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RD Sharma Solutions for Class 8 Maths Chapter 19 – 
Visualising Shapes 
 
EXERCISE 19.1                                                  PAGE NO: 19.9 
 
1. What is the least number of planes that can enclose a solid? What is the name of 
the solid? 
Solution: 
The least number of planes that are required to enclose a solid is 4. 
The name of solid is tetrahedron. 
 
2. Can a polyhedron have for its faces? 
(i) 3 triangles? 
(ii) 4 triangles? 
(iii) a square and four triangles? 
Solution: 
(i) 3 triangles? 
No, because a polyhedron is a solid shape bounded by polygons. 
 
(ii) 4 triangles? 
Yes, because a tetrahedron as 4 triangles as its faces. 
 
(iii) a square and four triangles? 
Yes, because a square pyramid has a square and four triangles as its faces.  
 
3. Is it possible to have a polyhedron with any given number of faces? 
Solution: 
Yes, if number of faces is four or more. 
 
4. Is a square prism same as a cube? 
Solution: 
Yes. We know that a square is a three dimensional shape with six rectangular shaped 
sides, out of which two are squares. Cubes are of rectangular prism length, width and 
height of same measurement. 
 
5. Can a polyhedron have 10 faces, 20 edges and 15 vertices? 
Solution: 
No. 
Let us use Euler’s formula 
V + F = E + 2 
15 + 10 = 20 + 2 
25 ? 22 
Page 2


 
 
 
 
RD Sharma Solutions for Class 8 Maths Chapter 19 – 
Visualising Shapes 
 
EXERCISE 19.1                                                  PAGE NO: 19.9 
 
1. What is the least number of planes that can enclose a solid? What is the name of 
the solid? 
Solution: 
The least number of planes that are required to enclose a solid is 4. 
The name of solid is tetrahedron. 
 
2. Can a polyhedron have for its faces? 
(i) 3 triangles? 
(ii) 4 triangles? 
(iii) a square and four triangles? 
Solution: 
(i) 3 triangles? 
No, because a polyhedron is a solid shape bounded by polygons. 
 
(ii) 4 triangles? 
Yes, because a tetrahedron as 4 triangles as its faces. 
 
(iii) a square and four triangles? 
Yes, because a square pyramid has a square and four triangles as its faces.  
 
3. Is it possible to have a polyhedron with any given number of faces? 
Solution: 
Yes, if number of faces is four or more. 
 
4. Is a square prism same as a cube? 
Solution: 
Yes. We know that a square is a three dimensional shape with six rectangular shaped 
sides, out of which two are squares. Cubes are of rectangular prism length, width and 
height of same measurement. 
 
5. Can a polyhedron have 10 faces, 20 edges and 15 vertices? 
Solution: 
No. 
Let us use Euler’s formula 
V + F = E + 2 
15 + 10 = 20 + 2 
25 ? 22 
 
 
 
 
RD Sharma Solutions for Class 8 Maths Chapter 19 – 
Visualising Shapes 
 
Since the given polyhedron is not following Euler’s formula, therefore it is not possible 
to have 10 faces, 20 edges and 15 vertices. 
 
6. Verify Euler’s formula for each of the following polyhedrons: 
 
Solution: 
(i) Vertices = 10 
Faces = 7 
Edges = 15 
By using Euler’s formula  
V + F = E + 2 
10 + 7 = 15 + 2 
17 = 17 
Hence verified. 
 
(ii) Vertices = 9 
Faces = 9 
Edges = 16 
By using Euler’s formula  
V + F = E + 2 
9 + 9 = 16 + 2 
18 = 18 
Hence verified. 
 
(iii) Vertices = 14 
Faces = 8 
Page 3


 
 
 
 
RD Sharma Solutions for Class 8 Maths Chapter 19 – 
Visualising Shapes 
 
EXERCISE 19.1                                                  PAGE NO: 19.9 
 
1. What is the least number of planes that can enclose a solid? What is the name of 
the solid? 
Solution: 
The least number of planes that are required to enclose a solid is 4. 
The name of solid is tetrahedron. 
 
2. Can a polyhedron have for its faces? 
(i) 3 triangles? 
(ii) 4 triangles? 
(iii) a square and four triangles? 
Solution: 
(i) 3 triangles? 
No, because a polyhedron is a solid shape bounded by polygons. 
 
(ii) 4 triangles? 
Yes, because a tetrahedron as 4 triangles as its faces. 
 
(iii) a square and four triangles? 
Yes, because a square pyramid has a square and four triangles as its faces.  
 
3. Is it possible to have a polyhedron with any given number of faces? 
Solution: 
Yes, if number of faces is four or more. 
 
4. Is a square prism same as a cube? 
Solution: 
Yes. We know that a square is a three dimensional shape with six rectangular shaped 
sides, out of which two are squares. Cubes are of rectangular prism length, width and 
height of same measurement. 
 
5. Can a polyhedron have 10 faces, 20 edges and 15 vertices? 
Solution: 
No. 
Let us use Euler’s formula 
V + F = E + 2 
15 + 10 = 20 + 2 
25 ? 22 
 
 
 
 
RD Sharma Solutions for Class 8 Maths Chapter 19 – 
Visualising Shapes 
 
Since the given polyhedron is not following Euler’s formula, therefore it is not possible 
to have 10 faces, 20 edges and 15 vertices. 
 
6. Verify Euler’s formula for each of the following polyhedrons: 
 
Solution: 
(i) Vertices = 10 
Faces = 7 
Edges = 15 
By using Euler’s formula  
V + F = E + 2 
10 + 7 = 15 + 2 
17 = 17 
Hence verified. 
 
(ii) Vertices = 9 
Faces = 9 
Edges = 16 
By using Euler’s formula  
V + F = E + 2 
9 + 9 = 16 + 2 
18 = 18 
Hence verified. 
 
(iii) Vertices = 14 
Faces = 8 
 
 
 
 
RD Sharma Solutions for Class 8 Maths Chapter 19 – 
Visualising Shapes 
 
Edges = 20 
By using Euler’s formula  
V + F = E + 2 
14 + 8 = 20 + 2 
22 = 22 
Hence verified. 
 
(iv) Vertices = 6 
Faces = 8 
Edges = 12 
By using Euler’s formula  
V + F = E + 2 
6 + 8 = 12 + 2 
14 = 14 
Hence verified. 
 
(v) Vertices = 9 
Faces = 9 
Edges = 16 
By using Euler’s formula  
V + F = E + 2 
9 + 9 = 16 + 2 
18 = 18 
Hence verified. 
 
7. Using Euler’s formula find the unknown: 
 
Faces ? 5 20 
Vertices 6 ? 12 
Edges 12 9 ? 
Solution: 
(i)  
By using Euler’s formula  
V + F = E + 2 
6 + F = 12 + 2 
F = 14 - 6 
F = 8 
? Number of faces is 8 
 
Page 4


 
 
 
 
RD Sharma Solutions for Class 8 Maths Chapter 19 – 
Visualising Shapes 
 
EXERCISE 19.1                                                  PAGE NO: 19.9 
 
1. What is the least number of planes that can enclose a solid? What is the name of 
the solid? 
Solution: 
The least number of planes that are required to enclose a solid is 4. 
The name of solid is tetrahedron. 
 
2. Can a polyhedron have for its faces? 
(i) 3 triangles? 
(ii) 4 triangles? 
(iii) a square and four triangles? 
Solution: 
(i) 3 triangles? 
No, because a polyhedron is a solid shape bounded by polygons. 
 
(ii) 4 triangles? 
Yes, because a tetrahedron as 4 triangles as its faces. 
 
(iii) a square and four triangles? 
Yes, because a square pyramid has a square and four triangles as its faces.  
 
3. Is it possible to have a polyhedron with any given number of faces? 
Solution: 
Yes, if number of faces is four or more. 
 
4. Is a square prism same as a cube? 
Solution: 
Yes. We know that a square is a three dimensional shape with six rectangular shaped 
sides, out of which two are squares. Cubes are of rectangular prism length, width and 
height of same measurement. 
 
5. Can a polyhedron have 10 faces, 20 edges and 15 vertices? 
Solution: 
No. 
Let us use Euler’s formula 
V + F = E + 2 
15 + 10 = 20 + 2 
25 ? 22 
 
 
 
 
RD Sharma Solutions for Class 8 Maths Chapter 19 – 
Visualising Shapes 
 
Since the given polyhedron is not following Euler’s formula, therefore it is not possible 
to have 10 faces, 20 edges and 15 vertices. 
 
6. Verify Euler’s formula for each of the following polyhedrons: 
 
Solution: 
(i) Vertices = 10 
Faces = 7 
Edges = 15 
By using Euler’s formula  
V + F = E + 2 
10 + 7 = 15 + 2 
17 = 17 
Hence verified. 
 
(ii) Vertices = 9 
Faces = 9 
Edges = 16 
By using Euler’s formula  
V + F = E + 2 
9 + 9 = 16 + 2 
18 = 18 
Hence verified. 
 
(iii) Vertices = 14 
Faces = 8 
 
 
 
 
RD Sharma Solutions for Class 8 Maths Chapter 19 – 
Visualising Shapes 
 
Edges = 20 
By using Euler’s formula  
V + F = E + 2 
14 + 8 = 20 + 2 
22 = 22 
Hence verified. 
 
(iv) Vertices = 6 
Faces = 8 
Edges = 12 
By using Euler’s formula  
V + F = E + 2 
6 + 8 = 12 + 2 
14 = 14 
Hence verified. 
 
(v) Vertices = 9 
Faces = 9 
Edges = 16 
By using Euler’s formula  
V + F = E + 2 
9 + 9 = 16 + 2 
18 = 18 
Hence verified. 
 
7. Using Euler’s formula find the unknown: 
 
Faces ? 5 20 
Vertices 6 ? 12 
Edges 12 9 ? 
Solution: 
(i)  
By using Euler’s formula  
V + F = E + 2 
6 + F = 12 + 2 
F = 14 - 6 
F = 8 
? Number of faces is 8 
 
 
 
 
 
RD Sharma Solutions for Class 8 Maths Chapter 19 – 
Visualising Shapes 
 
(ii)  
By using Euler’s formula  
V + F = E + 2 
V + 5 = 9 + 2 
V = 11 - 5 
V = 6 
? Number of vertices is 6 
 
(iii)  
By using Euler’s formula  
V + F = E + 2 
12 + 20 = E + 2 
E = 32 - 2 
E = 30 
? Number of edges is 30
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