ACTIVITY-BASED TEACHING IMPROVES GROSS MOTOR SKILLS AND EARLY ACADEMIC ACHIEVEMENT AMONG NORTH CHENNAI NURSERY STUDENTS: A TEACHER’S PERSPECTIVE

Authors

  • GAYATHRI MURUGAN Department of Primary Education, B.V. Victory Nursery and Primary School, Shanmugapuram, Thiruvotriyur, Chennai, Tamil Nadu, India.
  • RAJASEKARAN V Department of Primary Education, B.V. Victory Nursery and Primary School, Shanmugapuram, Thiruvotriyur, Chennai, Tamil Nadu, India.
  • AHALYA R Department of Primary Education, B.V. Victory Nursery and Primary School, Shanmugapuram, Thiruvotriyur, Chennai, Tamil Nadu, India.
  • MURUGAN NANDAGOPAL Molecular Genetics, Lifecell International Pvt Ltd, Chennai, Tamil Nadu, India.

Keywords:

Gross motor skills, Cognitive skills, Activity-based teaching, Nursery students, Curriculum-based activity, Academic growth, Skill development, North Chennai

Abstract

Objective: Gross motor skills and cognitive skills are essential prerequisites for the physical development of an early childhood. The World Health Organization (WHO) has developed normal age ranges for the achievement of motor milestones by healthy children. The current study aimed to assess the gross motor skills, cognitive skills related to development achievements and its associated factors among North Chennai nursery students.

Materials and Methods: A prospective study was conducted among nursery students from B.V. Victory Nursery and Primary School, Thiruvotriyur, North Chennai, India. Gross motor skills and cognitive skills were assessed through 14 and 13 activities, respectively. The assessment and the scores evaluated as per standard methods and it was recorded and analyzed using Microsoft Excel based tools.

Results: Overall, 16 children aged 3–4 years old were included in the study. Of the 16 students, 9 boys and 7 girls were assessed for the gross motor skills and cognitive skills using various activities. From this study, girl’s performance was better than the boy’s performance in various activities. Activities performance and their physical and mental growth were significantly associated with the timely achievement of gross motor and cognitive milestones.

Conclusion: This study suggests that students’ gross motor skills and cognitive skills may explore during activity-based teaching module compared to blackboard based study. Hence, we conclude, the activity-based teaching methods for nursery and primary students may help in exploring the student’s potential to the maximum extent with the acquisition of various skills.

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References

Mickle KJ, Munro BJ, Steele JR. Gender and age affect balance performance in primary school-aged children. J Sci Med Sport 2011;14:243-8.

Venetsanou F, Kamba A. The effects of age and gender on balance skills in preschool children. Phys Educ Sport 2011;9:81-90.

Gallahue D, Donnely F. Developmental Physical Education for All Children. Champaign: Human Kinetics; 2003.

Miyahara J, Meyers C. Early learning and development standards in East Asia and the Pacific: Experiences from eight countries. Int J Early Child 2008;40:17-31.

National Council of Education Research and Training (NCERT). National Focus Group on Early Childhood Education. Position Paper. New Delhi: National Council of Education Research and Training; 2006.

Chopra N. A focus on early childhood care and education to ensure fulfilment of right to education-2009. Innov J Educ 2015;3:7-9.

Bharthu R, Thajudeen A. Efficacy of grip strength and hand coordination training in improvement of handwriting in school children. Innov J Educ 2017;5:1-5.

Kumar NS, Fathima MP, Mohan S. Impact of neurocognition on teaching competency. Innov J Educ 2013;1:7-9.

Babu A, Maiwal J. Role of an Importance of activities in school environment. Innov J Educ 2014;2:1-2.

Mahar J. Study of role of the guardians in the management of primary schools. Innov J Educ 2014;2:3-5.

Kaul V, Ramchandran C, Upadhaya GC. Impact of Early Childhood Education on Retention in Primary Grades: A Longitudinal Study. New Delhi: National Council of Educational Research and Training; 1993.

M.S. Swaminathan Research Foundation. Quality Matters! Understanding the Relationship between Quality of Early Childhood Education and Learning Competencies of Children: An Exploratory Study in Tamil Nadu. Chennai: M.S. Swaminathan Research Foundation; 2000.

Willems TM, Witvrouw E, Delbaere K, Philippaerts R, De Bourdeaudhuij I, De Clercq D. Intrinsic risk factors for inversion ankle sprains in females--a prospective study. Scand J Med Sci Sport 2005;15:336-45.

Houghton Mifflin Company. The American Heritage Medical Dictionary. Boston: Houghton Mifflin Company; 2004. Available from: http://www.medical-dictionary.thefreedictionary.com/motor.

Oswalt A. Early Childhood Physical Development: Gross and Fine Motor Development. Medwin Publishers; 2008.

Benelli C, Yongue B. Supporting young children’s motor development. Child Educ 1995;71:217-20.

Franjoine MR, Darr N, Held SL, Kott K, Young BL. The performance of children developing typically on the pediatric balance scale. Pediatr Phys Ther 2010;22:350-9.

Habib Z, Westcott S. Assessment of anthropometric factors on balance tests in children. Pediatr Phys Ther 1998;10:101-9.

Bressel E, Yonker JC, Kras J, Heath EM. Comparison of static and dynamic balance in female collegiate soccer, basketball, and gymnastics athletes. J Athl Train 2007;42:42-6.

Wrotniak BH, Epstein LH, Dorn JM, Jones KE, Kondilis VA. The relationship between motor proficiency and physical activity in children. Pediatrics 2006;118:e1758-65.

Milanese C, Bortolami O, Bertucco M, Verlato G, Zancanaro C. Anthropometry and motor fitness in children aged 6-12 years. J Hum Sport Exerc 2010;5:265-79.

Ozmun JC, Gallahue DL. Motor development. In: Winnick JP, editor. Adapted Physical Education and Sport. Champaign, IL: Human Kinetics; 2005. p. 343-57.

Kalaja S, Jaakkola T, Liukkonen J, Watt A. The role of gender, enjoyment, perceived physical activity competence, and fundamental movement skills as correlates of the physical activity engagement of Finnish physical education students. Scand Sport Stud Forum 2010;1:69-87.

Tripathi R, Joshua AM, Kotian MS, Tedla JS. Normal motor development of Indian children on Peabody developmental motor scales-2 (PDMS-2). Pediatr Phys Ther 2008;20:167-72.

Folio MR, Frewell RR. Peabody Developmental Motor Scales. 2nd ed. Austin, TX: Pro-Ed; 2000.

Van Hartingsveldt MJ, Cup EH, Oostendorp RA. Reliability and validity of the fine motor scale of the Peabody developmental motor scales-2. Occup Ther Int 2005;12:1-13.

Franjoine MR, Gunther JS, Taylor MJ. Pediatric balance scale: A modified version of the berg balance scale for the school-age child with mild to moderate motor impairment. Pediatr Phys Ther 2003;15:114-28.

D Hont E, Deforeche B, Bourdeaudhuij ID, Lenoir M. Relationship between motor skill and body mass index in 5- to 10-year-old children. Adapt Phys Activ Q 2009;6:21-37.

Goulding A, Jones IE, Taylor RW, Piggot JM, Taylor D. Dynamic and static tests of balance and postural sway in boys: Effects of previous wrist bone fractures and high adiposity. Gait Posture 2003;17:136-41.

Dwyer DC, Ringstaff C, Sandholtz JH. Changes in teachers’ beliefs and practices in technology-rich classrooms. Educ Leadersh 1991;48:45-52.

Zhu C, Valcke M, Schellens T. A cross-cultural study of teacher perspectives on teacher roles and adoption of online collaborative learning in higher education. Eur J Teach Educ 2010;33:147-65.

Kundu A. A study on Indian teachers’ roles and willingness to accept educational technology. Int J Innov Stud Sociol Humanit 2018;3:42-52.

Available from: http://www.social.niti.gov.in/edu-new-ranking.

Published

01-07-2020

How to Cite

MURUGAN, G., V, R., R, A., & NANDAGOPAL, M. (2020). ACTIVITY-BASED TEACHING IMPROVES GROSS MOTOR SKILLS AND EARLY ACADEMIC ACHIEVEMENT AMONG NORTH CHENNAI NURSERY STUDENTS: A TEACHER’S PERSPECTIVE. Innovare Journal of Education, 8(1), 1–6. Retrieved from https://journals.innovareacademics.in/index.php/ijoe/article/view/38088

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Research Article(s)