Kesediaan Kanak-kanak Prasekolah Mengecam Pola Matematik (Preschoolers’ Readiness in Recognizing Mathematical Patterns)
Abstract
The aim of this research is to explore 6 year old preschoolers’ readiness in recognizing pattern in five different dimensions
and rules. The research instrument was adapted from previous research. A total of 156 preschoolers were involved in
this research. The data were analyzed descriptively. The results indicate that on the average the children were at low
level of readiness in recognizing the pattern in different dimensions and rules. The results also showed that majority of
the children could recognize colors dimension in patterning (31.15%) more than other dimensions. It was found that
children could hardly recognize number dimension patterns (25.89%). The results also indicate that children could easily
recognize type 1 pattern, namely simple alternating following the rules of ABBABB(38.97%). However increase alternating
following the rules of ABABBABBBwhich are type 4 pattern was hardly recognized by the children (20.38%). These findings
will help early childhood teachers in diversifying patterning instruction and content of knowledge beginning from the
easiest dimensions and rules until the most complex patterns.
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Clements, d.h. & Sarama, J. 2007. Building Blocks.(Computer
Software) Colombus, ohSRa, Mc. graw hill.
economopolous, K. 1998. What comes next? The mathematics of
patterning in kindergarten, Teaching Children Mathematics
: 230-233
Gadzichowski, K.M. 2012. Patterning abilities of first grade
children: effects of dimension and type. Creative Education
(5): 632-635.
hendricks, C., Trueblood, l. & Pasnak, R. 2006. effects of
teaching patterning to 1
st
graders. Journal of Research
in Childhood Education 21(1): 79-89. (eRiC document
Reproduction Service No eJ751970).
Jackman, h.l. 2005. Early Education Curriculum: A Child’s
Connection to the World. (3
rd
ed). New york: Thomas
delmar learning.
Kementerian Pelajaran Malaysia. 2010. Dokumen standard
kurikulum (Prasekolah). Kuala lumpur: Bahagian
Pembangunan Kurikulum.
Mulligan, J. & Mitchelmore, M. 2009. awareness of pattern and
structure in early mathematical development. Mathematics
Education Research Journal21(2): 3.
National Council of Teachers of Mathematics (NCTM). 2000.
Principles and Standards for School Mathematics. Reston,
Va: PuBliSheR?????
Norhaizian Seman & Sharifah Norul akmar Syed Zamri. 2011.
Numeracy Level of Pre School. Proceedings of international
Conference on future education in global Challenges,19
th
april 2011, Surabaya indonesia pp.310-322
Papic, M. 2007. Promoting repeating patterns with young
children: More than just alternating colors. Australian
Primary Mathematics Classroom12: 8-13. (eRiC document
Reproduction Service No eJ793981).
Papic, M. & Mulligan, J.T. 2007. The growth of early mathematical
patterning: an intervention study. in Mathematics: Essential
Research, Essential Practice, edited by Watson, J. &
Beswick, K. (Proceedings of the 30th annual conference of
the Mathematics education Research group of australasia,
hobart, Vol. 2, pp. 591-600). adelaide: MeRga.
Sharifah Norul akmar Syed Zamri & Juliana hj Md yusop. 2011.
Competency Level Of TABIKA KEMAS Children in Early
Math.Proceedings of international Conference on future
education in global Challenges, 19
th april 2011, Surabaya
indonesia.
Threlfall, J. 1999. Repeating patterns in the early primary years.
in Patterns in the Teaching and Learning of Mathematics,
edited by orton, a. london: Cassell.
Waters, J. 2004. a study of mathematical patterning in early
childhood settings. in Mathematics Education for the 3rd
Millennium: Towards 2010, edited by Putt, i., faragher, R. &
Mclean, M. Proceedings of the 27th annual Conference of
the Mathematics education Research group of australasia.
Sydney: MeRga.
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