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Unlike some other reproductions of classic texts (1) We have not
used OCR(Optical Character Recognition), as this leads to bad
quality books with introduced typos. (2) In books where there are
images such as portraits, maps, sketches etc We have endeavoured to
keep the quality of these images, so they represent accurately the
original artefact. Although occasionally there may be certain
imperfections with these old texts, we feel they deserve to be made
available for future generations to enjoy.
Unlike some other reproductions of classic texts (1) We have not
used OCR(Optical Character Recognition), as this leads to bad
quality books with introduced typos. (2) In books where there are
images such as portraits, maps, sketches etc We have endeavoured to
keep the quality of these images, so they represent accurately the
original artefact. Although occasionally there may be certain
imperfections with these old texts, we feel they deserve to be made
available for future generations to enjoy.
Unlike some other reproductions of classic texts (1) We have not
used OCR(Optical Character Recognition), as this leads to bad
quality books with introduced typos. (2) In books where there are
images such as portraits, maps, sketches etc We have endeavoured to
keep the quality of these images, so they represent accurately the
original artefact. Although occasionally there may be certain
imperfections with these old texts, we feel they deserve to be made
available for future generations to enjoy.
Mathematics is traditionally seen as the most neutral of
disciplines, the furthest removed from the arguments and
controversy of politics and social life. However, critical
mathematics challenges these assumptions and actively attacks the
idea that mathematics is pure, objective, and value?neutral. It
argues that history, society, and politics have shaped
mathematics-not only through its applications and uses but also
through molding its concepts, methods, and even mathematical truth
and proof, the very means of establishing truth. Critical
mathematics education also attacks the neutrality of the teaching
and learning of mathematics, showing how these are value?laden
activities indissolubly linked to social and political life.
Instead, it argues that the values of openness, dialogicality,
criticality towards received opinion, empowerment of the learner,
and social/political engagement and citizenship are necessary
dimensions of the teaching and learning of mathematics, if it is to
contribute towards democracy and social justice. This book draws
together critical theoretic contributions on mathematics and
mathematics education from leading researchers in the field.
Recurring themes include: The natures of mathematics and critical
mathematics education, issues of epistemology and ethics; Ideology,
the hegemony of mathematics, ethnomathematics, and real?life
education; Capitalism, globalization, politics, social class,
habitus, citizenship and equity. The book demonstrates the links
between these themes and the discipline of mathematics, and its
critical teaching and learning. The outcome is a groundbreaking
collection unified by a shared concern with critical perspectives
of mathematics and education, and of the ways they impact on
practice.
This book offers an up-to-date overview of the research on
philosophy of mathematics education, one of the most important and
relevant areas of theory. The contributions analyse, question,
challenge, and critique the claims of mathematics education
practice, policy, theory and research, offering ways forward for
new and better solutions. The book poses basic questions,
including: What are our aims of teaching and learning mathematics?
What is mathematics anyway? How is mathematics related to society
in the 21st century? How do students learn mathematics? What have
we learnt about mathematics teaching? Applied philosophy can help
to answer these and other fundamental questions, and only through
an in-depth analysis can the practice of the teaching and learning
of mathematics be improved. The book addresses important themes,
such as critical mathematics education, the traditional role of
mathematics in schools during the current unprecedented political,
social, and environmental crises, and the way in which the teaching
and learning of mathematics can better serve social justice and
make the world a better place for the future.
A Volume in The Montana Mathematics Enthusiast: Monograph Series in
Mathematics EducationSeries Editor Bharath Sriraman, The University
of MontanaThe word "critical" in the title of this collection has
three meanings, all of which are relevant. One meaning, as applied
toa situation or problem, is "at a point of crisis." A second
meaning is "expressing adverse or disapproving comments
orjudgments." A third is related to the verb "to critique," meaning
"to analyze the merits and faults of." The authorscontributing to
this book pose challenging questions, from multiple perspectives,
about the roles of mathematics insociety and the implications for
education. Traditional reasons for teaching mathematics include:
preparing a newgeneration of mathematics researchers and a cadre of
technically competent users of mathematics; training students
tothink logically; and because mathematics is as much part of
cultural heritage as literature or music. These reasons
remainvalid, though open to critique, but a deeper analysis is
required that recognizes the roles of mathematics in framing
manyaspects of contemporary society, that will connect mathematics
education to the lived experiences of students, theircommunities,
and society in general, and that acknowledges the global ethical
responsibilities of mathematicians andmathematics educators.The
book is organized in four sections (1) Mathematics education: For
what and why?(2) Globalization and cultural diversity, (3)
Mathematics, education, and society and (4) Social justice in, and
through, mathematics educationThe chapters address fundamental
issues such as the relevance of school mathematics in people's
lives; creating a sense of agency for the field of mathematics
education, and redefining the relationship between mathematics as
discipline, mathematics as school subject and mathematics as part
of people's lives.
This book provides a panorama of complimentary and forward looking
perspectives on the learning of mathematics and epistemology from
some of the leading contributors to the field. It explores
constructivist and social theories of learning, and discusses the
role of the computer in the light of these theories. It brings
analyses from psychoanalysis, Hermeneutics and other perspectives
to bear on the issues of mathematics and learning. It enquires into
the nature of enquiry itself, and an important emergent theme is
the role of language. Finally it relates the history of mathematics
to its teaching and learning. The book both surveys current
research and indicates orientations for fruitful work in the
future.
This book provides a panorama of complimentary and forward looking
perspectives on the learning of mathematics and epistemology from
some of the leading contributors to the field. It explores
constructivist and social theories of learning, and discusses the
role of the computer in the light of these theories. It brings
analyses from psychoanalysis, Hermeneutics and other perspectives
to bear on the issues of mathematics and learning. It enquires into
the nature of enquiry itself, and an important emergent theme is
the role of language. Finally it relates the history of mathematics
to its teaching and learning. The book both surveys current
research and indicates orientations for fruitful work in the
future.
Although many agree that all teaching rests on a theory of
knowledge, there has been no in-depth exploration of the
implications of the philosophy of mathematics for education. This
is Paul Ernest's aim. Building on the work of Lakatos and
Wittgenstein it challenges the prevalent notion that mathematical
knowledge is certain, absolute and neutral, and offers instead an
account of mathematics as a social construction. This has profound
educational implications for social issues, including gender, race
and multiculturalism; for pedagogy, including investigations and
problem solving; and challenges hierarchical views of mathematics,
learning and ability. Beyond this, the book offers a well-grounded
model of five educational ideologies, each with its own
epistemology, values, aims and social group of adherents. An
analysis of the impact of these groups on the National Curriculum
results in a powerful critique, revealing the questionable
assumptions, values and interests upon which it rests. The book
finishes on an optimistic note, arguing that pedagogy, left
unspecified by the National Curriculum, is the way to achieve the
radical aims of educating confident problem posers and solvers who
are able to critically evaluate the social uses of mathematics.
First published in 1991. Routledge is an imprint of Taylor &
Francis, an informa company.
This volume sets out to challenge and ultimately broaden the
category of the 'photobook'. It critiques the popular art-market
definition of the photobook as simply a photographer's book,
proposing instead to show how books and photos come together as
collective cultural productions. Focusing on North American,
British and French photobooks from 1920 to the present, the
chapters revisit canonical works - by Claudia Andujar and George
Love, Mohamed Bourouissa, Walker Evans, Susan Meiselas and Roland
Penrose - while also delving into institutional, digital and
unrealised projects, illegal practices, DIY communities and the
poetic impulse. They throw new light on the way that gendered,
racial or colonial assumptions are resisted. Taken as a whole, the
volume provides a better understanding of how the meaning of a
photobook is collectively produced both inside and outside the art
market. -- .
Currently there is a great deal of interest in philosophical issues in the teaching and learning of both mathematics and science education. In this book Ernest has collected together papers from the foremost researchers and practitioners in the philosophy of mathematics education and related areas, together with a selection of papers from the International Congress of Mathematics Education held in Quebec in 1992. Throughout, the outstanding feature of the collection is its multidisciplinary approach to the field of study. This book is the second in Paul Ernest's "Studies in Mathematics Education" series. eBook available with sample pages: 0203362594
This book provides a panorama of complimentary and forward looking
perspectives on the learning of mathematics and epistemology from
some of the leading contributors to the field. It explores
constructivist and social theories of learning, and discusses the
role of the computer in the light of these theories. It brings
analyses from psychoanalysis, Hermeneutics and other perspectives
to bear on the issues of mathematics and learning. It enquires into
the nature of enquiry itself, and an important emergent theme is
the role of language. Finally it relates the history of mathematics
to its teaching and learning. The book both surveys current
research and indicates orientations for fruitful work in the
future.
First published in 1994. Routledge is an imprint of Taylor &
Francis, an informa company.
Contents: Reconceptualizing the Philosophy of Mathematics: Fresh Winds in the Philosophy of Mathematics, Reuben Hersh; What can the Sociologist of Knowledge Say About 2+2=4?, DavidBloor. Post-Modernist and Post- Structuralist Approaches: Reasoning in a Post-Modern Age, Valerie Walkerdine; Mathematical Writing, Thinking, and Virtual Reality, Brian Rotman. The Human Face of Mathematics: Mathematics and Art: Cold Calipers against Warm Flesh?, Philip J. Davis; Different Ways of Knowing: Contrasting Styles of Argument in Indian and Greek. The Social Context of Mathematics and Education: The Social Life of Mathematics, Sal Restive.
Although many agree that all teaching rests on a theory of
knowledge, there has been no in-depth exploration of the
implications of the philosophy of mathematics for education. This
is Paul Ernest's aim. Building on the work of Lakatos and
Wittgenstein it challenges the prevalent notion that mathematical
knowledge is certain, absolute and neutral, and offers instead an
account of mathematics as a social construction. This has profound
educational implications for social issues, including gender, race
and multiculturalism; for pedagogy, including investigations and
problem solving; and challenges hierarchical views of mathematics,
learning and ability. Beyond this, the book offers a well-grounded
model of five educational ideologies, each with its own
epistemology, values, aims and social group of adherents. An
analysis of the impact of these groups on the National Curriculum
results in a powerful critique, revealing the questionable
assumptions, values and interests upon which it rests. The book
finishes on an optimistic note, arguing that pedagogy, left
unspecified by the National Curriculum, is the way to achieve the
radical aims of educating confident problem posers and solvers
Although many agree that all teaching rests on a theory of
knowledge, there has been no in-depth exploration of the
implications of the philosophy of mathematics for education. This
is Paul Ernest's aim. Building on the work of Lakatos and
Wittgenstein it challenges the prevalent notion that mathematical
knowledge is certain, absolute and neutral, and offers instead an
account of mathematics as a social construction. This has profound
educational implications for social issues, including gender, race
and multiculturalism; for pedagogy, including investigations and
problem solving; and challenges hierarchical views of mathematics,
learning and ability. Beyond this, the book offers a well-grounded
model of five educational ideologies, each with its own
epistemology, values, aims and social group of adherents. An
analysis of the impact of these groups on the National Curriculum
results in a powerful critique, revealing the questionable
assumptions, values and interests upon which it rests. The book
finishes on an optimistic note, arguing that pedagogy, left
unspecified by the National Curriculum, is the way to achieve the
radical aims of educating confident problem posers and solvers
This book combines accessible explanations of mathematical concepts with practical advice on effective ways of teaching the subject. Section A provides a framework of good practice. Section B aims to support and enhance teachers subject knowledge in mathematical topics beyond what is taught to primary children. Each chapter also highlights teaching issues and gives examples of tasks relevant to the classroom. Section C is a collection of papers from tutors from four universities centred around the theme of effective teaching and quality of learning during this crucial time for mathematics education.
This survey provides a brief and selective overview of research in
the philosophy of mathematics education. It asks what makes up the
philosophy of mathematics education, what it means, what questions
it asks and answers, and what is its overall importance and use? It
provides overviews of critical mathematics education, and the most
relevant modern movements in the philosophy of mathematics. A case
study is provided of an emerging research tradition in one country.
This is the Hermeneutic strand of research in the philosophy of
mathematics education in Brazil. This illustrates one orientation
towards research inquiry in the philosophy of mathematics
education. It is part of a broader practice of 'philosophical
archaeology': the uncovering of hidden assumptions and buried
ideologies within the concepts and methods of research and practice
in mathematics education. An extensive bibliography is also
included.
This book combines accessible explanations of mathematical concepts
with practical advice on effective ways of teaching the subject.
Section A provides a framework of good practice. Section B aims to
support and enhance teachers subject knowledge in mathematical
topics beyond what is taught to primary children. Each chapter also
highlights teaching issues and gives examples of tasks relevant to
the classroom. Section C is a collection of papers from tutors from
four universities centred around the theme of effective teaching
and quality of learning during this crucial time for mathematics
education.
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