to measure up to 20 centimeters. Show 15.4cm on it. (7M)
b) Inscribe an ellipse in a rectangle having sides of 150mm and 100mm long. (7M)
3. a) The top view of a 75mm long line measures 55 mm. The line is in the VP, its one
end being 25 mm above the HP. Draw its projections. (7M)
b) Two points A and B are in the HP. The point A is 30mm in front of the VP; while
B is behind the VP. The distance between their projectors is 75 mm and the line
joining their top views makes an angle of 45
0
with xy. Find the distance of the
point B from the VP. (7M)
4. The top view of a 75mm long line AB measures 65mm, while the length of its
front view is 50mm. Its one end A is in the HP and 12mm in front of the VP.
Draw the projections of AB and determine its inclinations with the HP and the
VP.

(14M)
SET – 3
R16
1 of 2
Code No: R161206
I B. Tech II Semester Regular/
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular heptagon with a side of 30mm by general method.
b) A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
c) Draw the projections of
VP and its one end in the HP.
d) Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
respective bases.
e) The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.
2. a) The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis.
from any point outside the ellipse.
b) The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
3. a) A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
b) A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP.
with HP.
4. The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB
with the two planes.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular heptagon with a side of 30mm by general method.
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
Draw the projections of a 75mm long straight line, perpendicular to the HP, in the
VP and its one end in the HP.
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.

PART -B
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis. Construct the ellipse, draw a tangent to the ellipse
from any point outside the ellipse.
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP. Draw the projections of the line. Find its inclination
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB and determine its true length, traces and inclinations
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections. (2M)
a 75mm long straight line, perpendicular to the HP, in the (2M)
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their (4M)
The top view of a rectangle, the surface of which is horizontal is shown in below (2M)
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
raw a tangent to the ellipse (7M)
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m. (7M)
A point P is 20mm below the HP and lies in the third quadrant. Its shortest (7M)
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
Draw the projections of the line. Find its inclination (7M)
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
and determine its true length, traces and inclinations (14M)
SET – 1
Code No: R161206

5. A thin 30
0
-60
0
set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
6. Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
7. Draw the isometric view

set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
0
with the VP. Draw the projections.
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
the isometric views for the below figure: (All dimensions are in mm)

R16
2 of 2
set square has its longest edge in the VP and inclined at 30
0
to the
with the VP. Draw the projections. (14M)
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying (14M) (All dimensions are in mm). (14M)
SET – 1
Code No: R161206
I B. Tech II Semester Regular/Supplementary
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular hexagon with a side of 30mm.
b) Draw the projections of the point E, 15 mm above the HP and 50mm behind the
VP.
c) Draw the projections of a 75mm long
of the VP and in the HP.
d) Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on
their respective bases.
e) The front view of a quadrilateral whose surface is parallel to
below figure. Draw its isometric view.
2.
a)Construct a diagonal scale of RF=
meters on it. Show a length of 653 meters on it.
b) A plot of ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical
lawn in it. Take a suitable scale.
3. a) A line RS measuring 52mm is in HP and inclined at an angle of 45
end R is 10mm in front of VP. Draw the projections.
b) A point P is 25mm below HP and lies in the third quadrant. Its shortest distance
from xy is 45mm. Draw it projections.
4. Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
and 2.1m from a 0.3m thick wall, but on the
between the oranges, measured along the ground and parallel to the wall is 2.7m.
Determine the real distance between the oranges.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular hexagon with a side of 30mm.
Draw the projections of the point E, 15 mm above the HP and 50mm behind the
Draw the projections of a 75mm long straight line, parallel to and 40mm in
of the VP and in the HP.
Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on
The front view of a quadrilateral whose surface is parallel to the VP is shown in
figure. Draw its isometric view.

PART -B

Construct a diagonal scale of RF=
6250
1
meters on it. Show a length of 653 meters on it.
ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical
lawn in it. Take a suitable scale.
A line RS measuring 52mm is in HP and inclined at an angle of 45
0
end R is 10mm in front of VP. Draw the projections.
A point P is 25mm below HP and lies in the third quadrant. Its shortest distance
from xy is 45mm. Draw it projections.
Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
and 2.1m from a 0.3m thick wall, but on the opposite sides of it. The distance
between the oranges, measured along the ground and parallel to the wall is 2.7m.
Determine the real distance between the oranges.
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
Draw the projections of the point E, 15 mm above the HP and 50mm behind the (2M)
straight line, parallel to and 40mm in front (2M)
Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on (4M)
the VP is shown in (2M)
ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical (7M)
to VP. The (7M)
A point P is 25mm below HP and lies in the third quadrant. Its shortest distance (7M)
Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
opposite sides of it. The distance
between the oranges, measured along the ground and parallel to the wall is 2.7m. (14M)
SET – 2
Code No: R161206
5. A circular lamina of 60mm
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
makes an angle of 45
0
with
made by the lamina with HP.
6. Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
to the VP.
7. Draw the isometric view

A circular lamina of 60mm diameter rests on HP on a point 1 on the
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
with VP. (i) Draw the projections (ii) Determine the angle
made by the lamina with HP.
Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
the isometric views for the below figure: (All dimensions are in mm).
R16
2 of 2
diameter rests on HP on a point 1 on the
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
) Determine the angle (14M)
Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
0(14M) (All dimensions are in mm). (14M)
SET – 2
Code No: R161206

I B. Tech II Semester Regular/Supplementary Examinations, April/May – 2018
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)Time: 3 hours Max. Marks: 70
Note: 1. Question Paper consists of two parts (Part-A and Part-B) 2. Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
1. a) Draw a line AB 80mm long and divide it into five equal parts. (2M)
b) A point A is 2.5cm above the HP and 3cm infront of the VP. Draw its
projections. (2M)
c) Draw the projections of a 75mm long straight line, perpendicular to the HP,
20mm infront of the VP and its one end 15mm above the HP. (2M)
d) A hexagonal prism has one of its rectangular faces parallel to the HP. Its axis is
perpendicular to the VP and 3.5cm above the ground. (4M)
e) Draw the top view for the below figure, assuming suitable dimensions:
(4M)
PART -B
2. a) Construct a diagonal scale of 1: 2.5 showing centimeters and millimeters and
long enough to measure up to 20 centimeters. Show 15.4cm on it. (7M)
b) Inscribe an ellipse in a rectangle having sides of 150mm and 100mm long. (7M)
3. a) The top view of a 75mm long line measures 55 mm. The line is in the VP, its one
end being 25 mm above the HP. Draw its projections. (7M)
b) Two points A and B are in the HP. The point A is 30mm in front of the VP; while
B is behind the VP. The distance between their projectors is 75 mm and the line
joining their top views makes an angle of 45
0
with xy. Find the distance of the
point B from the VP. (7M)
4. The top view of a 75mm long line AB measures 65mm, while the length of its
front view is 50mm. Its one end A is in the HP and 12mm in front of the VP.
Draw the projections of AB and determine its inclinations with the HP and the
VP.

(14M)
SET – 3
R16
1 of 2
Code No: R161206

5. A semi-circular lamina of 64mm diameter has its straight edge in VP and
inclined at an angle of 45
30
0
with VP. Draw the projections.
6. A hexagonal pyramid, base 25mm side and axis 50mm long, has an edge of its
base on the ground. Its axis is inclined at 30
Draw its projections.
7. Draw (i) Front View (ii) Top View (iii) Side View(All dimensions are in mm).

circular lamina of 64mm diameter has its straight edge in VP and
inclined at an angle of 45
0
to HP. The surface of the lamina makes an angle of
with VP. Draw the projections.
A hexagonal pyramid, base 25mm side and axis 50mm long, has an edge of its
base on the ground. Its axis is inclined at 30
0
to the ground and parallel to the VP.
View (ii) Top View (iii) Side View for the below figure. (All dimensions are in mm).
R16
2 of 2
circular lamina of 64mm diameter has its straight edge in VP and
to HP. The surface of the lamina makes an angle of (14M)
A hexagonal pyramid, base 25mm side and axis 50mm long, has an edge of its
to the ground and parallel to the VP. (14M)
(14M)
SET – 3
Code No: R161206
I B. Tech II Semester Regular/
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular heptagon with a side of 30mm by general method.
b) A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
c) Draw the projections of
VP and its one end in the HP.
d) Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
respective bases.
e) The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.
2. a) The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis.
from any point outside the ellipse.
b) The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
3. a) A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
b) A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP.
with HP.
4. The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB
with the two planes.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular heptagon with a side of 30mm by general method.
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
Draw the projections of a 75mm long straight line, perpendicular to the HP, in the
VP and its one end in the HP.
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.

PART -B
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis. Construct the ellipse, draw a tangent to the ellipse
from any point outside the ellipse.
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP. Draw the projections of the line. Find its inclination
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB and determine its true length, traces and inclinations
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections. (2M)
a 75mm long straight line, perpendicular to the HP, in the (2M)
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their (4M)
The top view of a rectangle, the surface of which is horizontal is shown in below (2M)
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
raw a tangent to the ellipse (7M)
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m. (7M)
A point P is 20mm below the HP and lies in the third quadrant. Its shortest (7M)
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
Draw the projections of the line. Find its inclination (7M)
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
and determine its true length, traces and inclinations (14M)
SET – 1
Code No: R161206

5. A thin 30
0
-60
0
set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
6. Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
7. Draw the isometric view

set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
0
with the VP. Draw the projections.
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
the isometric views for the below figure: (All dimensions are in mm)

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set square has its longest edge in the VP and inclined at 30
0
to the
with the VP. Draw the projections. (14M)
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying (14M) (All dimensions are in mm). (14M)
SET – 1
Code No: R161206
I B. Tech II Semester Regular/Supplementary
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular hexagon with a side of 30mm.
b) Draw the projections of the point E, 15 mm above the HP and 50mm behind the
VP.
c) Draw the projections of a 75mm long
of the VP and in the HP.
d) Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on
their respective bases.
e) The front view of a quadrilateral whose surface is parallel to
below figure. Draw its isometric view.
2.
a)Construct a diagonal scale of RF=
meters on it. Show a length of 653 meters on it.
b) A plot of ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical
lawn in it. Take a suitable scale.
3. a) A line RS measuring 52mm is in HP and inclined at an angle of 45
end R is 10mm in front of VP. Draw the projections.
b) A point P is 25mm below HP and lies in the third quadrant. Its shortest distance
from xy is 45mm. Draw it projections.
4. Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
and 2.1m from a 0.3m thick wall, but on the
between the oranges, measured along the ground and parallel to the wall is 2.7m.
Determine the real distance between the oranges.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular hexagon with a side of 30mm.
Draw the projections of the point E, 15 mm above the HP and 50mm behind the
Draw the projections of a 75mm long straight line, parallel to and 40mm in
of the VP and in the HP.
Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on
The front view of a quadrilateral whose surface is parallel to the VP is shown in
figure. Draw its isometric view.

PART -B

Construct a diagonal scale of RF=
6250
1
meters on it. Show a length of 653 meters on it.
ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical
lawn in it. Take a suitable scale.
A line RS measuring 52mm is in HP and inclined at an angle of 45
0
end R is 10mm in front of VP. Draw the projections.
A point P is 25mm below HP and lies in the third quadrant. Its shortest distance
from xy is 45mm. Draw it projections.
Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
and 2.1m from a 0.3m thick wall, but on the opposite sides of it. The distance
between the oranges, measured along the ground and parallel to the wall is 2.7m.
Determine the real distance between the oranges.
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
Draw the projections of the point E, 15 mm above the HP and 50mm behind the (2M)
straight line, parallel to and 40mm in front (2M)
Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on (4M)
the VP is shown in (2M)
ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical (7M)
to VP. The (7M)
A point P is 25mm below HP and lies in the third quadrant. Its shortest distance (7M)
Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
opposite sides of it. The distance
between the oranges, measured along the ground and parallel to the wall is 2.7m. (14M)
SET – 2
Code No: R161206
5. A circular lamina of 60mm
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
makes an angle of 45
0
with
made by the lamina with HP.
6. Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
to the VP.
7. Draw the isometric view

A circular lamina of 60mm diameter rests on HP on a point 1 on the
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
with VP. (i) Draw the projections (ii) Determine the angle
made by the lamina with HP.
Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
the isometric views for the below figure: (All dimensions are in mm).
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diameter rests on HP on a point 1 on the
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
) Determine the angle (14M)
Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
0(14M) (All dimensions are in mm). (14M)
SET – 2
Code No: R161206

I B. Tech II Semester Regular/Supplementary Examinations, April/May – 2018
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)Time: 3 hours Max. Marks: 70
Note: 1. Question Paper consists of two parts (Part-A and Part-B) 2. Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
1. a) Draw a line AB 80mm long and divide it into five equal parts. (2M)
b) A point A is 2.5cm above the HP and 3cm infront of the VP. Draw its
projections. (2M)
c) Draw the projections of a 75mm long straight line, perpendicular to the HP,
20mm infront of the VP and its one end 15mm above the HP. (2M)
d) A hexagonal prism has one of its rectangular faces parallel to the HP. Its axis is
perpendicular to the VP and 3.5cm above the ground. (4M)
e) Draw the top view for the below figure, assuming suitable dimensions:
(4M)
PART -B
2. a) Construct a diagonal scale of 1: 2.5 showing centimeters and millimeters and
long enough to measure up to 20 centimeters. Show 15.4cm on it. (7M)
b) Inscribe an ellipse in a rectangle having sides of 150mm and 100mm long. (7M)
3. a) The top view of a 75mm long line measures 55 mm. The line is in the VP, its one
end being 25 mm above the HP. Draw its projections. (7M)
b) Two points A and B are in the HP. The point A is 30mm in front of the VP; while
B is behind the VP. The distance between their projectors is 75 mm and the line
joining their top views makes an angle of 45
0
with xy. Find the distance of the
point B from the VP. (7M)
4. The top view of a 75mm long line AB measures 65mm, while the length of its
front view is 50mm. Its one end A is in the HP and 12mm in front of the VP.
Draw the projections of AB and determine its inclinations with the HP and the
VP.

(14M)
SET – 3
R16
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Code No: R161206

5. A semi-circular lamina of 64mm diameter has its straight edge in VP and
inclined at an angle of 45
30
0
with VP. Draw the projections.
6. A hexagonal pyramid, base 25mm side and axis 50mm long, has an edge of its
base on the ground. Its axis is inclined at 30
Draw its projections.
7. Draw (i) Front View (ii) Top View (iii) Side View(All dimensions are in mm).

circular lamina of 64mm diameter has its straight edge in VP and
inclined at an angle of 45
0
to HP. The surface of the lamina makes an angle of
with VP. Draw the projections.
A hexagonal pyramid, base 25mm side and axis 50mm long, has an edge of its
base on the ground. Its axis is inclined at 30
0
to the ground and parallel to the VP.
View (ii) Top View (iii) Side View for the below figure. (All dimensions are in mm).
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circular lamina of 64mm diameter has its straight edge in VP and
to HP. The surface of the lamina makes an angle of (14M)
A hexagonal pyramid, base 25mm side and axis 50mm long, has an edge of its
to the ground and parallel to the VP. (14M)
(14M)
SET – 3

Code No: R161206
I B. Tech II Semester Regular/Supplementary
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) A point B is 40mm below the HP and 25mm infront of the VP. Draw its
projections.
b) Draw the projections of a 75mm long straight line, inclined at 45
HP and its one end in the VP.
c) A triangular prism base
of its rectangular faces with the axis parallel to the VP. Draw its projections.
d) The front view of a triangle having its surface parallel to the VP is shown in
figure. Draw its isometric view

2. a) The major axis of an ellipse is 150mm long and the minor axis is 100mm long.
Find the foci and draw the ellipse by arcs of circles method. Draw a tangent to
the ellipse at a point on it 25mm above the major axis.

b) Construct a diagonal scale of R.F=1/32 showing yards, feet and inches to
measure up to 4 yards. Show 1 yard 2 feet 7 inches on it.
3. a) The front view of a line, inclined at 30
projections of the line, when it is parallel to and 40mm above the HP; it?s one
end being 30mm in front of the VP.
b) Draw the projections of the following points on the same ground line, keeping
the projectors 25mm apart.
(i) D, 25mm below the HP and 25mm behind the VP
(ii) E, 15mm above the HP and 50mm behind the VP
(iii) F, 40mm below the HP and 25mm in front of the VP

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)

Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
A point B is 40mm below the HP and 25mm infront of the VP. Draw its
Draw the projections of a 75mm long straight line, inclined at 45
0
to the VP, in the
HP and its one end in the VP.
40mm side and height 65mm is resting on the HP on one
of its rectangular faces with the axis parallel to the VP. Draw its projections.
The front view of a triangle having its surface parallel to the VP is shown in
figure. Draw its isometric views.
PART -B
The major axis of an ellipse is 150mm long and the minor axis is 100mm long.
Find the foci and draw the ellipse by arcs of circles method. Draw a tangent to
the ellipse at a point on it 25mm above the major axis.
Construct a diagonal scale of R.F=1/32 showing yards, feet and inches to
Show 1 yard 2 feet 7 inches on it.
The front view of a line, inclined at 30
0
to the VP is 65mm long. Draw the
projections of the line, when it is parallel to and 40mm above the HP; it?s one
end being 30mm in front of the VP.
Draw the projections of the following points on the same ground line, keeping
m apart.
D, 25mm below the HP and 25mm behind the VP.
E, 15mm above the HP and 50mm behind the VP.
below the HP and 25mm in front of the VP.
R16
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April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
A point B is 40mm below the HP and 25mm infront of the VP. Draw its (2M)
to the VP, in the (4M)
40mm side and height 65mm is resting on the HP on one
of its rectangular faces with the axis parallel to the VP. Draw its projections. (4M)
The front view of a triangle having its surface parallel to the VP is shown in below (4M)
The major axis of an ellipse is 150mm long and the minor axis is 100mm long.
Find the foci and draw the ellipse by arcs of circles method. Draw a tangent to (7M)
Construct a diagonal scale of R.F=1/32 showing yards, feet and inches to (7M)
to the VP is 65mm long. Draw the
projections of the line, when it is parallel to and 40mm above the HP; it?s one (7M)
Draw the projections of the following points on the same ground line, keeping (7M)
SET – 4
Code No: R161206
I B. Tech II Semester Regular/
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular heptagon with a side of 30mm by general method.
b) A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
c) Draw the projections of
VP and its one end in the HP.
d) Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
respective bases.
e) The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.
2. a) The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis.
from any point outside the ellipse.
b) The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
3. a) A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
b) A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP.
with HP.
4. The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB
with the two planes.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular heptagon with a side of 30mm by general method.
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections.
Draw the projections of a 75mm long straight line, perpendicular to the HP, in the
VP and its one end in the HP.
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their
The top view of a rectangle, the surface of which is horizontal is shown in
figure. Draw its isometric view.

PART -B
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
the length of the major axis. Construct the ellipse, draw a tangent to the ellipse
from any point outside the ellipse.
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m.
A point P is 20mm below the HP and lies in the third quadrant. Its shortest
distance from xy is 40mm. Draw its projections.
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
The end E is 15mm above HP. Draw the projections of the line. Find its inclination
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
Draw the projections of AB and determine its true length, traces and inclinations
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
A point D is 25mm below the HP and 25mm behind the VP. Draw its projections. (2M)
a 75mm long straight line, perpendicular to the HP, in the (2M)
Draw a cone, base 40mm diameter and axis 50mm long resting on the HP on their (4M)
The top view of a rectangle, the surface of which is horizontal is shown in below (2M)
The foci of an ellipse are 90mm apart and the minor axis is 72mm long. Determine
raw a tangent to the ellipse (7M)
The actual length of 500m is represented by a line of 15cm on a drawing.
Construct a vernier scale to read up to 600m. Mark on the scale a length of 549m. (7M)
A point P is 20mm below the HP and lies in the third quadrant. Its shortest (7M)
A line EF 60mm long is in VP and inclined to HP. The top view measures 45mm.
Draw the projections of the line. Find its inclination (7M)
The end A of a line AB is in the HP and 25mm behind the VP. The end B is in the
VP and 50mm above the HP. The distance between the end projectors is 75mm.
and determine its true length, traces and inclinations (14M)
SET – 1
Code No: R161206

5. A thin 30
0
-60
0
set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
6. Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
7. Draw the isometric view

set square has its longest edge in the VP and inclined at 30
HP. Its surface makes an angle of 45
0
with the VP. Draw the projections.
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying
on the HP on one of its generators with the axis parallel to the VP.
the isometric views for the below figure: (All dimensions are in mm)

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set square has its longest edge in the VP and inclined at 30
0
to the
with the VP. Draw the projections. (14M)
Draw the projections of a cone, base 75mm diameter and axis 100mm long, lying (14M) (All dimensions are in mm). (14M)
SET – 1
Code No: R161206
I B. Tech II Semester Regular/Supplementary
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) Construct a regular hexagon with a side of 30mm.
b) Draw the projections of the point E, 15 mm above the HP and 50mm behind the
VP.
c) Draw the projections of a 75mm long
of the VP and in the HP.
d) Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on
their respective bases.
e) The front view of a quadrilateral whose surface is parallel to
below figure. Draw its isometric view.
2.
a)Construct a diagonal scale of RF=
meters on it. Show a length of 653 meters on it.
b) A plot of ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical
lawn in it. Take a suitable scale.
3. a) A line RS measuring 52mm is in HP and inclined at an angle of 45
end R is 10mm in front of VP. Draw the projections.
b) A point P is 25mm below HP and lies in the third quadrant. Its shortest distance
from xy is 45mm. Draw it projections.
4. Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
and 2.1m from a 0.3m thick wall, but on the
between the oranges, measured along the ground and parallel to the wall is 2.7m.
Determine the real distance between the oranges.

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)
Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
Construct a regular hexagon with a side of 30mm.
Draw the projections of the point E, 15 mm above the HP and 50mm behind the
Draw the projections of a 75mm long straight line, parallel to and 40mm in
of the VP and in the HP.
Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on
The front view of a quadrilateral whose surface is parallel to the VP is shown in
figure. Draw its isometric view.

PART -B

Construct a diagonal scale of RF=
6250
1
meters on it. Show a length of 653 meters on it.
ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical
lawn in it. Take a suitable scale.
A line RS measuring 52mm is in HP and inclined at an angle of 45
0
end R is 10mm in front of VP. Draw the projections.
A point P is 25mm below HP and lies in the third quadrant. Its shortest distance
from xy is 45mm. Draw it projections.
Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
and 2.1m from a 0.3m thick wall, but on the opposite sides of it. The distance
between the oranges, measured along the ground and parallel to the wall is 2.7m.
Determine the real distance between the oranges.
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (4M)
Draw the projections of the point E, 15 mm above the HP and 50mm behind the (2M)
straight line, parallel to and 40mm in front (2M)
Draw a cylinder, base 40mm diameter and axis 50mm long resting on the HP on (4M)
the VP is shown in (2M)
ground is in the shape of a rectangle 110m x 50m. Inscribe an elliptical (7M)
to VP. The (7M)
A point P is 25mm below HP and lies in the third quadrant. Its shortest distance (7M)
Two oranges on a tree are respectively 1.8m and 3m above the ground, and 1.2m
opposite sides of it. The distance
between the oranges, measured along the ground and parallel to the wall is 2.7m. (14M)
SET – 2
Code No: R161206
5. A circular lamina of 60mm
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
makes an angle of 45
0
with
made by the lamina with HP.
6. Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
to the VP.
7. Draw the isometric view

A circular lamina of 60mm diameter rests on HP on a point 1 on the
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
with VP. (i) Draw the projections (ii) Determine the angle
made by the lamina with HP.
Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
the isometric views for the below figure: (All dimensions are in mm).
R16
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diameter rests on HP on a point 1 on the
circumference. The lamina is inclined to HP such that the top view of it is an
ellipse of minor axis 35mm. The top view of the diameter through the point 1
) Determine the angle (14M)
Draw the projections of a pentagonal prism, base 25mm side and axis 50mm long,
resting on one of its rectangular faces on the ground, with the axis inclined at 45
0(14M) (All dimensions are in mm). (14M)
SET – 2
Code No: R161206

I B. Tech II Semester Regular/Supplementary Examinations, April/May – 2018
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)Time: 3 hours Max. Marks: 70
Note: 1. Question Paper consists of two parts (Part-A and Part-B) 2. Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
1. a) Draw a line AB 80mm long and divide it into five equal parts. (2M)
b) A point A is 2.5cm above the HP and 3cm infront of the VP. Draw its
projections. (2M)
c) Draw the projections of a 75mm long straight line, perpendicular to the HP,
20mm infront of the VP and its one end 15mm above the HP. (2M)
d) A hexagonal prism has one of its rectangular faces parallel to the HP. Its axis is
perpendicular to the VP and 3.5cm above the ground. (4M)
e) Draw the top view for the below figure, assuming suitable dimensions:
(4M)
PART -B
2. a) Construct a diagonal scale of 1: 2.5 showing centimeters and millimeters and
long enough to measure up to 20 centimeters. Show 15.4cm on it. (7M)
b) Inscribe an ellipse in a rectangle having sides of 150mm and 100mm long. (7M)
3. a) The top view of a 75mm long line measures 55 mm. The line is in the VP, its one
end being 25 mm above the HP. Draw its projections. (7M)
b) Two points A and B are in the HP. The point A is 30mm in front of the VP; while
B is behind the VP. The distance between their projectors is 75 mm and the line
joining their top views makes an angle of 45
0
with xy. Find the distance of the
point B from the VP. (7M)
4. The top view of a 75mm long line AB measures 65mm, while the length of its
front view is 50mm. Its one end A is in the HP and 12mm in front of the VP.
Draw the projections of AB and determine its inclinations with the HP and the
VP.

(14M)
SET – 3
R16
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Code No: R161206

5. A semi-circular lamina of 64mm diameter has its straight edge in VP and
inclined at an angle of 45
30
0
with VP. Draw the projections.
6. A hexagonal pyramid, base 25mm side and axis 50mm long, has an edge of its
base on the ground. Its axis is inclined at 30
Draw its projections.
7. Draw (i) Front View (ii) Top View (iii) Side View(All dimensions are in mm).

circular lamina of 64mm diameter has its straight edge in VP and
inclined at an angle of 45
0
to HP. The surface of the lamina makes an angle of
with VP. Draw the projections.
A hexagonal pyramid, base 25mm side and axis 50mm long, has an edge of its
base on the ground. Its axis is inclined at 30
0
to the ground and parallel to the VP.
View (ii) Top View (iii) Side View for the below figure. (All dimensions are in mm).
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circular lamina of 64mm diameter has its straight edge in VP and
to HP. The surface of the lamina makes an angle of (14M)
A hexagonal pyramid, base 25mm side and axis 50mm long, has an edge of its
to the ground and parallel to the VP. (14M)
(14M)
SET – 3

Code No: R161206
I B. Tech II Semester Regular/Supplementary
Time: 3 hours
Note: 1. Question Paper consists of two parts (
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
1. a) A point B is 40mm below the HP and 25mm infront of the VP. Draw its
projections.
b) Draw the projections of a 75mm long straight line, inclined at 45
HP and its one end in the VP.
c) A triangular prism base
of its rectangular faces with the axis parallel to the VP. Draw its projections.
d) The front view of a triangle having its surface parallel to the VP is shown in
figure. Draw its isometric view

2. a) The major axis of an ellipse is 150mm long and the minor axis is 100mm long.
Find the foci and draw the ellipse by arcs of circles method. Draw a tangent to
the ellipse at a point on it 25mm above the major axis.

b) Construct a diagonal scale of R.F=1/32 showing yards, feet and inches to
measure up to 4 yards. Show 1 yard 2 feet 7 inches on it.
3. a) The front view of a line, inclined at 30
projections of the line, when it is parallel to and 40mm above the HP; it?s one
end being 30mm in front of the VP.
b) Draw the projections of the following points on the same ground line, keeping
the projectors 25mm apart.
(i) D, 25mm below the HP and 25mm behind the VP
(ii) E, 15mm above the HP and 50mm behind the VP
(iii) F, 40mm below the HP and 25mm in front of the VP

Regular/Supplementary Examinations, April/May
ENGINEERING DRAWING (Com. to CE, EEE, Bio-Tech)

Note: 1. Question Paper consists of two parts (Part-A and Part-
Answering the question in Part-A is Compulsory
3. Answer any FOUR Questions from Part-B
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
PART ?A
A point B is 40mm below the HP and 25mm infront of the VP. Draw its
Draw the projections of a 75mm long straight line, inclined at 45
0
to the VP, in the
HP and its one end in the VP.
40mm side and height 65mm is resting on the HP on one
of its rectangular faces with the axis parallel to the VP. Draw its projections.
The front view of a triangle having its surface parallel to the VP is shown in
figure. Draw its isometric views.
PART -B
The major axis of an ellipse is 150mm long and the minor axis is 100mm long.
Find the foci and draw the ellipse by arcs of circles method. Draw a tangent to
the ellipse at a point on it 25mm above the major axis.
Construct a diagonal scale of R.F=1/32 showing yards, feet and inches to
Show 1 yard 2 feet 7 inches on it.
The front view of a line, inclined at 30
0
to the VP is 65mm long. Draw the
projections of the line, when it is parallel to and 40mm above the HP; it?s one
end being 30mm in front of the VP.
Draw the projections of the following points on the same ground line, keeping
m apart.
D, 25mm below the HP and 25mm behind the VP.
E, 15mm above the HP and 50mm behind the VP.
below the HP and 25mm in front of the VP.
R16
1 of 2
April/May – 2018
Max. Marks: 70
-B)~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
A point B is 40mm below the HP and 25mm infront of the VP. Draw its (2M)
to the VP, in the (4M)
40mm side and height 65mm is resting on the HP on one
of its rectangular faces with the axis parallel to the VP. Draw its projections. (4M)
The front view of a triangle having its surface parallel to the VP is shown in below (4M)
The major axis of an ellipse is 150mm long and the minor axis is 100mm long.
Find the foci and draw the ellipse by arcs of circles method. Draw a tangent to (7M)
Construct a diagonal scale of R.F=1/32 showing yards, feet and inches to (7M)
to the VP is 65mm long. Draw the
projections of the line, when it is parallel to and 40mm above the HP; it?s one (7M)
Draw the projections of the following points on the same ground line, keeping (7M)
SET – 4

Code No: R161206

4. The end A of a line AB
is 12mm in front of the VP and is above the HP. The distance between the
projectors is 65mm. The line is inclined at 40
behind the VP. Draw the projections of the line and d
the VT.
5. Draw an equilateral triangle of 75mm side and inscribe a circle in it. Draw the
projections of the figure, when its plane is vertical and inclined at 30
and one of its sides of the triangle is inclined at 45
6. A Hexagonal prism, base 35mm side and height 50mm has a hole of 40mm
diameter drilled centrally through its ends. Draw its projections when it is resting
on one of its corners on the HP w
its faces parallel to the VP.
7. Draw (i) Front View (ii) Top View (All dimensions are in mm).

The end A of a line AB is 25mm behind the VP and is below the HP. The end B
is 12mm in front of the VP and is above the HP. The distance between the
projectors is 65mm. The line is inclined at 40
0
to the HP and its HT is 20mm
behind the VP. Draw the projections of the line and determine its true length and
Draw an equilateral triangle of 75mm side and inscribe a circle in it. Draw the
projections of the figure, when its plane is vertical and inclined at 30
0
and one of its sides of the triangle is inclined at 45
0
to the HP.
A Hexagonal prism, base 35mm side and height 50mm has a hole of 40mm
diameter drilled centrally through its ends. Draw its projections when it is resting
one of its corners on the HP with its axis inclined at 60
0
to the HP a
its faces parallel to the VP. (ii) Top View (iii) Side View for the below figure(All dimensions are in mm).
R16
2 of 2
is 25mm behind the VP and is below the HP. The end B
is 12mm in front of the VP and is above the HP. The distance between the
to the HP and its HT is 20mm
etermine its true length and (14M)
Draw an equilateral triangle of 75mm side and inscribe a circle in it. Draw the
to the VP (14M)
A Hexagonal prism, base 35mm side and height 50mm has a hole of 40mm
diameter drilled centrally through its ends. Draw its projections when it is resting
to the HP and two of (14M)
for the below figure. (14M)
SET – 4

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