AFIFAH PREYANKA DUMI 22010111130115 Lap.KTI bab8

(1)

50 fitness and performance, fourth edition. New York: McGraw-Hill; 2001.

p.407-22.

2. Miller JF, Bujak Z, Miller M. Sports results vs. genera physical fitness level

of junior taekwondo athletes. Journal of Combat and Martial Arts.

2011;1(2):39-44.

3. Subarjah H, Si M. Latihan kondisi fisik [Internet]. 2012 [dikutip pada tanggal

16 Januari 2015]. Diunduh dari:

http://file

upiedu/Direktori/FPOK/JUR_PEND_KESEHATAN_%26_REKRE

ASI/PRODI_ILMU_KEOLAHRAGAAN/196009181986031HERMAN_SU

BARJAH/LATIHAN_KONDISI_FISIK pdf.

4. Bompa TO, Haff G. Periodization: theory and methodology of training.

Illinois: Human Kinetics; 2009. p.67-80.

5. Udiyana I, Kanca I, Sudarmada I. Pengaruh pelatihan modifikasi zig zag run

terhadap peningkatan kecepatan dan kelincahan pada siswa putra peserta

ekstrakulikuler sepak bola SMA PGRI 1 Amlapura Tahun Ajaran 2013/2014.

e-Journal IKOR Universitas Pendidikan Ganesha. 2014;1:1-10.

6. Sheppard J, Young W. Agility literature review: classifications, training and

(2)

7. Vescovi J, Rupf R, Brown T, Marques M. Physical performance

characteristics of high-level female soccer players 12

–

21 years of age.

Scandinavian journal of medicine & science in sports. 2011;21(5):670-8.

8. Dawes J, Roozen M. Developing agility and quickness. Illinois: Human

training methods. The Journal of Strength & Conditioning Research.

2001;15(3):315-9.

11. Battinelli T. Physique, fitness, and performance. Boca Rotan (United States):

CRC press LLC; 2007. p.5-10.

12. Health skill related fitness [Internet]. [dikutip pada tanggal 16 Januari 2015].

Diunduh dari:

http://www.glencoe.com/sites/common_assets/health_fitness/gln_health_fitne

ss_zone/pdf/heart_rate_monitor_activities/health_skill_related_itness/health_

skill_related_fitness_activity_4.pdf

.

13. Ismaryati I. Peningkatan kelincahan atlet melalui penggunaan metode

kombinasi latihan sirkuit pliometrik dan berat badan. Paedagogia. 2008;11(1).

14. Brooks G, Fahey T. Exercise physiology: human bioenergetics and its

(3)

15. Karyono T. Pengaruh metode latihan dan power otot tungkai dan kelincahan

[Disertasi]. Surakarta: Universitas Sebelas Maret. 2011.

16. Young W, James R, Montgomery I. Is muscle power related to running speed

with changes of direction? The Journal of sports medicine and physical

fitness. 2002(42):282-8.

17. Speed and agility [Internet]. [dikutip pada tanggal 16 Januari 2015]. Diunduh

dari:

http://www.ucs.mun.ca/~dbehm/Advanced_Fitness_Assessment/Speed_a

nd_Agility.htm

.

18. Nimphius S. Increasing agility. In: Joyce D, Lewindo D, editors. High

performance training for sports. Illinois: Human Kinetics; 2014. p.185-8

19. Allford A. Agility - the most misunderstood fitness component? [Internet].

2013 [dikutip pada tanggal 24 Februari 2015]. Diunduh dari:

http://www.thesoccerstore.co.uk/blog/football-coaching/agility-misunderstood-fitness-component/.

20. Young WB, Henry BDG. Agility and change-of-direction speed are

independent skills: implications for training for agility in invasion sports.

International Journal of Sports Science & Coaching. 2014: 1-14.

21. Ganong WF, Barrett KE. Review of medical physiology. New York:

McGraw-Hill Medical; 2005. p.197-9.

22. Brown L, Ferrigno V. Training for speed, agility, and quickness, 3E. Illinois:

(4)

23. Atiq A, Yunitaningrum W. Kekuatan otot tungkai dan kelincahan terhadap

kecepatan dribbling sepak bola di SMAN 1 Tebas. Jurnal Pendidikan dan

Pembelajaran. 2014;3(6):1-12.

24. Tanner R, Gore C. Physiological tests for elite athletes. Illinois: Human

Kinetics; 2013. p.132.

25. Mackenzie B. Performance evaluation tests. USA: Peak Performance. 2005.

p.55-72.

26. Heikkinen D. Physical testing characteristics and technical event performance

of junior alpine ski racers [Disertasi]. Farmington (United States): The

University of Maine. 2003.

27. Pratama I, Budiawan M, Sudarmada I. Pengaruh pelatihan three corner drill

terhadap peningkatan kelincahan dan power. e-Journal IKOR Universitas

Pendidikan Ganesha. 2014;1:1-7.

28. Mackenzie B. Training principles [Internet]. 2000 [dikutip pada tanggal 16

Januari 2015]. Diunduh dari:

http://www.brianmac.co.uk/trnprin.htm

.

29. Guyton, Hall J. Fisiologi kedokteran. Jakarta: EGC; 2008. h.1339-43.

30. Sidik DZ, Imanudin I, Affari L. Penerapan complex training terhadap

peningkatan kemampuan anaerobik. Jurnal Iptek Olahraga.

2012;14(2):124-42.

31. Kravitz L, Beltz N, Jonathan N, Mike. Anaerobic metabolic conditioning

[Internet]. 2014 [dikutip pada tanggal 7 Januari 2015]. Diunduh dari:

(5)

32. Anaerobic exercise for physical fitness [Internet]. 2004 [Dikutip pada tanggal

26 Januari 2015]. Diunduh dari:

http://www.weightawareness.com/topics/doc.xml?doc_id=1360

.

33. Bishop D, Girard O, Mendez-Villanueva A. A repeated sprint ability part II:

recommedations for training. Sports Medicine. 2011;41(9):742-56.

34. McArdle WD, Frank I, Katch, Victor LK. Exercise physiology: nutrition,

energy, and human performance. Philadelphia: Lippincott Williams &

Wilkins; 2010. p.480-3.

35. Hawley JA. Specificity of training adaptation: time for a rethink? The Journal

of Physiology. 2008;586(1):1-2.

36. Coburn JW, Malek MH. NSCA's essentials of personal training. Illinois:

Human Kinetics. 2011. p.71-83.

37. Chaleh M, Fatemi R, Shahsavar A. Relationship between speed, agility, and

anaerobic power of 14-16 years elite soccer players. Int J Appl Basic Sci 3.

2012;3(2):427-432.

(6)

Lampiran 1. Ethical Clearance

(7)

(8)

(9)

(10)

(11)

Lampiran 5. Hasil Analisis Statistik

Means

Report

Umur TB (cm) BB (kg) Pre-Test (detik) Middle-Test (detik) Post-Test (detik)

Mean 10.563 138.531 32.906 40.2853 35.7972 32.6625

Std. Deviation .7156 3.6099 4.6998 9.63811 9.90065 10.24647

Median 10.000 137.000 31.000 39.2800 32.9150 28.8000

Minimum 10.0 135.0 25.0 24.52 21.61 19.81

Maximum 13.0 146.0 45.0 59.50 58.00 59.05

Normality Test

Descriptives

Statistic Std. Error

Umur

Mean 10.563 .1265

95% Confidence Interval for Mean

Lower Bound 10.304

Upper Bound 10.821

5% Trimmed Mean 10.479

Median 10.000

Variance .512

Std. Deviation .7156

Minimum 10.0

Maximum 13.0

Range 3.0

Interquartile Range 1.0

Skewness 1.457 .414

Kurtosis 2.920 .809

TB (cm)

Mean 138.531 .6381

Lower Bound 137.230

Upper Bound 139.833

Median 137.000

Variance 13.031

Std. Deviation 3.6099

Minimum 135.0

(12)

Range 11.0

Skewness .754 .414

Kurtosis -.730 .809

BB (kg)

Mean 32.906 .8308

Lower Bound 31.212

Upper Bound 34.601

Median 31.000

Variance 22.088

Minimum 25.0

Maximum 45.0

Range 20.0

Skewness .956 .414

a. Lilliefors Significance Correction

(13)

TB (cm)

BB (kg)

Descriptives

Statistic Std. Error

Pre-Test (detik)

Mean 40.2853 1.70379

Lower Bound 36.8104

Upper Bound 43.7602

Median 39.2800

Variance 92.893

Minimum 24.52

Maximum 59.50

Range 34.98

(14)

Skewness .603 .414

Kurtosis -.285 .809

Middle-Test (detik)

Mean 35.7972 1.75020

Lower Bound 32.2276

Upper Bound 39.3668

Median 32.9150

Variance 98.023

Minimum 21.61

Maximum 58.00

Range 36.39

Skewness .773 .414

Kurtosis -.076 .809

Post-Test (detik)

Mean 32.6625 1.81134

Lower Bound 28.9683

Upper Bound 36.3567

Median 28.8000

Variance 104.990

Minimum 19.81

Maximum 59.05

Range 39.24

Skewness 1.013 .414

*. This is a lower bound of the true significance.

(15)

Pre-Test (detik)

Middle-Test (detik)

(16)

T-Test (Pre-test dan Middle-test)

t-test for Equality of Means

F Sig. t df Sig.

Equal variances not assumed 1.916 23.446 .068 6.26563 3.26957 -.49089 13.02214

Middle-Test

(detik)

Equal variances assumed 10.184 .003 3.387 30 .002 10.25063 3.02635 4.07000 16.43125

Equal variances not assumed 3.387 21.465 .003 10.25063 3.02635 3.96528 16.53597

Mann-Whitney Test (Post-test)

Ranks

Mann-Whitney U 19.000

Wilcoxon W 155.000 a. Grouping Variable: Kelompok

Z -4.108 b. Not corrected for ties.

Asymp. Sig. (2-tailed) .000

(17)

Normality Test: Kelompok Perlakuan

a. Lilliefors Significance Correction

Normality Test: Kelompok Perlakuan (Transformasi)

Tests of Normality

(18)

General Linear Model Repeated Anova Test

Descriptive Statistics

Mean Std. Deviation N

Pre-Test (detik) 37.1525 6.34858 16

Middle-Test (detik) 30.6719 5.20264 16

Post-Test (detik) 25.6644 3.80484 16

Multivariate Testsa

a. Design: Intercept

Within Subjects Design: factor1

b. Exact statistic

Mauchly's Test of Sphericitya

Measure: MEASURE_1

Within Subjects Effect Mauchly's W Approx. Chi-Square df Sig. Epsilonb

Greenhouse-Geisser

Huynh-Feldt

Lower-bound

factor1 .432 11.746 2 .003 .638 .671 .500

Tests the null hypothesis that the error covariance matrix of the orthonormalized transformed dependent variables is proportional to an

identity matrix.

a. Design: Intercept

Within Subjects Design: factor1

b. May be used to adjust the degrees of freedom for the averaged tests of significance. Corrected tests are displayed in the Tests of

Within-Subjects Effects table.

Sphericity Assumed 1061.603 2 530.802 46.630 .000

Greenhouse-Geisser 1061.603 1.276 832.223 46.630 .000

(19)

Lower-bound 1061.603 1.000 1061.603 46.630 .000

Error(factor1)

Sphericity Assumed 341.494 30 11.383

Greenhouse-Geisser 341.494 19.134 17.847

Huynh-Feldt 341.494 20.121 16.972

Lower-bound 341.494 15.000 22.766

Tests of Within-Subjects Contrasts

Transformed Variable: Average

Source Type III Sum of

Mean Std. Error 95% Confidence Interval

Lower Bound Upper Bound

31.163 1.109 28.798 33.528

2. factor1

Estimates

Measure: MEASURE_1

factor1 Mean Std. Error 95% Confidence Interval

(20)

2 30.672 1.301 27.900 33.444

3 25.664 .951 23.637 27.692

Pairwise Comparisons

Measure: MEASURE_1

(I) factor1 (J) factor1 Mean Difference (I-J) Std. Error Sig.b 95% Confidence Interval for Differenceb

1

Based on estimated marginal means

*. The mean difference is significant at the ,05 level.

b. Adjustment for multiple comparisons: Bonferroni.

Multivariate Tests

Each F tests the multivariate effect of factor1. These tests are based on the linearly independent pairwise

comparisons among the estimated marginal means.

(21)

Lampiran 6. Dokumentasi Penelitian

Gambar. Latihan sprint

(22)