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CoU. Antropol. 37 (2013) 2: 391-400 Original scientific paper Effects of an Additional Basketball and Volleyball Program on Motor Abilities of Fifth Grade Elementary School Students Aleksandar SelmanovicS Dragan Milanovic^ and Zrinko Custonja^ ^ University of Dubrovnik, Department of Pbysical Education, Dubrovnik, Croatia ^ University of Zagreb, Faculty of Kinesiology, Zagreb, Croatia ABSTRACT The aim was to evaluate the transformational effects of an additional weekly PE session based on team sports (basket- ball and volleyball) on students' motor status. The research was conducted on a sample of 125 eleven-year-old boys di- vided into three groups (two experimental and one control) which were examined by 12 motor tests at the beginning and at the end of the 9-month period. The tests included evaluation of explosive power, dynamic and static strength endur- ance, co-ordination, flexibility and hand frequency motion. Although all three treatments together, complemented by the natural growth and developmental factors, induced significant quantitative changes, the results showed the highest mo- tor improvements in the basketball experimental group, followed by the volleyball experimental group. While explosive power mainly contributed toward significant difference between the control and experimental groups in the final mea- surement, univarate test results also showed distinctive improvements in dynamic strength, hand frequency motion and various factors of co-ordination within experimental groups. The general conclusion points to the fact that even one addi- tional PE session per week of the given program is sufficient to produce significant changes in motor abilities of elemen- tary school fiflh graders. Therefore the authors' support the legal provisions of mandatory implementation of extra-cur- ricular forms of physical activity in elementary schools. Key words: extra-curricular program, basketball, volleyball, motor abilities Introduction Considering a constant decrease in demand of physi- cal effort in the modern society, a process of organized and optimally programmed lifelong physical exercise be- comes a crucial determinant of quality Emd health pro- moting modern living style Eind proper development amongst younger age groups. The negative trend of h3rpokinesis emphEises the apphcation of fundamental re- seEirch findings in the area of apphed science, particu- larly in pedagogy of physicEd education. Application of current scientific achievements, primarily within the field of kinesiology, including co-relational sciences that deEd with education, provides Eissurance of physical edu- cation teaching methods in continuing the search for its epistemological conditions^ An initiative for this research comes from the essen- tial proposition of sport within the schooling system - each child has a strong need and right to participate in all forms of curricular and extracurricular sports activities. Physical education (PE) is the most effective way to orga- nize mass physical activity for children and young peo- ple. Considering the limited number of weekly PE clas- ses, the didactics of PE focuses on the research directed on quality improvement of the existing curricula and syl- labuses which should help introduction of highly profi- cient methods and models of teaching in the future. In- novations, additions, and corrections of subject contents Euid effective additional forms of education (elective phy- sical courses, school sport clubs, etc.) should compensate for the limitations of regulEir PE curriculum. Numerous reseeirch studies^' have covered tbe effects of additional physical activity inside the schooling sys- tem. These studies treated different ages and genders of examinees, work contents, workload intensities, periods of application, and used analyses of various anthropologi- Received for publication June 29, 2010 391 A. Selmanovié et al.: Additional Basketball and Volleyball Program in PE, Coll. Antropol. 37 (2013) 2: 391-400 cal parameters. However, all had a unique goal to con- tribute to the design of the most functional kinesiological operators, which will optimally promote proper develop- ment of students' psycho-motor capabilities. The application and analysis of the effects of an addi- tional teaching form is the main topic of this paper. Spe- cifically, the basic aim was to find out and analyze poten- tial differences in changes of motor characteristics of ll-ye£ir-old (±6 months) students under the infiuence of a supplementary PE class of team ball games as opposed to those students who attended only the mandatory PE hours. Aim The main objective of this research was to einalyze the effectiveness of two dissimilar experimental programs used as a supplement to the regular PE classes. The first experimental group had an additional class session per week made up of different exercises, drills and games of volleyball. The second experimental program had em ad- ditional class session based on the contents of different elements and games of hasketball. The toted amount of both the regular and additional PE cleisses during the school year for each of the analyzed experimented groups was 105 hours (70 regular contact hours + 35 additioned contact hours). The third group, the control group, consisted of stu- dents who were attending exclusively the PE classes ac- cording to the 5th grade regular curriculum - twice a week for 45 minutes, or a total of 70 hours per year. Four hypotheses were set: Hi - the groups of examinees will not differ in the motor characteristics at the initial state; H2 - the groups of examinees will not significantly improve their motor cheu-acteristics during the school yeeu-; H3 - the control group in comparison with each expe- rimental group will not differ in motor charac- teristics in the final state; H4 - the experimental groups will not differ in the fi- nal state Research Methods Sample of examinees The research was conducted on a sample of 125 boys, aged 11 years (±6 months). Randomly selected students sample had a satisfactory health status (without any chronic health problems) and were not engaged in sports activities outside the school system. The examinees were divided into three groups - one control and two experi- mental. The control group (C), consisted of 42 students, the experimental group - volleyball (Ey) was made up of 45 students, etnd the experimented group - basketbedl comprised 38 students. Sample of variables To estabUsh changes caused by regular eaid the exper- imented progreim a battery of 12 tests was used, suitable for determining the basic motor abilities of the fifth graders. The motor skills' assessment tests were: 1. Standing long jump (MSDM) - measuring explosive power-jump type; the subject takes-off and lands with both legs; recorded best score out of three at- tempts; the length is expressed in 1/100 m; 2. 20 m sprint (M20V) - measuring explosive power- -sprint type; 20 meter sprint from the standing posi- tion start; recorded fastest score out of three at- tempts; the time is expressed in 1/100 s 3. Medicine ball throw - measuring explosive power- throw t5rpe; the subject throws medicine beJl (2 kg) from the supine position, arms fully extended; recor- ded best score out of three attempts; the length is ex- pressed in 5/100 m 4. Sit-ups (MDTR) - measuring d3mamic strength en- duremce of torso (abdominals and hip fiexors) - lay- ing position start, arms crossed touching shoulders, knees bent 90°, feet anchored by partner; recorded number of frequencies (elbows-knees contact) in 60 s; one attempt required 5. Flexed-eirm hang (MIVZ) - measuring static strength endurance - the subject grasps the overhead beir with underhand grip with the armes fiexed and the chin clearing the heir, the chest held close to bar withlegs hanging straight; the subject holds this position for as long as possible; one attempt required 6. Obstacle course backwards (MPOL) - measuring co-ordination - the subject overcomes the 10 m obsta- cle course on all fours in reverse; recorded fastest score out of three attempts; the time is expressed in 10/100 s 7. 20 yards (M20J) - measuring co-ordination (agility) - three lines, five yetrds apart; the subject in start up position straddles the middle line and puts one hand down in a three-point stance: the subject runs emd touches either the right or left line then runs 10 yards to the opposite hne and then finally turns and finishes by running back through the start/finish line; recorded fastest score out of three attempts; the time is expressed in 1/100 s 8. Low beeim stand (MSNG) - measuring co-ordination (bedeuice) - the subject balemces on low beam, with eyes closed, on one foot; recorded average score out of three attempts; the time is expressed in seconds 9. Forward bent (MPRK) - measuring fiexibility - stan- ding position start on a bench; the subject bends for- ward with both hands, legs outstretched; recorded the lowest reach out of four attempts; measured in 1/100 m 10. Wide leg forward bent (MPRR) - measuring fiexibil- ity - sitting position start on the fioor; legs spread 45°; the subject bends forward with both hands; re- corded the furthest reach out of four attempts; mea- sured in 1/100 m 392 A. Selmanovié et al.: Additional Basketball and VoUeyball Program in PE, CoU. Antropol. 37 (2013) 2: 391-400 11. Shoulder circumduction - arms rotation (MISK) - measuring flexibility - tbe subjesct grips the cord that has a fixed handle on one end and a sliding han- dle on the other; sliding handle is adjusted so that the length of the cord between tbe inside of tbe two han- dles is equivalent to the subjects sboulder widtb (from acromion to acromion). The subject passes tbe cord, from in front of the body, over the head and as far back as possible; arms extended; recorded tbe best (lowest distance of bandies) score out of three at- tempts; measured in 1/100 m. 12. Hand tapping (MTAP) - measuring hand frequency movement - the subject places non-dominant hand in the middle of two discs (60 cm apart); the subject mo- ves the dominant hand back and fortb between the discs over the hand in the middle as quickly as possi- ble; recorded highest number of frequencies in 15 s out of three attempts. Data analysis Data processing included descriptive statistics of the scores the examinees achieved in the initial and final testing for each group. Inter-group comparison of motor status at the initial and final measurement, as well as testing of the first and fourth h3^otheses was carried out by means of canonical discriminant £inalysis. Globed mo- tor cbanges and the verification of the second and third h3rpotheses, were calculated by tbe algoritbm eind pro- gram for quantitative analysis of cbeinges under tbe model of differences (STA_DIFF)^, which included evalu- ation of each variable by univariate analysis of variance (ANOVA). Physical education curriculum for fifth grade Regular mandatory PE elementary scbool program According to age related developmental characteris- tics and needs of children, the main mission of PE teach- ing is focused on underpinning students' physical and psycho-social development to meet their primary biologi- cal motive in expressing tbemselves in play and physical motion creation. The official PE curriculum for the fifth grade of the elementary school is delivered in the total of 70 contact 45-minute hours in accordance with tbe Cro- atian Law on Primary Education. Sucb a program aims to meet tbe original buman need for movement and en- sures educational continuity of eacb student witb respect to tbe current state of antbropological cbaracteristics. Tbe program contents (Table 1) shows various forms of running, jumping Eind throwing, in other words, explo- sive power activities. An important place in the progretm is given to combat sports and dance elements. Tbe PE curriculum is saturated even witb by gjminastic ele- ments and balance position, suitable for tbe development of static strengtb. However, tbe team games, that is ele- mentary amd relay games, and elements of hsuidball, bas- ketball and football permeated with agility drills (fast changes of motion) and explosive power drills have a pre- dominant position in the program. Experimental programs Experimented programs of volleyball and basketball were introduced tbroughout the school year as an addi- tional hour per week (35 contact 45-minute hours a year), thus along with the regular PE classes producing a total of 105 hours of exercise. Teaching units and topics were primarily selected according to developmental state of H-year olds, so tbat tbe experimented curriculum con- tents could contribute to tbe development of students' capabihties and their mastering of the specific motor skills. A lesson's work load was defined by tbe ratio of en- ergy expenditure eind information supply. Higb energy consumption was empbasized during the performance of simple motion patterns, on the other hand, high informa- tion load was mainly introduced during learning of new motion patterns, emd new specific volleyball or basket- ball tasks. Complexities of specific basketball and volley- ball movement patterns also regulated tbe ratio of work intensity emd its extent. It is important to mention tbe specific didactic requirements of work witb cbildren - lots of play, versatility, imagination, individuality, friend- ship eind feiir-play, rivalry, promotion, and so forth. Be- sides the sport specific movement patterns that were in- troduced emd exercised primarily during the main »A« part of the session, a set of basic conditioning exercises were used as a component of tbe introductory part of a lesson. It aimed at developing motor abilities tbat were tbe relevant prerequisites for mastering various voUey- bedl and beisketball skills. Tbe additional volleyball program (Table 2) contained the basic elements of the geime - overhemd emd under- hand pass, and serve (underhand). Those elements were drilled enough to assure constant improvement of perfor- memce, which in turn served eis an essential prerequisite for quality emd long-term adoption of more complex, from the information point of view, tasks application (geimes, technique, tactics), and, consequently, led to pos- itive motor transformation. The basketball progreim (Table 3) was formed to allow a bigh performance frequency of basic basketball move- ments (running, jumping, passing and catching). In the eirea of tecbnical development the movements vwth ball (dribbling) and sbooting tbe ball into tbe basket predom- inated wbile tbe tactical teaching emd geunes provided el- ementeiry knowledge of proper court movements of play- ers in defense and offense. Results and Discussion Analysis of descriptive statistical parameters for students' m,otor assessment Comparing motor measure values obtained during the initial testing for the total sample of examinees with the norms of peer general population in the Repubhc of Croatia^ it can be stated that there were no significant differences. Arithmetic means were around average or slightly below the average of their population peers. This is a consequence of a remdomly selected sample of non- 393 A. Selmanovic et al.: Additional Basketball and Volleyball Program in PE, CoU. Antropol. 37 (2013) 2: 391-400 TABLE 1 REGULAR PROGRAM FOR FIFTH GRADE No Teaching units Teaching topics Cyclic movement at different paces up to 6 minutes Quick running (sprint) up to 50 m from the starting blocks Obstacle course Long jump over obstacles High jump, »scissors« technique Throwing a medicine ball (1 kg) with the left and right hand Throwingthe ball (200 g) for a distance and aiming at the teirget Simple routine on a high bar Simple routine on parallel bars Simple routine on rings (swinging) Climbing on ladders and poles, using arms and legs (up to 3 m) Handstand with assistance Walking low beam while catching and throwing the ball Hurdles The bsisic fighting position in a standing position and on the mat Elementary forms of wrestling Realization of 2/4 and 4/4 rhythmic form Formation of circles from the free movement (walking, running and hops) Folk dance (selection) Elementary and relay games Catching and passing the ball with one or two hands in standing or in the movement with changes of speed and directions of movement (handball and basketball) Picking the ball off the floor with one hand with the help of the other and with both hands (hand- ball and basketball) Dribbling (the left and right hand) with changes of speed and directions of movement (handball and basketball) Shooting from standing positions or from the movement (handball) Handball tactics (defense 5:0, 6:0) Handball tactics (attack) Handball (play) Dribbhng (football) Kicking the ball (football) Handling the ball (football) Passing the ball (football) Football (play) Shooting with one hand (basketball) Hitting the ball (overhand and underhand) (volleyball) Serving (volleyball) Volleyball (play) 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. Running Jumping Throwing Gymnastics Balance Athletics Combative sports Dance Games 22. 23. 24. 25. 26. 27. 28. 29. 30. 31. 32. 33. 34. 35. 36. -athletes taken in this research. Actually, considering the fact that students have not been active in sports, Edong with the belief that most of them have never been seri- ously involved in sports activities before, except attend- ing the regular PE classes taught by their class elementary school teachers (not PE specialists), motor parameters of the initial results indicate satisfactory levels as compared to the given norms. Table 4. shows absolute improvements of the arith- metic mean VEdues between initial and the final testing in Edmost all meEisured motor chEiracteristics. However, its importEmt to notice that no distinct improvements were shown in medicine ball throw (MBML), agility test (M20J) and forward bent (MPRK) of the control group. Generally, the results of skewness and kurtosis show no major deviation from the normEd distribution. 394 A. Selmanovié et al.: Additional Basketball and Volleyball Program in PE, Coll. Antropol. 37 (2013) 2: 391-400 TABLE 2 EXPERIMENTAL VOLLEYBALL PROGRAM No Teaching units 1. Running 2. 3. Jumping 4. Hitting 5. 6. 7. 8. Balance 9. 10. Volleyball a) technique 11. 12. 13. 14. Volleyball b) tactics 15. 16. 17. 18. Volleyball c) play 19. 20. Teaching topics Defensive movements Lateral movements in basic volleyball Takeoff from semi-squat position with the imitation of hitting the ball Formation of volleyball cups with the imitation of hitting • Overhand hit in front of the head Overhand hit above the head Underhand hit Low defense stance Middle defense stance Serving Set-throw £ind underhand hit Overhand hit against the wall Peissing the ball with different tasks Tactical drills (2:2) Tactical drills (3:3) Tactical drills (4:4) Tactical drills (»cooking«) Elementary games Mini volleybaU (3:3) VoUeyball (play) Frequency 2 2 4 2 6 6 10 2 2 6 4 2 5 2 2 2 1 10 10 4 TABLE 3 EXPERIMENTAL BASKETBALL PROGRAM No Teaching units Teaching topics Frequency 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. Running Jumping Balance Technique - peissing and shooting Technique - dribbling Tactic Play Gross movements with changes of speed and directions Defensive movements (lateral; back; »zig-zag«) Defensive rebounds Jump-catch and jump-pass Piston position Pivoting Chest pass (both hands; left hand; right hand) Shooting from standing positions or from the movement Passing on a move Dribbling (both hands); dribbling in eights Picking the ball off the floor with one hand with the help of the other and with hoth hands Dribbling and piston stance »Double pass« Relay games 3 on 3 (street basketball) Mini bîisketball 8 4 2 5 2 1 4 8 10 14 4 2 11 7 5 395 A. Selmanovic et al.: Additional Basketball and Volleyball Program in PE, Coll. 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Selmanovié et al.: Additional Basketball and Volleyball Program in PE, Coll. Antropol. 37 (2013) 2: 391-400 Analysis of the differences among the control group and both experimental groups in the indicators of motor abilities in the initial testing The second phase of the study eveduated possible dif- ferences between groups in the scores of the initial test- ing. Parameters of discriminant functions (EV -> WX= 0.98, Eigenvalue=0.02, p=1.00; EB -^ WX.=0.77, Eigen- value=0.02, p=1.00) indicated no significant differences between the control group and experimented groups, which confirmed the first h3rpothesis (HI) and proved the eissumption that all the participants belonged to the same population at the beginning of the experiment. It may be concluded that the overall kinesiologiced treat- ment up to that point, in interaction with the develop- mental characteristics, affected all the examinees just about equally. Analysis of changes in the indicators of motor abilities under the influence of the control and experimental programs throughout the school year Table 5 reveals significant broad cheinges in motor abilities elfter the 9-month programs' application, in all three analyzed groups. Based on this fact the second hy- pothesis (H2) is rejected. All three types of applied pro- grams, including the endogenous factors of growth and development, had a positive impact on the students' mo- tor dimensions. Motor improvement in the control group was mostly noticeable in the variables: standing long jump (MSDM), sit-ups (MDTR),obstacle course backwards (MPOL), hand tapping (MTAP). It can be concluded that the im- plementation of regular PE curriculum for the fifth grade is sufficient to cause the significant positive chan- ges in students' motor status, especially in explosive power-jump type, dynamic strength endurance, alter- nate hand movements frequency, and, partially, in coor- dination. Refiecting the positive effects in relation to the contents of the reguleir progreim, it is certain that the ap- plied teaching sections of Running and Jumping meiinly affected strength of the lower extremities; furthermore, teaching sections Geimes primarily infiuenced the devel- opment of edternate heind movements frequency, while the interactions of various sections infiuenced the devel- opment d3mamic abdominal strength endurance and co- -ordination. It was expected that the effects of additional pro- greuns would upgrade the positive changes obtained by the PE curriculum. This expectation was verified by the obtained results motor skill transformation of the con- trol euid experimental groups in each test. The regular PE classes in combination with the addi- tional voUeybedl program promoted positive effects on the meeisures of students' explosive power (standing long jump - MSDM; 20 m sprint - M20V; medicine ball throw - MBML) and dynamic strength (sit-ups - MDTR), fre- quency of alternate hand movements (hand tapping - MTAP) and partially co-ordination as well (obstacle cour- se backweu-ds - MPOL). High saturation of various peiss- TABLE5 GLOBAL CHANGES IN THE INDICATORS OF MOTOR ABILITIES OF CONTROL GROUP AND EXPERIMENTAL GROUPS BETWEEN INITIAL AND FINAL TEST c Ev EB Maha.dis d2 5.88 6.93 8.14 dfl 12 12 12 df2 30 33 26 F 15.1 18.2 18.1 P 0.00 0.00 0.00 Maha.dis - Mahalanobis distance; df - degrees of freedom; F • perimeter value; p - level of significance ing elements including the overheuid euid underhand hits within the volleyball program (Table 2) effectively helped the development of the arms and shoulder muscle region, thus improving explosive power of a throw ty^ie. The progress in explosive power - sprint type is primeirily a refiection of a genered conditioning drills conducted dur- ing the preparation phase of each lesson which included various kinds of high rate running over short distances. The most significant changes between the initied eind final meeisurement occurred in the motor veiriables of the experimental group - basketball, where a major increase was visible within dimensions of the explosive power (standing long jump - MSDM; 20 m sprint - M20V; medi- cine ball throw - MBML) and co-ordination (obstacle course backwards - MPOL; 20 yards - M20J; low beeim stand - MSNG) and also in dynamic strength enduremce (sit-ups - MDTR) and hand frequency movement (hand tapping - MTAP). It is obvious that the obtained changes eire consequences of high number of running and jump- ing drills, a lot of techniced elements practiced in the meiin part of each lesson, as well as basic physical condi- tioning drills applied in the preparation part of each class. On the other heuid, no significeint progress in the mea- sures of static strength and fiexibility was obteiined in einy group, which suggested that in the future more at- tention should be devoted to the exercises eiimed at devel- oping those motor skills when preparing and implement- ing the program content for the regular fifth grade PE classes, as well as other veuriations of additional physical activities. Analysis of the differences between the control group and experimental groups in the indicators of motor abilities in the final testing The quantitative difference in motor variables at the final testing was etnalyzed between the control group and each of the experimental groups. Table 6 shows the significant differences between the control group eind experimental groups of the examinees in the fined measurement - all in favor of the experimen- tal groups (EV -> W^=0.33, Eigenvalue=0.75, p=0.03; EB -^ WK=0.45, Eigenvalue=0.69, p=0.01). It proves 397 A. Selmanovié et al.: Additional Basketball and Volleyball Program in PE, Coll. Antropol. 37 (2013) 2: 391-400 TABLE 6 THE RESULTS OF DISCRIMINATE ANALYSIS BETWEEN CONTROL GROUP AND EXPERIMENTAL GROUPS AT THE FINAL TESTING TABLE 8 POSITION OF GROUP CENTROIDS ON DISCRIMINANT FUNCTION Eigen- Canon. Wilks' value R X df p-level E v - C 0.33 E B - C 0.45 0.50 0.56 0.75 0.69 22.26 26.51 12 12 0.03 0.01 Eigen-value - cheiracteristic root; Canon. R - coefficient of ca- nonic correlation; Wilks' lambda - discriminant value; Chi-sqr. - chi-square test; df- degrees of freedom; p-level - level of signifi- ceince that the additional programs, applied once a week through- out tbe school year, are sufficient to produce substantial positive cbemges in total motor status of fifth grade stu- dents. Thus, the third hypothesis (H3) can be rejected. Comparing the control and experimental volleyball group, it is cleeir that the highest correlation with the discri- minemt function (Table 7) hold the variables: standing long jump - MSDM and 20 yards - M20J. Tbese variables contributed mainly to tbe significant difference between tbe groups in tbe final assessment of the motor abilities. TABLE 7 CORRELATION OF MOTOR INDICATORS WITH DISCRIMINANT FUNCTION MSDM M20V MBML MDTR MIVZ M20J MPOL MSNG MPRK MPRR MISK MTAP E v - C Root 1 0.290 -0.124 0.142 0.072 0.078 0.745 0.039 0.212 0.016 -0.149 0.214 0.120 E B - C Root 1 -0.031 0.486 -0.465 -0.023 -0.009 0.194 0.099 -0.032 0.117 0.037 -0.187 0.035 Tbe position of group centroids (C:cont= -0.58; C:e. vol.=0.55) in Table 8 define tbe experimental volleyball group as tbe group with better explosive power - jump and agility. Tbe significant distance between tbe group centroids of tbe control group and basketball experimental group (C:cont=0.63; C:e.bas.= -0.69) is also clearly noticeable. The discriminant function is defined by a positive projec- tion of veiriables: 20 m sprint - M20V; bent arm hang - G_1:C G_2 : Ev G_1:C G_2 : EB Root 1 -0.58 0.55 Root 1 0.63 -0.69 MIVZ; 20 yards - M20J; Obstacle course backwards - MPOL; Wide legs - forward bend - MPRR, and the nega- tive projection of the variables: standing long jump - MSDM; medicine ball tbrow - MBML; sit-ups - MDTR; low beam stand - MSNG; forward bent - MPRK, sboul- der circumduction - MISK; and band tapping - MTAP (Table 7). Taking into account the reversely seeded vari- ables, it can be concluded tbat tbe greatest influence on the given difference between tbe groups had the variable sprint 20 meters from tbe standing steirt (M20V) emd medicine ball tbrow from the prone position (MBML), in- dicating significantly improved speed and throwing force of the entities in basketball experimental group. Exten- sive improvements of tbese abilities can be explained as a consequence of specific basketball movements witbin the additioned program. Comparison of efficiency of the two additional experimental programs According to the criterion of energy consumption, vol- leyball and basketball belong to tbe category of anaerobic sports^". Botb of them contain plenty of explosive pat- terns of movement, require high level of agility, specific types of coordination, speed of reaction emd others. From the standpoint of conceptued structure, these sports are different; however, by motor structure of players' mo- tions and movements, they show certain similarities. For example, jumps, defensive stemces, and shooting/over- hand pass are the basic tecbniced elements of both ga- mes. Therefore, the authors presumed no significant dif- ferences would occur between tbe two experimental groups. Nevertheless, comparativeanalysis between the experimental groups confirmed statistically significemt difference (WA.=0:33, Eigenvalue=0.76, p=0.04) which is evident just inside the dimension of explosive power. This statement invedidates the fourth h5'pothesis (H4) and proves that the anedyzed experimental groups do not belong to the same population in terms of motor ability. Of tbe experimented group students, volleyball scored better in explosive power -jump type, while the students of the experimental group - basketball performed better in explosive power - type sprint and type tbrow. The emalysis of the structure of three motor tests: standing long jump - MSDM; medicine bedl tbrow - MBML; 20 m sprint - M20V reveeds that only 20 m sprint is only bas- ketball specific test, therefore, the considerably better 398 A. Selmanovic et al.: Additional Basketball and Volleyball Program in PE, Coll. Antropol. 37 (2013) 2: 391-400 TABLE 9 THE DIFFERENCES BETWEEN THE INITIAL AND FINAL MOTOR ASSESSMENT IN THE EXPERIMENTAL GROUPS Eigen- Canon. Wilks' value R X df p-level IM FM 0.00 0.33 0.08 0.50 0.99 0.75 0.52 21.42 12 12 1.00 0.04 IM - initial measurement; FM - final measurement; Eigenvalue - characteristic root; Canon. R - coefficient of kanonic correla- tion; Wilks' lambda - discrimination value; Chi-sqr. - chi-square test; df- degrees of freedom; p-level - level of significance TABLE 10 CORRELATION OF MOTOR VARIABLES WITH DISCRIMINANT FUNCTION OF THE TWO EXPERIMENTAL GROUPS AT THE FINAL MEASUREMENT Root 1 MSDM_F M20V_F MBML_F MDTR_F MIVZ_F M20J_F MPOL_F MSNG_F MPRK_F MPRR_F MISK_F MTAP F -0.265 -0.381 0.358 -0.050 -0.108 -0.199 -0.131 0.022 0.125 0.099 0.064 0.097 performance of explosive power - sprint tjrpe of the ex- perimentEd group - basketbEill in the final meEisurement was not surprising. Explosive power - t3T3e jump and type throw are fundamentEd motor dimension in both sports. Since the volleyball group was superior in the test explosive power - jump tjrpe, and basketball group in ex- plosive power - throw type, such a result is primarily ac- credited to the PEirticular program contents which pro- vided more sport specific drills to such movements. The position of the centroids of the experimentEd groups on the discriminant function is shown in Table 11. By reviewing previously presented results of motor changes between the initiEd and final meEisurement Eilong with the analysis of the differences in motor skills in the finEd measurement between the groups, it can be con- cluded that the experimental bEisketball progrEim, in in- teraction with naturEd growth and developmental factors of the subjects, caused the greatest progress among the observed graders. It would certainly be of great interest for further scientific research to evaluate the precise im- pact of additional (third) weekly hour of standard physi- cal education, as well as, to compare it with the addi- tionEil voUeybEdl Eind basketball program. However, it is a fact that implementation of vEirious basketball and vol- TABLE 11 POSITION OF THE CENTROIDS OF THE EXPERIMENTAL GROUPS ON THE DISCRIMINANT FUNCTION Root 1 G_l:Ev G_2: EB -0.52 0.62 leybaU elements in standard PE program will enhance the students' motor abilities primarily in the domain of speed, agility, explosive power and coordination. Nevertheless, considerable motor improvements dur- ing the observed school year occurred in all the groups analyzed. However, the significant influence of the addi- tionEd physical activity, in the form of an extra 35 contact »hours« of well elaborated sport games curricula, con- tributed to far greater progress in motor development. Therefore, the introduction of additionEd hours of exer- cise is rational and beneficiEd for students involved in PE area. For that purpose, schools should ensure appropri- ate working conditions, human resources, a VEiriety of ex- tracurricular activities, elective sport activities and vari- ous forms of physicEd education. Conclusion The essence of planned Emd systematicEdly applied physical education requires a careful selection of ade- quate stimulEmts with precisely defined partial effects that seek a long-term global integration and raise of skills quauty to the expected levels. Considering the lim- ited number of weekly PE classes, various forms of extra- curricular activities become vEduable. It should be ac- knowledged that even one additional hour of organized exercise per week throughout the school year, based on the given sport, is sufficient to cause significEmt positive changes in motor status of the 11-year-old students. Ef- fects of PE progrEim indicate the transformation of vari- ous dimensions of motor ability. The results of additional programs are, of course, upgrade to the regulEir PE pro- grEim but mEiinly in those motor chEiracteristics that Eure, by the sport-in-question factorial structure, predominant in it. According to the structure of the applied experi- mental programs, the obtained differences can be inter- preted as a consequence of high performance frequency of sport specific movements. By analyzing the degree of improvement between the initial and final testing and evEduating the quantitative difference in motor abilities between the three groups, it CEm be confirmed that the most effective progrEim WEIS the one applied in the experi- mental group - basketbEill, followed by the experimental group - volleyball and, finally, the control group of exa- minees. However, the main purpose of the article was not to determine the effects of bEisketball and voUeybEdl on the students' motor improvements, but to provide Em attrac- tive wide rEmge of natural forms of movement, as well as, high complexity physical activities that stimulate the 399 A. Selmanovié et al.: Additional Basketball and Volleyball Program in PE, Coll. Antropol. 37 (2013) 2: 391-400 achievement of multiple objectives of PE amd extracur- ricular activities. Basketball £ind voUeybedl provide a rep- ertoire of exactly those kinds of movements and addition- ally they ensure more interesting, more social and mo- tivational forms of activity. According to the complexities of each task and final outcomes of the given experimental program, there are open possibilities of correction or en- richment of current curricular tasks. This study offers further deliberation on optimization and rationalization of physical education and extracurricular physical activi- ties. REFERENCES 1. FINDAK y Teaching methods of PE: A handbook for PE teachers (Skolska knjiga, Zagreb, 1999) (In Croat). — 2. BABIN J, KATIC R, RO- PAC D, BONACIN D, CoU Antropol, 25 (2001) 153. — 3. BRESLAUER N, Relations of certain anthropological chEiracteristics and school athletics in elementary school children involved in various extracurricular activi- ties. MS Thesis. In Croat. (University of Zagreb, Zagreb, 2003). — 4. KR- STULOVI6 S, Influence of specially programmed judo treatment on changes of certain anthropological features of seven-year-old boys and girls. MS Thesis. In Croat. (University of Zagreb, Zagreb, 2004). — 5. MCKENZIE TL, SALLIS JF, ROSENGARD P, Quest, 61 (2009) 114. — 6. SELMANOVIÓ A, Influence of additional extracurricular programmes of basketball and volleyball on morphological and motor features of male fifth-graders. MS Thesis. (In Croat) (University of Zagreb, Zagreb, 2007). — 7. NELJAK B, Validation of PE curricula. PhD Thesis. (In Croat) (Uni- versity of Zagreb, Zagreb, 2002). — 8. DIZDAR D, VISKI6-STALEC N, Algorithm and program for quantitaive analysis of changes under the model of differences. In: MILANOVI6 D, PROT F, (Eds.) Proceedings (Kinesiology - New Perspectives, Opatija, 2002, 652). — 9. FINDAK y METIKOSD, MRAKOVIC M, NEUAK B, AppUed kinesiology in school- ing system - Norms. (Faculty of PhysicalEducation, Zagreb, 1996) (In Croat). — 10. MILANOVI6 D, The fundamentals of sport training. In: MILANOVIÓ D, (Ed.) Coaching handbook. (Faculty of Kinesiology, Zagreb, 1997) (In Croat). Z. Custonja University of Zagreb, Faculty of Kinesiology, Horvacanski zavoj 15, 10000 Zagreb, Croatia e-mail: zrinko@kifhr UTJECAJ DODATNOG NASTAVNOG PROGRAMA KOSARKE I ODBOJKE NA MOTORICKE SPOSOBNOSTI UCENIKA PETOG RAZREDA S A Z E T A K Cilj je radu procijeniti transformacijsku ucinkovitost dodatnog skolskoga sata tjelesne i zdravstvene kulture teme- ljenog na timskom sportu (kosarci ili odbojci) na motoricke sposobnosti uèenika. Istrazivanje je provedeno na uzorku od 125 jedanaestogodisnjih djecaka podijeljenih u tri skupine (dvije eksperimentalne i jednu kontrolnu). Na ispitanicima se u dva navrata, s vremenskim intervalom od devet mjeseci, primijenilo 12 motorickih mjernih instrumenata poradi procjene eksplozivne, repeptitivne i staticke snage, koordinacije, fieksibilnosti i frekvencije pokreta rukom. Rezultati istrazivanja su pokazali da su najvece pozitivne promjene primjetne u eksperimentsdnoj skupini ukljucenoj u dodatni program vjezbanja kosarke, zatim u eksperimentalnoj skupini koja je odradivala dodatni program odbojke, te napo- sljetku, u kontrolnoj skupini. Generalni zakljucak upucuje na cinjenicu da je vec jedan dodatan skolski sat tjedno prika- ZEinog programa dostatan da proizvede znacajne promjene u motorickim sposobnostima ucenika petog razreda. Osnov- na preporuka autora se temelji na potpori zakonske odredbe 0 obveznoj provedbi dodatnih orgemizacijskih oblika rada. 400 Copyright of Collegium Antropologicum is the property of Croatian Anthropological Society and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use.
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