i

Mathematics
Textbook for Class VII

2015-16 (11-11-2014)

ISBN 81-7450-669-1
First Edition
February 2007 Phalguna 1928
Reprinted
October 2007 Kartika 1929
January 2009 Pausa 1930
December 2009 Pausa 1931
November 2010 Kartika 1932
January 2012 Magha 1933
November 2012 Kartika 1934
October 2013 Asvina 1935
October 2014 Kartika 1936

ALL RIGHTS RESERVED
q

No part of this publication may be reproduced, stored in a retrieval system
or transmitted, in any form or by any means, electronic, mechanical,
photocopying, recording or otherwise without the prior permission of the
publisher.

q

This book is sold subject to the condition that it shall not, by way of trade,
be lent, re-sold, hired out or otherwise disposed of without the publisher’s
consent, in any form of binding or cover other than that in which it is
published.

q

The correct price of this publication is the price printed on this page, Any
revised price indicated by a rubber stamp or by a sticker or by any other
means is incorrect and should be unacceptable.

PD 810T MJ
OFFICES OF THE PUBLICATION
DIVISION, NCERT

© National Council of Educational
Research and Training, 2007

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New Delhi 110 016

Phone : 011-26562708

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Banashankari III Stage
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Phone : 079-27541446

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Phone : 033-25530454

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` 50.00
Publication Team

Printed on 80 GSM paper with NCER T
watermark
Published at the Publication Division by
the Secretary, National Council of
Educational Research and Training,
Sri Aurobindo Marg, New Delhi 110 016
and printed at .......

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Division

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Cover
Shweta Rao

Illustrations
Prashant Soni

2015-16 (11-11-2014)

iii

Foreword
The National Curriculum Framework (NCF), 2005, recommends that children’s life at school must be
linked to their life outside the school. This principle marks a departure from the legacy of bookish
learning which continues to shape our system and causes a gap between the school, home and
community. The syllabi and textbooks developed on the basis of NCF signify an attempt to implement
this basic idea. They also attempt to discourage rote learning and the maintenance of sharp boundaries
between different subject areas. We hope these measures will take us significantly further in the
direction of a child-centred system of education outlined in the National Policy on Education (1986).
The success of this effort depends on the steps that school principals and teachers will take to
encourage children to reflect on their own learning and to pursue imaginative activities and questions. We
must recognise that, given space, time and freedom, children generate new knowledge by engaging with
the information passed on to them by adults. Treating the prescribed textbook as the sole basis of examination
is one of the key reasons why other resources and sites of learning are ignored. Inculcating creativity and
initiative is possible if we perceive and treat children as participants in learning, not as receivers of a fixed
body of knowledge.
These aims imply considerable change in school routines and mode of functioning. Flexibility in
the daily time-table is as necessary as rigour in implementing the annual calendar so that the required
number of teaching days are actually devoted to teaching. The methods used for teaching and evaluation
will also determine how effective this textbook proves for making children’s life at school a happy
experience, rather than a source of stress or boredom. Syllabus designers have tried to address the
problem of curricular burden by restructuring and reorienting knowledge at different stages with
greater consideration for child psychology and the time available for teaching. The textbook attempts
to enhance this endeavour by giving higher priority and space to opportunities for contemplation and
wondering, discussion in small groups, and activities requiring hands-on experience.
The National Council of Educational Research and Training (NCERT) appreciates the hard work
done by the textbook development committee responsible for this book. We wish to thank the
Chairperson of the advisory group in science and mathematics, Professor J.V. Narlikar and the Chief
Advisor for this book, Dr H.K. Dewan for guiding the work of this committee. Several teachers
contributed to the development of this textbook; we are grateful to their principals for making this
possible. We are indebted to the institutions and organisations which have generously permitted us to
draw upon their resources, material and personnel. We are especially grateful to the members of the
National Monitoring Committee, appointed by the Department of Secondary and Higher Education,
Ministry of Human Resource Development under the Chairpersonship of Professor Mrinal Miri and
Professor G.P. Deshpande, for their valuable time anc contribution. As an organisation committed to
systemic reform and continuous improvement in the quality of its products, NCERT welcomes comments
and suggestions which will enable us to undertake further revision and refinement.

New Delhi
20 November 2006

Director
National Council of Educational
Research and Training

2015-16 (11-11-2014)

2015-16 (11-11-2014)

v

Preface
The National Curriculum Framework (NCF), 2005 suggests the need for developing the ability for
mathematisation in the child. It points out that the aim of learning mathematics is not merely being
able to do quantitative calculations but also to develop abilities in the child that would enable her/him
to redefine her/his relationship with the World. The NCF-2005 also lays emphasis on development in
the children logical abilities as well as abilities to comprehend space, spatial transformations and
develop the ability to visualise both these. It recommends that mathematics needs to slowly move
towards abstraction even though it starts from concrete experiences and models. The ability to
generalise and perceive patterns is an important step in being able to relate to the abstract and logic
governed nature of the subject.
We also know that most children in upper primary and secondary classes develop a fear of
mathematics and it is one of the reasons for students not being able to continue in schools.
NCF-2005 has also mentioned this problem and has therefore emphasised the need to develop a
programme which is relevant and meaningful. The need for conceptualising mathematics teaching
allows children to explore concepts as well as develop their own ways of solving problems. This also
forms corner-stone of the principles highlighted in the NCF-2005.
In Class VI we have begun the process of developing a programme which would help
children understand the abstract nature of mathematics while developing in them the ability to construct
their own concepts. As suggested by NCF-2005, an attempt has been made to allow multiple ways of
solving problems and encouraging children to develop strategies different from each other.
There is an emphasis on working with basic principles rather than on memorisation of algorithms
and short-cuts.
The Class VII textbook has continued that spirit and has attempted to use language which the
children can read and understand themselves. This reading can be in groups or individual and at some
places require help and support by the teacher. We also tried to include a variety of examples and
opportunities for children to set problems. The appearance of the book has sought to be made pleasant
by including many illustrations. The book attempts to engage the mind of the child actively and provides
opportunities to use concepts and develop her/his own structures rather than struggling with
unnecessarily complicated terms and numbers.
We hope that this book would help all children in their attempt to learn mathematics and would
build in them the ability to appreciate its power and beauty. We also hope that this would enable to
revisit and consolidate concepts and skills that they have learnt in the primary school. We hope to
strengthen the foundation of mathematics, on which further engagement with studies as well as her
daily life would become possible in an enriched manner.
The team in developing the textbook consists of many teachers who are experienced and brought
to the team the view point of the child and the school. We also had people who have done research in
learning of mathematics and those who have been writing textbooks for mathematics for many years.
The team has tried to make an effort to remove fear of mathematics from the minds of children and
make it a part of their daily routine even outside the school. We had many discussions and a review
process with some other teachers of schools across the country. The effort by the team has been to
accommodate all the comments.
In the end, I would like to place on record our gratefulness to Prof Krishna Kumar, Director,
NCERT, Prof G. Ravindra, Joint Director, NCERT and Prof Hukum Singh, Head, DESM, for giving
opportunity to me and the team to work on this challenging task. I am also grateful to

2015-16 (11-11-2014)

vi
Prof J.V. Narlikar, Chairperson of the Advisory Group in Science and Mathematics for his suggestions.
I am also grateful for the support of all those who were part of this team including Prof S.K. Singh
Gautam, Dr V.P. Singh and Dr Ashutosh K. Wazalwar from NCERT, who have worked very hard to
make this possible. In the end I must thank the Publication Department of NCERT for its support and
advice and those from Vidya Bhawan who helped produce the book.
The process of developing materials is a continuous one and we would hope to make this book
better. Suggestions and comments on the book are most welcome.
Dr H.K. Dewan
Chief Advisor
Textbook Development Committee

2015-16 (11-11-2014)

vii

A Note for the Teachers
This book is a continuation of the process and builds on what was initiated in Class VI. We had shared
with you the main points reflected in NCF-2005. These include relating mathematics to a wider
development of abilities in children, moving away from complex calculations and algorithms following,
to understanding and constructing a framework of understanding. The mathematical ideas in the mind
of the child grow neither by telling nor by merely giving explanations. For children to learn mathematics,
to be confident in it and understand the foundational ideas, they need to develop their own framework
of concepts. This would require a classroom where children discuss ideas, look for solutions of problems,
set new problems and find not only their own ways of solving problems but also their own definitions
with the language they can use and understand. These definitions need not be as general and complete
as the standard ones.
In the mathematics class it is important to help children read with understanding the textbook and
other references. The reading of materials is not normally considered to be related to learning of
mathematics but learning mathematics any further would require the child to comprehend the text.
The text in mathematics uses a language that has brevity. It requires the ability to deal with terseness
and with symbols, to follow logical arguments and appreciate the need for keeping certain factors and
constraints. Children need practice in translating mathematical statements into normal statements
expressing ideas in words and vice-a-versa. We would require children to become confident of using
language in words and also being able to communicate through mathematical statements.
Mathematics at the upper primary stage is a major challenge and has to perform the dual role of
being both close to the experience and environment of the child and being abstract. Children often are
not able to work in terms of ideas alone. They need the comfort of context and/or models linked to
their experience to find meaning. This stage presents before us the challenge of engaging the children
while using the contexts but gradually moving them away from such dependence. So while children
should be able to identify the principles to be used in a contextual situation, they should not be dependent
or be limited to contexts. As we progress further in the middle school there would be greater requirement
from the child to be able to do this.
Learning mathematics is not about remembering solutions or methods but knowing how to solve
problems. Problem-solving strategies give learners opportunities to think rationally, enabling them to
understand and create methods as well as processes; they become active participants in the construction
of new knowledge rather than being passive receivers. Learners need to identify and define a problem,
select or design possible solutions and revise or redesign the steps, if required. The role of a teacher
gets modified to that of a guide and facilitator. Students need to be provided with activities and challenging
problems, along with sets of many problem-solving experiences.
On being presented a problem, children first need to decode it. They need to identify the knowledge
required for attempting it and build a model for it. This model could be in the form of an illustration or
a situation construct. We must remember that for generating proofs in geometry the figures constructed
are also models of the ideal dimensionless figure. These diagrams are, however, more abstract than
the concrete models required for attempting problems in arithmetic and algebra. Helping children to
develop the ability to construct appropriate models by breaking up the problems and evolving their own
strategies and analysis of problems is extremely important. This should replace prescriptive algorithms
to solve problems.
Teachers are expected to encourage cooperative learning. Children learn a lot in purposeful
conversation with each other. Our classrooms should develop in the students the desire and capacity
to learn from each other rather than compete. Conversation is not noise and consultation is not cheating.
It is a challenge to make possible classroom groups that benefit the most from being with each other

2015-16 (11-11-2014)

viii
and in which each child contributes to the learning of the group. Teachers must recognise that
different children and different groups will use distinct strategies. Some of these strategies would
appear to be more efficient and some not as efficient. They would reflect the modelling done by each
group and would indicate the process of thinking used. It is inappropriate to identify the best strategy
or pull down incorrect strategies. We need to record all strategies adopted and analyse them. During
this, it is crucial to discuss why some of the strategies are unsuccessful. The class as a group can
improve upon the ineffective and unsuccessful strategies and correct them. This implies that we need
to complete each strategy rather than discard some as incorrect or inappropriate. Exposures to a
variety of strategies would deepen mathematical understanding and ability to learn from others. This
would also help them to understand the importance of being aware of what one is doing.
Enquiry to understand is one of the natural ways by which students acquire and construct knowledge.
The process can even begin with casual observations and end in generation and acquisition of knowledge.
This can be aided by providing examples for different forms of questioning-explorative, open-ended,
contextual, error detection etc. Students need to get exposed to challenging investigations. For example
in geometry there could be things like, experimenting with suitable nets for solids, visualising solids
through shadow play, slicing and elevations etc. In arithmetic we can make them explore relationships
among members, generalise the relationships, discover patterns and rules and then form algebraic
relations etc.
Children need the opportunity to follow logical arguments and find loopholes in the arguments
presented. This will lead them to understand the requirement of a proof.
At this stage topics like Geometry are poised to enter a formal stage. Provide activities that
encourage students to exercise creativity and imagination while discovering geometric vocabulary and
relationships using simple geometric tools.
Mathematics has to emerge as a subject of exploration and creation rather than an exercise of
finding answers to old and complicated problems. There is a need to encourage children to find many
different ways to solve problems. They also need to appreciate the use of many alternative algorithms
and strategies that may be adopted to solve a problem.
Topics like Integers, Fractions and Decimals, Symmetry have been presented here by linking them
with their introductory parts studied in earlier classes. An attempt has been made to link chapters with
each other and the ideas introduced in the initial chapters have been used to evolve concepts in the
subsequent chapters. Please devote enough time to the ideas of negative integers, rational numbers,
exploring statements in Geometry and visualising solids shapes.
We hope that the book will help children learn to enjoy mathematics and be confident in the
concepts introduced. We want to recommend the creation of opportunity for thinking individually and
collectively. Group discussions need to become a regular feature of mathematics classroom thereby
making learners confident about mathematics and make the fear of mathematics a thing of past.
We look forward to your comments and suggestions regarding the book and hope that you will
send interesting exercises, activities and tasks that you develop during the course of teaching, to be
included in the future editions.

2015-16 (11-11-2014)

ix

Textbook Development Committee
CHAIRPERSON, ADVISORy GROUP IN SCIENCE AND M ATHEMATICS
J.V. Narlikar, Emeritus Professor, Inter University Centre for Astronomy and Astrophysics
(IUCCA), Ganeshkhind, Pune University, Pune, Maharashtra
CHIEF ADVISOR
H.K. Dewan, Vidya Bhawan Society, Udaipur, Rajasthan
CHIEF COORDINATOR
Hukum Singh, Professor and Head (Retd.), DESM, NCERT, New Delhi
MEMBERS
Anjali Gupte, Teacher, Vidya Bhawan Public School, Udaipur, Rajasthan
Avantika Dam, TGT, CIE Experimental Basic School, Department of Education, Delhi
H.C. Pradhan, Professor, Homi Bhabha Centre for Science Education, TIFR, Mumbai,
Maharashtra
Mahendra Shankar, Lecturer (S.G.) (Retd.), NCERT, New Delhi
Meena Shrimali, Teacher, Vidya Bhawan Senior Secondary School, Udaipur, Rajasthan
R. Athmaraman, Mathematics Education Consultant, TI Matric Higher Secondary School and
AMTI, Chennai, Tamil Nadu
S.K.S. Gautam, Professor, DESM, NCERT, New Delhi
Shradha Agarwal, PGT, Sir Padampat Singhania Education Centre, Kanpur (U.P.)
Srijata Das, Senior Lecturer in Mathematics, SCERT, New Delhi
V.P. Singh, Reader (Retd.), DESM, NCERT, New Delhi
MEMBER- COORDINATOR
Ashutosh K. Wazalwar, Professor, DESM, NCERT, New Delhi

2015-16 (11-11-2014)

Acknowledgements
The Council gratefully acknowledges the valuable contributions of the following participants of the
Textbook Review Workshop – Ms. Nirupma Sahni, TGT, Mahavir Digambar Jain Sr. Sec. School,
Jaipur; Dr Roohi Fatima, TGT, Jamia Middle School, New Delhi; Ms. Deepti Mathur, TGT, Mother’s
International School, New Delhi; Shri K. Balaji, TGT, Kendriya Vidyalaya, Donimalai, Karnataka;
Shri Amit Bajaj, TGT, CRPF Public School, Delhi; Ms. Omlata Singh, TGT, Presentation Convent Sr.
Sec. School, Delhi; Shri Nagesh S. Mone, TGT, Dravid High School, Wai, Maharashtra; Shri Gorakh
Nath Sharma, PGT, Jawahar Navodaya Vidyalaya, Mesra, Ranchi, Jharkhand; Shri Ajay Kumar
Singh, TGT, Ramjas Sr. Sec. School, No.3, Delhi; Ms. Ragini Subramanian, TGT, SRDF Vivekananda
Vidyalaya, Chennai, Tamil Nadu; Shri Rajkumar Dhawan, PGT, Geeta Sr. Sec. School No.2, Delhi;
Dr Sanjay Mudgil, Lecturer, CIET, NCERT, New Delhi; Dr. Sushma Jaireth, Reader, DWS, NCERT,
New Delhi; Dr Mona Yadav, Lecturer, DWS, NCERT, New Delhi.
The Council acknowledges the comments/suggestions given by Dr Ram Avtar (Retd. Professor,
NCERT) Consultant, DESM, NCERT, New Delhi, Dr R.P. Maurya, Reader, DESM, NCERT,
New Delhi and Shri Sanjay Bolia, Senior Teacher, Vidya Bhawan Basic Secondary School, Udaipur,
Rajasthan for the improvement of the content.
The Council acknowledges the support and facilities provided by Vidya Bhawan Society and its
staff, Udaipur, for conducting workshops of the development committee at Udaipur, and to the
Director, Centre for Science Education and Communication (CSEC), Delhi University for providing
library help.
The Council acknowledges the academic and administrative support of Professor Hukum Singh,
Head, DESM, NCERT, New Delhi.
The Council also acknowledges the efforts of S.M. Ikram, DTP Operator, Vidya Bhawan
Society Udaipur; Sajjad Haider Ansari, Rakesh Kumar and Neelam Walecha, DTP Operators,
Kanwar Singh, Copy Editor, NCERT; Abhimanu Mohanty, Proof Reader, NCERT; Deepak Kapoor,
Computer Station Incharge, DESM, NCERT for technical assistance, APC-office and the
Administrative Staff, DESM, NCERT; and the Publication Department of the NCERT.

2015-16 (11-11-2014)

xi

Contents
Foreword

iii

Preface

v

Chapter 1

Integers

1

Chapter 2

Fractions and Decimals

29

Chapter 3

Data Handling

57

Chapter 4

Simple Equations

77

Chapter 5

Lines and Angles

93

Chapter 6

The Triangle and its Properties

113

Chapter 7

Congruence of Triangles

133

Chapter 8

Comparing Quantities

153

Chapter 9

Rational Numbers

173

Chapter 10

Practical Geometry

193

Chapter 11

Perimeter and Area

205

Chapter 12

Algebraic Expressions

229

Chapter 13

Exponents and Powers

249

Chapter 14

Symmetry

265

Chapter 15

Visualising Solid Shapes

277

Answers

293

Brain-Teasers

311

2015-16 (11-11-2014)

2015-16 (11-11-2014)

xiii

ISBN 81-7450-669-1
First Edition
February 2007 Phalguna 1928
Reprinted
October 2007 Kartika 1929
January 2009 Pausa 1930
December 2009 Pausa 1931
November 2010 Kartika 1932
January 2012 Magha 1933
November 2012 Kartika 1934
October 2013 Asvina 1935

ALL RIGHTS RESERVED
q

No part of this publication may be reproduced, stored in a retrieval system
or transmitted, in any form or by any means, electronic, mechanical,
photocopying, recording or otherwise without the prior permission of the
publisher.

q

This book is sold subject to the condition that it shall not, by way of trade,
be lent, re-sold, hired out or otherwise disposed of without the publisher’s
consent, in any form of binding or cover other than that in which it is
published.

q

The correct price of this publication is the price printed on this page, Any
revised price indicated by a rubber stamp or by a sticker or by any other
means is incorrect and should be unacceptable.

PD 800T BS

© National Council of Educational
Research and Training, 2007

` 50.00

OFFICES OF THE PUBLICATION
DIVISION, NCERT
NCERT Campus
Sri Aurobindo Marg
New Delhi 110 016

Phone : 011-26562708

108, 100 Feet Road
Hosdakere Halli Extension
Banashankari III Stage
Bengaluru 560 085

Phone : 080-26725740

Navjivan Trust Building
P.O.Navjivan
Ahmedabad 380 014

Phone : 079-27541446

CWC Campus
Opp. Dhankal Bus Stop
Panihati
Kolkata 700 114

Phone : 033-25530454

CWC Complex
Maligaon
Guwahati 781 021

Phone : 0361-2674869

Publication Team
Head, Publication
Division

: Ashok Srivastava

Chief Production
Officer

: Shiv Kumar

Chief Editor
: Naresh Yadav
(Contractual Service)
Printed on 80 GSM paper with NCER T
watermark

Chief Business
Manager

: Gautam Ganguly

Published at the Publication Division by
the Secretary, National Council of
Educational Research and Training,
Sri Aurobindo Marg, New Delhi 110 016
and printed at Supreme Offset Press,
K-5, Malviya Nagar, New Delhi 110 017

Editor

: Bijnan Sutar

Production Officer

: Arun Chitkara

Cover
Shweta Rao

Illustrations
Prashant Soni

2015-16 (11-11-2014)

ISBN 81-7450-669-1
First Edition
February 2007 Phalguna 1928
Reprinted
October 2007 Kartika 1929
January 2009 Pausa 1930
December 2009 Pausa 1931
November 2010 Kartika 1932
January 2012 Magha 1933
November 2012 Kartika 1934
October 2013 Asvina 1935

ALL RIGHTS RESERVED
q

No part of this publication may be reproduced, stored in a retrieval system
or transmitted, in any form or by any means, electronic, mechanical,
photocopying, recording or otherwise without the prior permission of the
publisher.

q

This book is sold subject to the condition that it shall not, by way of trade,
be lent, re-sold, hired out or otherwise disposed of without the publisher’s
consent, in any form of binding or cover other than that in which it is
published.

q

The correct price of this publication is the price printed on this page, Any
revised price indicated by a rubber stamp or by a sticker or by any other
means is incorrect and should be unacceptable.

PD 800T BS

© National Council of Educational
Research and Training, 2007

` 50.00

OFFICES OF THE PUBLICATION
DIVISION, NCERT
NCERT Campus
Sri Aurobindo Marg
New Delhi 110 016

Phone : 011-26562708

108, 100 Feet Road
Hosdakere Halli Extension
Banashankari III Stage
Bengaluru 560 085

Phone : 080-26725740

Navjivan Trust Building
P.O.Navjivan
Ahmedabad 380 014

Phone : 079-27541446

CWC Campus
Opp. Dhankal Bus Stop
Panihati
Kolkata 700 114

Phone : 033-25530454

CWC Complex
Maligaon
Guwahati 781 021

Phone : 0361-2674869

Publication Team
Head, Publication
Division

: Ashok Srivastava

Chief Production
Officer

: Shiv Kumar

Chief Editor
: Naresh Yadav
(Contractual Service)
Printed on 80 GSM paper with NCER T
watermark

Chief Business
Manager

: Gautam Ganguly

Published at the Publication Division by
the Secretary, National Council of
Educational Research and Training,
Sri Aurobindo Marg, New Delhi 110 016
and printed at Pankaj Printing Press,
D-28, Industrial Area, Site-A, Mathura
(Uttar Pradesh)

Editor

: Bijnan Sutar

Production Officer

: Arun Chitkara

Cover
Shweta Rao

Illustrations
Prashant Soni

2015-16 (11-11-2014)