NCF 2005 and Teaching –Learning at Elementary Level
Sujata B. HanchinalkarRegional Institute of Education(NCERT)Mysore
NCF –NCERT1975198820002005
NCF 200521 Focus group Reports1. Perspectives2. Learning and Knowledge3. Curriculum Areas, School stage
and Assessment4. School and Classroom
Environment5. Systemic Reforms
Guiding Principles of NCF 2005-Connecting knowledge to life outside the school.
-Ensuring the learning is shifted away from rote methods.
-Enriching the curriculum to provide for overall development of children rather than remain textbook centric.
-Making examination more flexible and integrated into classroom life.
-Nurturing an over-riding identity informed by caring concerns with the democratic polity of the country.
The period of elementary school-Class I to VIII Formal introduction-reading, writing and arithmetic cognitive development, shaping reason, intellect and social
skills.
Plurality and flexibility
Child's language competence: issues related to articulation and literacy, and the ability to use language to create, to think and to communicate with others.
Opportunities to study in their mother tongue.
Diagnosing learning difficulties and addressing remedial work in language and mathematics.
Process oriented-approach to curriculum
School and classroom environment Children feel safe, happy and wanted
Teacher a facilitator (learner centeredness)
Cooperative learning/ collaborative learning
Learning experience of learner-importance
Interlinking the knowledge of learner with school knowledge
Going beyond the textbook
Learner autonomy
Create knowledge-constructivist classroom
School environment Classroom space- windows, doors in learning
Mathematics
Outer space-trees helping in understanding seasons, Water conservation concept-gardening, Water harvesting
Importance to child’s work- art, painting, poem on wall
Ratio 1:30 Learner friendly classroom*(6hrs/day and 1000hrs/yr)
Questions/talk/discuss/noise-self-confidence, self-esteem
Opportunities for learner to construct knowledge
Maximised use of A-V materials
Decompartmentalising the subject boundaries
Interdisciplinary approach
Community participation-belongingness
Plurality of textbooks but not at the cost of quality……………….(authentic source of knowledge?)accontability.
Flexibility
Textbooks are child friendly- ARE WE?
School subjects Languages- Multilingualism a resource? Studies-bilingual proficiency raises the levels of
cognitive growth, social tolerance, divergent thinking and
scholastic achievement. Article 350A of our Constitution- instruction in the mother-tongue at the primary stage of education
to children belonging to linguistic minority groups.
Emphasise on reading (with understanding?)
Primary stage, child‘s languages must be accepted as they are, with no attempt to correct them.
Class IV, if rich and interesting exposure is made available, the child will acquire standard
Errors are a necessary part of the process of learning. Provide comprehensible, interesting and challenging
inputs. Speech and listening, reading and writing- children's
mastery over them becomes the key factor affecting success at school.
MATHEMATICS the child's resources to think and reason
mathematically, logical conclusion and to handle abstraction.
Values inbuilt in examples. Teachers engage every child in class with the
conviction that everyone can learn mathematics. Visualisation and representatio Skill (at home). Interdisciplinary
SCIENCE Curiosity Observe Hypothesise Verify-experiment Conclude Universal truth- sunrises in the east- DOES HE?
Cognitive validity requires that the content, process, language and pedagogical practices of the curriculum are age appropriate, and within the cognitive reach of the child.
Content validity requires that the curriculum must convey significant and correct scientific information. Simplification of content, which is necessary for adapting the curriculum to the cognitive level of the learner, must not be so trivialised as to convey something basically flawed and/or meaningless.
Process validity requires that the curriculum should engage the learner in acquiring the methods and processes that lead to the generation and validation of scientific knowledge and nurture the natural curiosity and creativity of the child in science.”LEARNING TO LEARN SCIENCE”
Historical validity requires that the science curriculum be informed by a historical perspective, enabling the learner to appreciate how the concepts of science evolve over time.
Environmental validity requires that science beplaced in the wider context of the learner's environment, local and global
Ethical validity requires that the curriculum promote the values of honesty, objectivity, cooperation, and freedom from fear and prejudice, and inculcate in the learner a concern for life and preservation of the environment
Social Science Sensitivity towards issues Non-utility subject- Provide the social, cultural, and analytical skills to adjust
to an increasingly interdependent world Contextualization of content in the diversity/plurality Environmental Studies-sustainable development Reflect the day-to-day experiences
ART EDUCATION-'useful hobbies Theatre, Music, Dance, Visual Arts in Education
Role play,theatre exercises, body and voice control and movement, and group and spontaneous enactments. debate and discussion
Interactive approach
HEALTH AND PHYSICAL EDUCATION basic needs like food, safe drinking water supply,
housing, sanitation and health services influences the health status of a population, and these are reflected through mortality and nutritional indicator
Physical education and yoga contribute to the physical,social, emotional and mental development of a child.
WORK AND EDUCATIONWork -an arena for learning for childrenTransform knowledge into experienceEDUCATION FOR PEACEIntolerance, violenceliving in harmony with oneself and withothers, including nature
Teaching –learning strategies Constructivist approach
Cooperative learning
Concept mapping
Experiential learning
Creative writing- Poster making, story board, story telling
Thank You