Chapter 9 Symmetry NCERT Solutions for Class 6 Maths is available here which will be helpful in covering the entire syllabus and solving the difficult problems given in exercise. You can also Download PDF of Class 6 Maths Chapter 9 Symmetry NCERT Solutions which will prove useful guide in making a student confident. The chapter is taken from the new NCERT Mathematics textbook, Ganita Prakash.

These NCERT Solutions for Class 6 will develop you understanding of the chapter and help in gaining good marks in the examinations. We have also provided Chapter 9 Symmetry Revision Notes which will help you in completing your homework on time. These NCERT Solutions will help an individual to increase concentration and you can solve questions of supplementary books easily. Students can also check Extra Questions Answer for Symmetry Class 6 Maths to prepare for their examination completely.

NCERT Solutions for Chapter 9 Symmetry Class 6 Maths

Page 219

Finding it Out

Question 1. Do you see any Line of symmetry in the figures at the start of the chapter? What about in the picture of the cloud?

Answer

Flower has 6 lines of symmetry.
Butterfly has 1 line of symmetry.
Rangoli has 4 lines of symmetry.
Pinwheel has no line of symmetry.
A cloud may or may not have a line of symmetry as the shape is not fixed.

Q2: For each of the following figures, identify the line(s) of symmetry if it exists.

Answer

Page 221

Q1: Is there any other way to fold the square so that the two halves overlap? How many lines of symmetry does the square shape have?

Q2: Figures can have multiple lines of symmetry. The figures below also have multiple lines of symmetry. Can you find them all?.

Q3: We saw that the diagonal of a square is also a line of symmetry. Let us take a rectangle that is not a square. Is its diagonal a line of symmetry?

Page 224

Q1: In each of the following figures, a hole was punched in a folded square sheet of paper and then the paper was unfolded. Identify the line along which the paper was folded.
Figure (d) was created by punching a single hole. How was the paper folded?

Answer

Q2: Given the line(s) of symmetry, find the other hole(s).

Answer

Q3: Here are some questions on paper cutting.
Consider a vertical fold. We represent it this way:

Similarly, a horizontal fold is represented as follows.

Answer

Page 225

Q4: After each of the following cuts, predict the shape of the hole when the paper is opened. After you have made your prediction, make the cut outs and verify your answer.

Answer

Answer 

Answer

Answer

Page 226

Q5: Suppose you have to get each of these shapes with some folds and a single straight cut. How will you do it?
a. The hole in the centre is a square.

Answer

1. The hole in the centre is a square.
   
   Answer 
   
   Q6: How many lines of symmetry do these shapes have?
   i.
   

Answer

Answer

iii.

Answer

Page 227

Q7: Trace each figure and draw the lines of symmetry, if any:

Answer

Page 228

Q8: Find the lines of symmetry for the kolam below.

Answer

Q9: Draw the following:
a. A triangle with exactly one line of symmetry
b. A triangle with exactly three lines of symmetry
c. A triangle with no line of symmetry
Is it possible to draw a triangle with exactly two lines of symmetry?
Answer
No, it is not possible to draw a triangle with exactly two lines of symmetry.

Q10: Draw the following. In each case, the figure should contain at least one curved boundary.
a. A figure with exactly one line of symmetry
b. A figure with exactly two lines of symmetry
c. A figure with exactly four lines of symmetry
Answer 

Q11: Copy the following on squared paper. Complete them so that the pink line is a line of symmetry. Problem (a) has been done for you.

Hint: For (c) and (f), see if rotating the book helps!
Answer 

Page 229

Q12: Copy the following drawing on squared paper. Complete each one of them so that the resulting figure has the two pink lines as lines of symmetry.

Answer

Page 230

Q13: Copy the following on a dot grid. For each figure draw two more lines to make a shape that has a line of symmetry.

Answer

Page 235

Figure it Out 

Q1: Find the angles of symmetry for the given figures about the point marked.

Answer
To find the angle of symmetry, let’s rotate the figure by 90°.

(a)

The figure after rotation of 90° is exactly the same. Hence, 90° is the angle of symmetry.

(b)

A rotation of 90° results in the figure above. Does not overlap with the original figure. This figure comes back to its original shape only after one complete rotation through 360°. Hence, 360° is the angle of symmetry.

(c)

The figure after rotation of 180° is exactly the same. Hence, 180° is the angle of symmetry.

Q2: Which of the following figures have more than one angle of symmetry?

Answer All except (g) have more than one angle of symmetry.

Page 236

Q3: Give the order of rotational symmetry for each figure:

Answer Order: 2, 1, 6, 3, 4, 5

1. 
   In each case, the angles are the multiples of the smallest angle. You may wonder and ask if this will always happen. What do you think?

True or False

Q1: Every figure will have 360 degrees as an angle of symmetry.

Q2: If the smallest angle of symmetry of a figure is a natural number in degrees, then it is a factor of 360.

​

Page 238

Q1: Color the sectors of the circle below so that the figure has i) 3 angles of symmetry, ii) 4 angles of symmetry, iii) what are the possible numbers of angles of symmetry you can obtain by coloring the sectors in different ways?

Answer i) Will look same after every rotation of 120°.

1. ii) Will look same after every rotation of 90°.

iii) Four ways are possible.

Q2: Draw two figures other than a circle and a square that have both reflection symmetry and rotational symmetry.
Answer

Q3: Draw, wherever possible, a rough sketch of

1. A triangle with at least two lines of symmetry and at least two angles of symmetry.
   Answer
2. A triangle with only one line of symmetry but not having rotational symmetry.
   Answer
3. A quadrilateral with rotational symmetry but no reflction symmetry.
   Answer 
4. A quadrilateral with reflction symmetry but not having rotational symmetry.
   Answer

Q4: In a figure, 60° is the smallest angle of symmetry. What are the other angles of symmetry of this figure?
Answer As 60° is the smallest angle, other angles which has multiple of 60° till 360° are angle of symmetry. Here angles are 120°, 180°, 240°, 300°, 360°.

Q5: In a figure, 60° is an angle of symmetry. The figure has two angles of symmetry less than 60°. What is its smallest angle of symmetry?
Answer Smallest angle of symmetry = 60° ÷ 3 = 20°.

Q6: Can we have a figure with rotational symmetry whose smallest angle of symmetry is

45. 45°
    Answer Yes, as 360 is divisible by 45.
46. 17°
    Answer No, as 360 is not divisible by 17.

Page 239

Q7: This is a picture of the new Parliament Building in Delhi.

a. Does the outer boundary of the picture have reflection symmetry? If so, draw the lines of symmetries. How many are they?
Answer The outer boundary shows rotation symmetry about its center.
Smallest angle of rotation= 360° ÷ 3 = 120°.
Other angles of rotation are 240° and 360°.

1.  Does it have rotational symmetry around its centre? If so, find the angles of rotational symmetry.
   Answer The outer boundary shows reflection symmetry.

It has 3 lines of symmetry

Q8: How many lines of symmetry do the shapes in the first shape sequence in Chapter 1, Table 3, the Regular Polygons, have? What number sequence do you get?

Answer
3 sided regular polygon ( equilateral triangle) has 3 lines of symmetry
4 sided regular polygon ( square) has 4 lines of symmetry
5 sided regular polygon ( regular pentagon) has 5 lines of symmetry
6 sided regular polygon ( regular hexagon) has 6 lines of symmetry We observe the following pattern:
Number of sides in a regular polygon*= number of lines of symmetry. Number sequence : 3, 4, 5, 6, 7, ……………………….

Q9: How many angles of symmetry do the shapes in the fist shape sequence in Chapter 1, Table 3, the Regular Polygons, have? What number sequence do you get?

Answer Number of angles of symmetry = number of lines of symmetry.
Hence we get the number sequence: 3, 4, 5, 6, 7, ….

Q10: How many lines of symmetry do the shapes in the last shape sequence in Chapter 1, Table 3, the Koch Snowflke sequence, have? How many angles of symmetry?

Answer

Q11: How many lines of symmetry and angles of symmetry does Ashoka Chakra have?

Answer The Ashoka Chakra has 24 spokes spread equally.
24 spokes make 12 pairs.
Line through an opposite pair is a line of symmetry.
Hence, there are 12 lines of symmetry.
Smallest angle of symmetry = 360° ÷ 12 = 30°.
Other angles of symmetry are its multiple up to 360.
Other angles are 60°, 120°, 150°, ………… , 360°. (12 angles in all).

Playing with Tiles

(a) Use the color tiles  given at the end of the book to complete the following figure so that it has exactly 2 lines of symmetry.
b. Use 16 such tiles to make figures that have exactly: 
1 line of symmetry, 
2 lines of symmetry
c. Use these tiles in making creative symmetric designs