lampiran 1. kuisioner kuisioner determinasi faktor-faktor ... · lampiran 1. kuisioner kuisioner...
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Lampiran 1. Kuisioner
Kuisioner Determinasi Faktor-faktor Penerimaan Konsumen
Terhadap Sereal Non Pasta Siap Saji Pada Konsumen Anak-Anak
(8 – 12 Tahun)
Determination Of Factors Of Acceptance Consumer Instant Non Pasta
Cereal by Children ( 8 – 12 years old)
A. Identitas Responden
1. Tanggal :
2. Nama :
3. Jenis Kelamin : L / P
4. Usia :
5. Nama Sekolah :
Berilah tanda silang (x) pada jawban yang adik-adik anggap paling benar !
B. Pertanyaan Umum
1. Apakah adik-adik sarapan sebelum berangkat ke sekolah ?
a. Selalu b. Kadang-kadang c. Tidak pernah
2. Apa yang biasanya adik-adik makan sewaktu sarapan pagi ?
a. Nasi dan lauk c. Susu e. Lainnya…………
b. Roti d. Sereal
3. Seberapa penting arti sarapan bagi adik-adik ?
a. Sangat penting c. Kurang penting
b. Penting d. Tidak penting
4 Apakah adik-adik mengenal atau mengetahui tentang sereal non pasta siap saji ?
a. Mengenal tetapi tidak pernah mengkonsumsi (Mohon lanjut ke pertanyan C)
b. Mengenal dan mengkonsumsi, tetapi jarang (Mohon lanjut ke pertanyaan D)
c. Mengenal dan sering mengkonsumsi (Mohon lanjut ke pertanyaan E)
C. Pertanyaan Spesifik (Mengenal, tetapi tidak pernah mengkonsumsi)
1. Sejak umur berapa adik-adik mengenal sereal non pasta siap saji ?
a. Kurang dari 1 tahun c. 3 tahun-5 tahun
b. 1 tahun-3 tahun d. lebih dari 5 tahun
2. Darimana adik-adik memperoleh informasi atau mengetahui mengenai produk sereal
non pasta siap saji ?
a. Dari teman c. Dari keluarga
b. Dari iklan d. Tahu sendiri
3. Apakah adik-adik berkenan untuk mencoba sereal non pasta siap saji sebagai
pengganti sarapan pagi ?
a. Ya (Mohom lanjut ke pertanyaan no : 4)
b. Tidak (Mohom lanjut ke pertanyaan no : 5)
4. Jika ya apa alasan jawaban adik-adik atas pertanyaan diatas ?
a. Enak c. Cepat dan praktis e. Ingin coba
b. Sehat d. Bergizi
5. Jika tidak apa alsan jawaban adik-adik atas pertanyaan no. 3 ?
a. Tidak kenyang e. Mahal
b. Tidak suka rasanya f. Tidak bergizi
c. Tidak dibelikan orang tua g. Tidak biasa
d. Susah mendapatkannya
D. Pertanyaan Spesifik ( Mengenal dan mengkonsumsi sereal, tapi jarang)
1. Sejak umur berapa adik-adik mengenal dan makan sereal non pasta siap saji ?
a. Kurang dari 1 tahun c. 3 tahun-5 tahun
b. 1 tahun-3 tahun d. lebih dari 5 tahun
2. Darimana adik-adik mengenal peroduk sereal non pasta siap saji ?
a. Dari teman c. Dari Keluarga
b. Dari iklan d. Tahu sendiri
3. Berapa kali adik-adik makan sereal non pasta siap saji dalam 1 bulan ?
a. Kurang dari 5 kali
b. 5 sampai dengan 10 kali
c. Lebih dari 10 kali
4. Bagaimana cara makan sereal non pasta siap saji ?
a. Dicampur susu
b. Dicampur air panas
c. Lainnya…………..
5. Selain sebagai sarapan, adik-adik makan sereal non pasta siap saji sebagai apa ?
a. Sebagai camilan
b. Bekal ke sekolah
6. Apa yang menjadi alasan adik-adik untuk tidak makan sereal non pasta siap saji
secara rutin ?
a. Harga mahal
b. Tidak biasa
c. Karena tidak boleh orang tua
d. Susah mendapatkannya
7. Rasa apa yang paling adik-adik sukai pada produk sereal non pasta siap saji ?
a. Coklat c. Strawbery e. Madu
b. Vanila d. Buah-buahan
ss s sts
ss s sts
ss s sts
ss s sts
8. Warna apa yang paling adik-adik sukai pada produk sereal non pasta siap saji ?
a. Coklat b. Kuning c. Lainnya….
9. Aroma atau bau apa yang adik-adik sukai pada produk sereal non pasta siap saji ?
a. Coklat c. Buah-buahan e.Vanila
b. Strawbery d. madu
10. Sereal non pasta siap saji bentuk apa yang paling adik-adik sukai ?
a. Bulat e. Bintang-bintang
b. Lonjong f. Binatang
c. Boneka g. Elips
d. Segitiga h. Lainnya……….
11. Gambar apa yang adik-adik sukai pada kemasan produk sereal non pasta siap saji ?
a. Boneka c. Binatang
b. Tokoh kartun
12. Dalam kondisi bagaimana adik-adik makan sereal non pasta siap saji ?
a. Sangat ingin b. Tergesa-gesa
c. Dirumah tersedia (lapar)
13. Siapa yang melakukan pembelian pada produk sereal non pasta siap saji ?
a. Dipilih dan dibelikan orang tua
b. Pilih sendiri dan dibelikan orang tua
c. Pilih sendiri dan beli sendiri
14. Dimana adik-adik boasanya membeli atau memperoleh produk sereal non pasta
siapsaji ?
a. Supermaket b. Pasar c. Toko dekat rumah
15. Jenis merek sereal non pasta siap saji apa yang sering adik-adik beli ?
a. Koko Krunch e. Choco Krezz
b. Corn Flakes f. Honey Crispies
c. Millo Sereal g. Simba Choco Popies
d. Simba Choco Chips h. Lainnya…………..
16. Seberapa banyak adik-adik makan sereal non pasta siap saji ?
………………………………………………………….(gr)
E. Pertanyaan Spesifik (Mengenal dan sering makan)
1. Sejak umur berapa adik-adik mengenal dan makan sereal non pasta siap saji ?
a. Kurang dari 1 tahun c. 3 tahun-5 tahun
b. 1 tahun-3 tahun d. lebih dari 5 tahun
2. Darimana adik-adik mengenal produk sereal non pasta siap saji ?
a. Dari teman c. Dari keluarga
b. Dari iklan d. Tahu sendiri
3. Dimana adik-adik biasanya membeli atau memperoleh produk sereal non pasta siap
saji ?
a. Supermaket c. Toko dekat rumah
b. Pasar
4. Selain sebagai sarapan, sereal non pasta siap saji yang adik-adik konsumsi dimakan
sebagai apa?
a. Camilan
b. Bekal ke sekolah
5. Bagaimana cara adik-adik makan sereal non pasta siap saji ?
a. Dicampur susu
b. Dicampur air panas
c. Camilan/snack
6. Rasa apa yang paling disukai pada produk sereal non pasta siap saji ?
a.Coklat b. Vanila e. Madu
c. Strawbery d. Buah-buahan
7. Warna apa yang paling adik-adik sukai pada produk sereal non pasta siap saji ?
a. Coklat b. Kuning c.Lainnya…….
8. Aroma apa yang adik-adik sukai pada produk sereal non pasta siap saji ?
a. Coklat b. Strawbery e. Vanila
c. Buah-buahan d. Madu
9. Sereal non pasta siap saji bentuk apa yang paling adik-adik sukai ?
a. Bulat b. Lonjong
c. Boneka d. Segitiga
e. Bintang-bintang f. Binatang
g. Elips h. Lainnya…………
10. Gambar apa yang adik-adik suka pada kemasan produk sereal non pasta
Siap saji ?
a. Boneka b. Tokoh kartun
c. Binatang d. Lainnya……….
11. Siapakah yang melakukan pembelian pada produk sereal non pasta siap saji ?
a. Dipilih dan dibelikan oleh orang tua
b. Pilih sendiri dan dibelikan oleh orang tua
c. Pilih sendiri dan beli sendiri
12. Apa yang menjadi alasan adik-adik serinf makn sereal non pasta siap saji ?
a. Enak c. Mengenyangkan
b. Praktis d. Lainnya………
13. Berapa kali adik-adik makan sereal non pasta siap saji dalam 1 bulan ?
a. Kurang dari 5 kali
b. 5 sampai dengan 10 kali
c. Lebih dari 10 kali
14. Dalam kondisi bagaimana adik-adik makan sereal non pasta siap saji ?
a. Sangat ingin
b. Tergesa-gesa
c. Dirumah tersedia (lapar)
15. Jenis merek sereal non pasta siap saji apa yang sering adik-adik beli ?
a. Koko Krunch e. Choco Krezz
b. Corn Flakes f. Honey Crispies
C. Millo Sereal g. Simba Choco Popies
D. Simba Choco Chips h. Lainnya…………..
16. Seberapa banyak adik-adik makan sereal non pasta siap saji ?
……………………………………………………………(gr)
TERIM A KASIH
Lampiran 2. Uji Statistik
Test Statistics
97.3243
.000
Chi-Squarea
dfAsymp. Sig.
KNL_CRL
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 27.8.
a.
Test Statisticsa
1359.0003439.000
-1.011.312
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
KNL_CRL
Grouping Variable: JNS_KLMa.
Test Statisticsa
.087
.087
.000
.453
.986
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
KNL_CRL
Grouping Variable: JNS_KLMa.
Test Statisticsa
1399.5003610.500
-.600.549
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
KNL_CRL
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.098
.098-.088.507.959
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
KNL_CRL
Grouping Variable: ASL_SKLHa.
Test Statistics
182.7303
.000
Chi-Squarea
dfAsymp. Sig.
INFRMASI
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 27.8.
a.
Test Statistics
1.5231
.217
Chi-Squarea
dfAsymp. Sig.
ALS_GNTI
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 55.5.
a.
Test Statistics
13.5514
.009
Chi-Squarea
dfAsymp. Sig.
AL_YA_GN
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 9.8.
a.
Test Statistics
33.0656
.000
Chi-Squarea
dfAsymp. Sig.
AL_TD_GN
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 8.9.
a.
Test Statisticsa
1494.0002622.000
-.086.932
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
INFRMASI
Grouping Variable: JNS_KLMa.
Test Statisticsa
.078
.010-.078.407.996
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
INFRMASI
Grouping Variable: JNS_KLMa.
Test Statisticsa
1235.0003446.000
-2.162.031
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
INFRMASI
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.161
.161
.000
.831
.495
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
INFRMASI
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1490.0002618.000
-.097.923
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
ALS_GNTI
Grouping Variable: JNS_KLMa.
Test Statisticsa
.009
.000-.009.048
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
ALS_GNTI
Grouping Variable: JNS_KLMa.
Test Statisticsa
.107
.107
.000
.554
.919
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
ALS_GNTI
Grouping Variable: ASL_SKLHa.
Test Statisticsa
219.000450.000
-1.572.116
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
AL_YA_GN
Grouping Variable: JNS_KLMa.
Test Statisticsa
.214
.000-.214.742.640
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
AL_YA_GN
Grouping Variable: JNS_KLMa.
Test Statisticsa
202.000355.000
-1.525.127
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
AL_YA_GN
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.347
.000-.3471.158
.137
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
AL_YA_GN
Grouping Variable: ASL_SKLHa.
Test Statisticsa
424.0001090.000
-.646.518
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
AL_TD_GN
Grouping Variable: JNS_KLMa.
Test Statisticsa
.197
.197-.126.764.604
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
AL_TD_GN
Grouping Variable: JNS_KLMa.
Test Statisticsa
260.000666.000
-3.145.002
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
AL_TD_GN
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.439
.000-.4391.721.005
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
AL_TD_GN
Grouping Variable: ASL_SKLHa.
Test Statistics
385.2573
.000
Chi-Squarea
dfAsymp. Sig.
KN_CRL_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 81.8.
a.
Test Statistics
434.6513
.000
Chi-Squarea
dfAsymp. Sig.
INF_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 81.8.
a.
Test Statistics
268.3122
.000
Chi-Squarea
dfAsymp. Sig.
BR_KL_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 109.0.
a.
Test Statistics
455.9082
.000
Chi-Squarea
dfAsymp. Sig.
CR_MK_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 109.0.
a.
Test Statistics
160.3701
.000
Chi-Squarea
dfAsymp. Sig.
MK_AP_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 163.5.
a.
Test Statistics
103.9853
.000
Chi-Squarea
dfAsymp. Sig.
AL_TDK_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 81.8.
a.
Test Statistics
37.5162
.000
Chi-Squarea
dfAsymp. Sig.
HR_MHL_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 42.7.
a.
Test Statistics
67.8582
.000
Chi-Squarea
dfAsymp. Sig.
TD_BI_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 42.3.
a.
Test Statistics
5.5002
.064
Chi-Squarea
dfAsymp. Sig.
TB_ORT_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 14.7.
a.
Test Statistics
2.0002
.368
Chi-Squarea
dfAsymp. Sig.
SS_DP_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 9.3.
a.
Test Statistics
851.3644
.000
Chi-Squarea
dfAsymp. Sig.
RS_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 65.4.
a.
Test Statistics
509.9452
.000
Chi-Squarea
dfAsymp. Sig.
WRN_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 109.0.
a.
Test Statistics
718.2454
.000
Chi-Squarea
dfAsymp. Sig.
BAU_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 65.4.
a.
Test Statistics
217.4167
.000
Chi-Squarea
dfAsymp. Sig.
BT_CR_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 40.9.
a.
Test Statistics
33.5412
.000
Chi-Squarea
dfAsymp. Sig.
GM_KM_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 109.0.
a.
Test Statistics
127.2112
.000
Chi-Squarea
dfAsymp. Sig.
KN_MK_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 109.0.
a.
Test Statistics
418.8442
.000
Chi-Squarea
dfAsymp. Sig.
YG_MLK_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 109.0.
a.
Test Statistics
99.6512
.000
Chi-Squarea
dfAsymp. Sig.
DMN_BL_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 109.0.
a.
Test Statistics
646.6277
.000
Chi-Squarea
dfAsymp. Sig.
MRK_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 40.9.
a.
Test Statistics
629.12510
.000
Chi-Squarea
dfAsymp. Sig.
BY_CRL_B
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 29.7.
a.
Test Statisticsa
1386.5003466.500
-.914.361
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
KN_CRL_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.084
.084-.006.438.991
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
KN_CRL_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1404.0002439.000
-.634.526
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
KN_CRL_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.046
.000-.046.240
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
KN_CRL_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1413.5003493.500
-.720.472
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
INF_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.103
.103
.000
.538
.934
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
INF_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1414.5003625.500
-.564.572
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
INF_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.116
.116-.007.601.863
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
INF_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1433.5002561.500
-1.498.134
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BR_KL_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.047
.000-.047.244
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BR_KL_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1417.5002452.500
-1.443.149
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BR_KL_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.045
.000-.045.235
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BR_KL_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1503.0002631.000
-.014.989
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
CR_MK_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.031
.001-.031.163
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
CR_MK_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1475.5003686.500
-.135.892
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
CR_MK_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.007
.007
.000
.0371.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
CR_MK_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1500.0003580.000
-.042.967
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
MK_AP_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.003
.003
.000
.0141.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
MK_AP_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1356.0003567.000
-1.347.178
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
MK_AP_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.087
.087
.000
.449
.988
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
MK_AP_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1501.0003581.000
-.019.985
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
AL_TDK_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.024
.019-.024.126
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
AL_TDK_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1162.5003373.500
-2.049.040
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
AL_TDK_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.159
.159
.000
.820
.511
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
AL_TDK_B
Grouping Variable: ASL_SKLHa.
Test Statisticsb
173.500449.500
-.333.739
.767a
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)Exact Sig. [2*(1-tailedSig.)]
HR_MHL_B
Not corrected for ties.a.
Grouping Variable: JNS_KLMb.
Test Statisticsa
.049
.049
.000
.1501.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
HR_MHL_B
Grouping Variable: JNS_KLMa.
Test Statisticsb
162.000240.000
.0001.000
1.000a
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)Exact Sig. [2*(1-tailedSig.)]
HR_MHL_B
Not corrected for ties.a.
Grouping Variable: ASL_SKLHb.
Test Statisticsa
.102
.102-.056.294
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
HR_MHL_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
225.500525.500
-.074.941
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
TD_BI_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.044
.044-.033.143
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
TD_BI_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
182.500533.500
-1.156.248
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
TD_BI_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.231
.231-.016.740.644
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
TD_BI_B
Grouping Variable: ASL_SKLHa.
Test Statisticsb
28.00083.000-1.179
.238
.315a
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)Exact Sig. [2*(1-tailedSig.)]
TB_ORT_B
Not corrected for ties.a.
Grouping Variable: JNS_KLMb.
Test Statisticsa
.200
.200
.000
.422
.994
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
TB_ORT_B
Grouping Variable: JNS_KLMa.
Test Statisticsb
31.00076.000
-.928.353
.436a
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)Exact Sig. [2*(1-tailedSig.)]
TB_ORT_B
Not corrected for ties.a.
Grouping Variable: ASL_SKLHb.
Test Statisticsa
.222
.222
.000
.471
.979
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
TB_ORT_B
Grouping Variable: ASL_SKLHa.
Test Statisticsb
14.00024.000
.0001.000
1.000a
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)Exact Sig. [2*(1-tailedSig.)]
SS_DP_B
Not corrected for ties.a.
Grouping Variable: JNS_KLMb.
Test Statisticsa
.143
.071-.143.228
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
SS_DP_B
Grouping Variable: JNS_KLMa.
Test Statisticsb
4.00014.000-2.119
.034
.073a
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)Exact Sig. [2*(1-tailedSig.)]
SS_DP_B
Not corrected for ties.a.
Grouping Variable: ASL_SKLHb.
Test Statisticsa
.714
.000-.7141.140
.149
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
SS_DP_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1414.0003494.000
-1.082.279
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
RS_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.065
.065-.020.339
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
RS_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1371.0002406.000
-1.379.168
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
RS_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.077
.000-.077.397.997
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
RS_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1399.5003479.500
-1.736.083
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
WRN_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.069
.069
.000
.362
.999
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
WRN_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1483.5002518.500
-.025.980
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
WRN_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.001
.000-.001.005
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
WRN_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1479.5003559.500
-.234.815
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BAU_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.056
.030-.056.289
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BAU_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1371.5002406.500
-1.090.276
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BAU_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.085
.000-.085.439.991
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BAU_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1181.5003261.500
-1.984.047
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BT_CR_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.173
.173
.000
.900
.393
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BT_CR_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1443.5003654.500
-.257.797
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BT_CR_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.078
.078-.043.402.997
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BT_CR_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1155.0002283.000
-2.225.026
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
GM_KM_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.180
.000-.180.936.345
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
GM_KM_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1121.0003332.000
-2.336.020
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
GM_KM_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.210
.210
.0001.087
.188
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
GM_KM_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1369.0003449.000
-.953.341
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
KN_MK_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.097
.097
.000
.507
.959
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
KN_MK_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1384.0003595.000
-.717.473
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
KN_MK_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.090
.090
.000
.465
.982
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
KN_MK_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1418.5003498.500
-.861.389
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
YG_MLK_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.071
.071-.016.370.999
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
YG_MLK_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1474.0003685.000
-.111.911
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
YG_MLK_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.022
.022-.012.115
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
YG_MLK_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1398.5003478.500
-.715.475
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
DMN_BL_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.048
.048
.000
.2511.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
DMN_BL_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1484.0003695.000
-.007.995
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
DMN_BL_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.052
.052-.026.266
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
DMN_BL_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1457.0002585.000
-.338.735
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
MRK_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.078
.022-.078.407.996
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
MRK_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1386.0002421.000
-.716.474
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
MRK_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.097
.035-.097.502.963
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
MRK_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1347.0003427.000
-.978.328
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BY_CRL_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
.140
.140-.016.729.663
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BY_CRL_B
Grouping Variable: JNS_KLMa.
Test Statisticsa
1244.5003455.500
-1.508.132
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BY_CRL_B
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.208
.208-.0151.076.197
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BY_CRL_B
Grouping Variable: ASL_SKLHa.
Test Statistics
99.8363
.000
Chi-Squarea
dfAsymp. Sig.
KN_CRL_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 30.5.
a.
Test Statistics
127.1153
.000
Chi-Squarea
dfAsymp. Sig.
INF_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 30.5.
a.
Test Statistics
113.1312
.000
Chi-Squarea
dfAsymp. Sig.
BLNYA_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 40.7.
a.
Test Statistics
14.4591
.000
Chi-Squarea
dfAsymp. Sig.
MK_APA_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 61.0.
a.
Test Statistics
187.7382
.000
Chi-Squarea
dfAsymp. Sig.
C_MK_CRL
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 40.7.
a.
Test Statistics
219.1484
.000
Chi-Squarea
dfAsymp. Sig.
RASA_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 24.4.
a.
Test Statistics
173.2302
.000
Chi-Squarea
dfAsymp. Sig.
WRN_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 40.7.
a.
Test Statistics
164.2953
.000
Chi-Squarea
dfAsymp. Sig.
BAU_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 30.5.
a.
Test Statistics
29.8695
.000
Chi-Squarea
dfAsymp. Sig.
BT_CRL_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 20.3.
a.
Test Statistics
20.1312
.000
Chi-Squarea
dfAsymp. Sig.
GB_KM_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 40.7.
a.
Test Statistics
142.7382
.000
Chi-Squarea
dfAsymp. Sig.
ML_BL_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 40.7.
a.
Test Statistics
33.5082
.000
Chi-Squarea
dfAsymp. Sig.
A_SR_MK
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 40.7.
a.
Test Statistics
167.6722
.000
Chi-Squarea
dfAsymp. Sig.
FR_BL_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 40.7.
a.
Test Statistics
63.4751
.000
Chi-Squarea
dfAsymp. Sig.
KON_MK_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 61.0.
a.
Test Statistics
301.4438
.000
Chi-Squarea
dfAsymp. Sig.
MERK_C
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 13.6.
a.
Test Statistics
102.3446
.000
Chi-Squarea
dfAsymp. Sig.
BY_MK_CR
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 17.4.
a.
Test Statisticsa
1308.0003519.000
-1.457.145
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BAU_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.107
.107
.000
.554
.919
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BAU_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1376.5003456.500
-.782.434
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BT_CRL_C
Grouping Variable: JNS_KLMa.
Test Statisticsa
.083
.083
.000
.431
.992
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BT_CRL_C
Grouping Variable: JNS_KLMa.
Test Statisticsa
1436.0003647.000
-.302.762
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BT_CRL_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.073
.073-.033.376.999
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BT_CRL_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1288.0002416.000
-1.427.154
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
GB_KM_C
Grouping Variable: JNS_KLMa.
Test Statisticsa
.100
.000-.100.523.948
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
GB_KM_C
Grouping Variable: JNS_KLMa.
Test Statisticsa
1359.0003570.000
-.838.402
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
GB_KM_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.103
.103
.000
.533
.939
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
GB_KM_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1397.0003477.000
-1.111.267
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
ML_BL_C
Grouping Variable: JNS_KLMa.
Test Statisticsa
.071
.071
.000
.370
.999
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
ML_BL_C
Grouping Variable: JNS_KLMa.
Test Statisticsa
1467.0002502.000
-.188.851
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
ML_BL_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.012
.000-.012.063
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
ML_BL_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1285.5003365.500
-1.480.139
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
A_SR_MK
Grouping Variable: JNS_KLMa.
Test Statisticsa
.130
.130
.000
.677
.750
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
A_SR_MK
Grouping Variable: JNS_KLMa.
Test Statisticsa
1291.0003502.000
-1.322.186
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
A_SR_MK
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.125
.125
.000
.648
.795
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
A_SR_MK
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1442.0003522.000
-.687.492
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
FR_BL_C
Grouping Variable: JNS_KLMa.
Test Statisticsa
.040
.040
.000
.2081.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
FR_BL_C
Grouping Variable: JNS_KLMa.
Test Statisticsa
1375.5003586.500
-1.221.222
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
FR_BL_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.070
.070
.000
.361
.999
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
FR_BL_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1484.5002612.500
-.197.844
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
KON_MK_C
Grouping Variable: JNS_KLMa.
Test Statisticsa
.013
.000-.013.067
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
KON_MK_C
Grouping Variable: JNS_KLMa.
Test Statisticsa
1314.0002349.000
-1.734.083
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
KON_MK_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.115
.000-.115.596.870
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
KON_MK_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1344.0003424.000
-1.074.283
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
MERK_C
Grouping Variable: JNS_KLMa.
Test Statisticsa
.130
.130-.019.677.750
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
MERK_C
Grouping Variable: JNS_KLMa.
Test Statisticsa
1397.0003608.000
-.594.552
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
MERK_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.088
.088-.072.455.986
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
MERK_C
Grouping Variable: ASL_SKLHa.
Test Statisticsa
1495.5003575.500
-.054.957
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BY_MK_CR
Grouping Variable: JNS_KLMa.
Test Statisticsa
.065
.048-.065.339
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BY_MK_CR
Grouping Variable: JNS_KLMa.
Test Statisticsa
1335.5002370.500
-.948.343
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BY_MK_CR
Grouping Variable: ASL_SKLHa.
Test Statisticsa
.144
.014-.144.747.632
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BY_MK_CR
Grouping Variable: ASL_SKLHa.
Test Statistics
469.2252
.000
Chi-Squarea
dfAsymp. Sig.
BI_SRPN
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 186.7.
a.
Test Statisticsa
39107.50075692.500
-.029.977
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BI_SRPN
Grouping Variable: JNS_KLMa.
Test Statisticsa
34927.00075682.000
-2.930.003
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BI_SRPN
Grouping Variable: ASL_SKLa.
Test Statisticsa
.106
.106
.0001.251
.088
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BI_SRPN
Grouping Variable: ASL_SKLa.
Test Statistics
1154.3754
.000
Chi-Squarea
dfAsymp. Sig.
JNS_SRPN
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 112.0.
a.
Test Statisticsa
38247.00080442.000
-.638.523
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
JNS_SRPN
Grouping Variable: JNS_KLMa.
Test Statisticsa
.020
.020
.000
.2421.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
JNS_SRPN
Grouping Variable: JNS_KLMa.
Test Statisticsa
37803.00078558.000
-.978.328
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
JNS_SRPN
Grouping Variable: ASL_SKLa.
Test Statisticsa
.033
.033-.013.395.998
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
JNS_SRPN
Grouping Variable: ASL_SKLa.
Test Statistics
969.7003
.000
Chi-Squarea
dfAsymp. Sig.
PNT_SRPN
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 140.0.
a.
Test Statisticsa
39134.50081329.500
-.012.991
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
PNT_SRPN
Grouping Variable: JNS_KLMa.
Test Statisticsa
.005
.005-.001.056
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
PNT_SRPN
Grouping Variable: JNS_KLMa.
Test Statisticsa
34319.50075074.500
-3.715.000
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
PNT_SRPN
Grouping Variable: ASL_SKLa.
Test Statisticsa
.121
.121
.0001.434.033
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
PNT_SRPN
Grouping Variable: ASL_SKLa.
Test Statistics
158.5752
.000
Chi-Squarea
dfAsymp. Sig.
REAKSI
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 186.7.
a.
Test Statisticsa
35772.00072357.000
-1.996.046
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
REAKSI
Grouping Variable: JNS_KLMa.
Test Statisticsa
.075
.000-.075.886.412
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
REAKSI
Grouping Variable: JNS_KLMa.
Test Statisticsa
36860.50077615.500
-1.374.169
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
REAKSI
Grouping Variable: ASL_SKLa.
Test Statisticsa
.068
.068
.000
.804
.538
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
REAKSI
Grouping Variable: ASL_SKLa.
Test Statistics
.7141
.398
Chi-Squarea
dfAsymp. Sig.
JNS_KLM
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 280.0.
a.
Test Statistics
.1791
.673
Chi-Squarea
dfAsymp. Sig.
ASL_SKL
0 cells (.0%) have expected frequencies less than5. The minimum expected cell frequency is 280.0.
a.
Test Statistics
469.225 1154.375 969.700 158.5752 4 3 2
.000 .000 .000 .000
Chi-Squarea,b,c
dfAsymp. Sig.
BI_SRPN JNS_SRPN PNT_SRPN REAKSI
0 cells (.0%) have expected frequencies less than 5. Theminimum expected cell frequency is 186.7.
a.
0 cells (.0%) have expected frequencies less than 5. Theminimum expected cell frequency is 112.0.
b.
0 cells (.0%) have expected frequencies less than 5. Theminimum expected cell frequency is 140.0.
c.
Test Statisticsa
39107.50075692.500
-.029.977
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BI_SRPN
Grouping Variable: JNS_KLMa.
Test Statisticsa
.007
.001-.007.079
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BI_SRPN
Grouping Variable: JNS_KLMa.
Test Statisticsa
34927.00075682.000
-2.930.003
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
BI_SRPN
Grouping Variable: ASL_SKLa.
Test Statisticsa
.106
.106
.0001.251
.088
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
BI_SRPN
Grouping Variable: ASL_SKLa.
Test Statisticsa
38247.00080442.000
-.638.523
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
JNS_SRPN
Grouping Variable: JNS_KLMa.
Test Statisticsa
.020
.020
.000
.2421.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
JNS_SRPN
Grouping Variable: JNS_KLMa.
Test Statisticsa
37803.00078558.000
-.978.328
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
JNS_SRPN
Grouping Variable: ASL_SKLa.
Test Statisticsa
.033
.033-.013.395.998
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
JNS_SRPN
Grouping Variable: ASL_SKLa.
Test Statisticsa
39134.50081329.500
-.012.991
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
PNT_SRPN
Grouping Variable: JNS_KLMa.
Test Statisticsa
.005
.005-.001.056
1.000
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
PNT_SRPN
Grouping Variable: JNS_KLMa.
Test Statisticsa
34319.50075074.500
-3.715.000
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
PNT_SRPN
Grouping Variable: ASL_SKLa.
Test Statisticsa
.121
.121
.0001.434.033
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
PNT_SRPN
Grouping Variable: ASL_SKLa.
Test Statisticsa
35772.00072357.000
-1.996.046
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
REAKSI
Grouping Variable: JNS_KLMa.
Test Statisticsa
.075
.000-.075.886.412
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
REAKSI
Grouping Variable: JNS_KLMa.
Test Statisticsa
36860.50077615.500
-1.374.169
Mann-Whitney UWilcoxon WZAsymp. Sig. (2-tailed)
REAKSI
Grouping Variable: ASL_SKLa.
Test Statisticsa
.068
.068
.000
.804
.538
AbsolutePositiveNegative
Most ExtremeDifferences
Kolmogorov-Smirnov ZAsymp. Sig. (2-tailed)
REAKSI
Grouping Variable: ASL_SKLa.
Lampiran 3. Hasil Tabulasi Data A.Identitas Responden
Jenis kelamin Total Persentase (%)
Pria 270 48.21 %
Wanita 290 51.79 %
Asal Sekolah Total Persentase
Negeri 285 50.89 %
Swasta 275 49.11 %
B. Pertanyaan Umum
Kebiasaan Sarapan
Kebiasaan Sarapan Total Persentase (%)
Selalu 415 74.11 %
Kadang-kadang 141 25.18 %
Tidak pernah 4 0.71 %
Jenis Sarapan
Jenis Sarapan total Persentase (%)
Nasi 429 76.61%
Roti 83 14.82 %
Susu 26 4.64 %
Sereal 20 3.57 %
Bubur Ayam 2 0.36 %
Kepentingan Sarapan
Kepentingan Sarapan Total Persentase (%)
Sangant penting 452 80.71 %
Penting 99 17.68 %
Kurang penting 7 1.25 %
Tidak penting 2 0.36 %
Reaksi Responden
Reaksi Responden Total Persentase (%)
Kenal, tidak pernah konsumsi sereal 111 19.82 %
Kenal, jarang konsumsi sereal 327 58.39 %
Kenal, sering konsumsi sereal 122 21.79 %
C. Pertanyaan Spesifik (Mengenal, tetapi tidak pernah mengkonsumsi sereal)
Kenal Sereal
Kenal Sereal Total Persentase (%)
Kurang dari 1 tahun 9 8.11 %
1 – 3 tahun 4 3.06 %
3 – 5 tahun 28 25.23 %
Lebih dari 5 tahun 70 63.06 %
Sumber Informasi
Sumber informasi sereal Total Persentase (%)
Teman 3 22.70 %
Iklan 89 80.18 %
Keluarga 14 12.61 %
Tahu sendiri 5 4.50 %
Kemauan Mencoba Sereal
Kemauan mencoba sereal Total Persentase (%)
Ya 49 44.14 %
Tidak 62 55.82 %
Alasan mau mencoba sereal
Alasan mau mencoba sereal Total Persentase (%)
Enak 16 14.41 %
Sehat 11 9.91 %
Cepat dan praktis 2 1.80 %
Bergizi 6 5.41 %
Ingin coba 14 12.61 %
Alasan tidak mau mencoba sereal
Alasan tidak mau mencoba sereal Total Persentase (%)
Tidak kenyang 19 17.12 %
Tidak suka rasanya 17 15.32 %
Tidak dibelikan orang tua 5 4.50 %
Susah mendapatkannya 1 0.90 %
Mahal 11 9.91 %
Tidak bergizi 6 5.41 %
Tidak biasa 3 2.70 %
D. Pertanyaan Spesifik (Mengenal, tetapi jarang mengkonsumsi sereal)
Kenal Sereal
Kenal sereal Total Persentase (%)
Kurang dari 1 tahun 5 1.53 %
1 – 3 tahun 17 5.20 %
3 – 5 tahun 77 23.25 %
Lebih dari 5 tahun 228 69.72 %
Sumber Informasi sereal
Sumber Informasi sereal Total Persentase (%)
Teman 4 1.22 %
Iklan 243 74.31 %
Keluarga 40 12.23 %
Tahu sendiri 40 12.23 %
Frekuensi Konsumsi
Frekuensi konsumsi Total Persentase (%)
< dari 5 kali 248 78.84 %
5 – 10 kali 51 15.60 %
> dari 10 kali 28 8.56 %
Cara Konsumsi Sereal
Cara konsumsi sereal Total Persentase (%)
Dicampur susu 291 88.89 %
Dicampur air panas 20 6.12 %
Camilan / snack 16 4.89 %
Kebiasaan Konsumsi sereal
Kebiasaan Konsumsi sereal Total Persentase (%)
Sebagai camilan 278 85.02 %
Bekal ke sekolah 49 14.98 %
Alasan Konsumsi Sereal Secara Tidak Rutin
Alasan Konsumsi Sereal Secara Tidak Rutin Total Persentase (%)
Harga mahal 128 39.14 %
Tanggapan : SS 19 5.81 %
S 35 10.70 %
STS 74 22.63 %
Tidak biasa 127 38.84 %
Tanggapan : SS 23 7.03 %
S 86 26.30 %
STS 18 5.50 %
Karena tidak boleh orang tua 44 13.46 %
Tanggapan : SS 11 3.36 %
S 22 6.73 %
STS 11 3.36 %
Susah mendapatkannya 28 8.56 %
Tanggapan : SS 10 3.06 %
S 12 3.67 %
STS 6 1.83 %
Rasa Sereal
Rasa Sereal Total Persentase (%)
Coklat 276 84.40 %
Vanila 16 4.89 %
Strawbery 23 7.03 %
Buah 10 3.06 %
Madu
2 0.16 %
Warna Sereal
Warna sereal Total Persentase (%)
Coklat 301 92.05 %
Kuning 25 7.65 %
Merah 1 0.31 %
Aroma Sereal
Aroma Sereal Total Persentase (%)
Coklat 257 78.59 %
Strawberi 28 8.56 %
Buah 39 11.93 %
Madu 2 0.16 %
Vanila 1 0.31 %
Bentuk Sereal
Bentuk Sereal Total Persentase (%)
Bulat 101 30.89 %
Lonjong 18 5.50 %
Boneka 43 13.15 %
Segitiga 3 0.92 %
Bintang 83 25.38 %
Binatang 36 11.01 %
Elips 41 12.54 %
Buah 2 0.61 %
Gambar Kemasan
Gambar kemasan Total Persentase (%)
Boneka 75 22.94 %
Tokoh kartun 157 48.01 %
Binatang 95 29.05 %
Kondisi Makan Sereal
Kondisi makan sereal Total Persentase (%)
Sangat ingin 185 56.57 %
Tergesa-gesa 20 6.12 %
Dirumah tersedia (lapar) 122 37.31 %
Pelaku Pembelian Sereal
Pelaku pembelian sereal Total Persentase (%)
Dipilh dan dibelikan orang tua 42 12.84 %
Pilih sendiri dan dibelikan orang tua 282 86.24 %
Pilih sendiri dan beli sendiri 3 0.92 %
Tempat Pembelian
Tempat pembelian Total Persentase (%)
Supermaket 155 47.40 %
Pasar 148 45.26 %
Toko dekat rumah 24 7.34 %
Merek Sereal
Merek sereal Total Persentase (%)
Koko Krunch 186 56.88 %
Corn Flakes 5 1.53 %
Milo Cereal 60 18.35 %
Simba Choco Chips 28 8.56 %
Choco Krezz 22 6.73 %
Honey Crispies 4 1.22 %
Simba Choco Popies 16 4.89 %
Honey Star 6 1.83 %
Simba Choco Rillas 0 0 %
Ukuran Makan Sereal
Ukuran makan sereal (garam) Total Persentase (%)
30 61 18.65 %
35 7 2.14 %
40 4 1.22 %
45 127 33.84 %
50 33 10.09 %
55 2 0.61 %
60 1 0.31 %
70 1 0.31 %
75 86 26.30 %
80 4 1.22 %
85 0 0 %
100 1 0.31 %
E. Pertanyaan Spesifik (Mengenal, tetapi sering mengkonsumsi sereal)
Kenal Sereal
Kenal sereal Total Persentase (%)
Kurang dari 1 tahun 7 5. 74 %
1 – 3 tahun 10 8.20 %
3 – 5 tahun 29 23.77 %
Lebih dari 5 tahun 76 62.30 %
Sumber Informasi Sereal
Sumber informasi sereal Total Persentase (%)
Teman 1 0.82 %
Iklan 82 67.21 %
Keluarga 27 22.95 %
Tahu sendiri 12 9.84 %
Tempat Pembelian
Tempat pembelian Total Persentase (%)
Supermaket 96 78.69 %
Pasar 11 9.02 %
Toko dekat rumah 15 12.30 %
Kebiasaan Konsumsi Sereal
Kebiasaan konsumsi sereal Total Persentase (%)
Sebagai camilan 82 67.21 %
Bekal ke sekolah 40 32.79 %
Cara Konsumsi Sereal
Cara konsumsi sereal Total Persentase (%)
Dicampur susu 122 91.80 %
Dicampur air panas 6 4.92 %
Camilan / snack 4 3.28 %
Rasa Sereal
Rasa sereal Total Persentase (%)
Coklat 89 72.95 %
Vanila 16 13.11 %
Strawberi 11 9.02 %
Buah 5 4.10 %
Madu 1 0.82 %
Warna Sereal
Warna sereal Total Persentase (%)
Coklat 109 89.34 %
Kuning 11 9.02 %
Merah 2 1.64 %
Aroma Sereal
Aroma sereal Total Persentase (%)
Coklat 91 74.95 %
Strawberi 15 12.30 %
Buah 15 12.30 %
Madu 1 0.82 %
Vanila 0 0 %
Bentuk Sereal
Bentuk sereal Total Persentase (%)
Bulat 39 31.97 %
Lonjong 7 5.74 %
Boneka 23 18.85 %
Segitiga 0 0 %
Bintang 22 18.03 %
Binatang 12 9.84 %
Elips 19 15.57 %
Buah 0 0 %
Gambar Kemasan
Gambar kemasan Total Persentase (%)
Boneka 30 24.59 %
Tokoh kartun 64 52.46 %
Binatang 28 22.95 %
Pelaku Pembelian Sereal
Pelaku pembelian sereal Total Persentase (%)
Dipilih dan dibelikan orang tua 19 15.57 %
Pilh sendiri dan dibelikan orang tua 102 83.61 %
Pilih sendiri dan beli sendiri 1 0.82 %
Alasan Sering Mengkonsumsi Sereal
Alasan sering mengkonsumsi sereal Total Persentase (%)
Enak 70 57.38 %
Praktis 32 26.23 %
Mengenyangkan 20 16.39 %
Frekuensi Konsumsi Sereal
Frekuensi konsumsi sereal Total Persentase (%)
< dari 5 kali 4 3.28 %
5 s/d 10 kali 10 8.20 %
> dari 10 kali 108 88.52 %
Kondisi Makan Sereal
Kondisi makan sereal Total Persentase (%)
Sangat ingin 105 86.07 %
Tergesa-gesa 0 0 %
Dirumah tersedia (lapar) 17 13.93 %
Merek Sereal
Merek sereal Total Persentase (%)
Koko Krunch 71 58.20 %
Corn Flakes 3 2.46 %
Milo Cereal 23 18.85 %
Simba Choco Chips 10 8.20 %
Choco Krezz 6 4.92 %
Honey Crispies 2 1.64 %
Simba Choco Popies 4 3.28 %
Honey Star 2 1.64 %
Simba Choco Rillas 1 0.82 %
Ukuran Konsumsi Sereal (gram)
Ukuran konsumsi sereal (gram) Total Persentase (%)
30 16 13.11 %
35 4 3.28 %
40 0 0 %
45 38 31.15 %
50 12 9.84 %
55 0 0 %
60 0 0 %
70 0 0 %
75 45 36.89 %
80 3 2.46 %
85 4 3.28 %
100 0 0 %
Lampiran 4. Hasil Uji Coefficient Contingency
Crosstabs
Case Processing Summary
327 100.0% 0 .0% 327 100.0%327 100.0% 0 .0% 327 100.0%327 100.0% 0 .0% 327 100.0%327 100.0% 0 .0% 327 100.0%327 100.0% 0 .0% 327 100.0%327 100.0% 0 .0% 327 100.0%327 100.0% 0 .0% 327 100.0%327 100.0% 0 .0% 327 100.0%327 100.0% 0 .0% 327 100.0%
FREKUESI * RASAFREKUESI * WARNAFREKUESI * AROMAFREKUESI * BENTUKFREKUESI * GBR_KMSFREKUESI * JNS_SRLFREKUESI * UK_MKNFREKUESI * INFRMSFREKUESI * TP_BL
N Percent N Percent N PercentValid Missing Total
Cases
FREKUESI * RASA
Crosstab
Count
210 14 14 8 2 24843 1 5 2 5123 1 4 28
276 16 23 10 2 327
< dari 5 kali5 s/d 10 kali> dari 10 kali
FREKUESI
Total
coklat vanila strawbwery buah-buahan maduRASA
Total
Symmetric Measures
.137 .617
.016 .054 .297 .766
.017 .057 .305 .760c
.014 .053 .257 .797c
327
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FREKUESI * WARNA
Crosstab
Count
232 15 1 24843 8 5126 2 28
301 25 1 327
< dari 5 kali5 s/d 10 kali> dari 10 kali
FREKUESI
Total
coklat kuning merahWARNA
Total
Symmetric Measures
.133 .210
.084 .059 1.404 .160
.087 .060 1.571 .117c
.054 .055 .976 .330c
327
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FREKUESI * AROMA
Crosstab
Count
196 18 31 2 1 24841 5 5 5120 5 3 28
257 28 39 2 1 327
< dari 5 kali5 s/d 10 kali> dari 10 kali
FREKUESI
Total
coklat strawbery buah-buahan madu vanilaAROMA
Total
Symmetric Measures
.121 .771
.013 .052 .240 .810
.013 .055 .236 .813c
-.006 .052 -.115 .909c
327
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FREKUESI * BENTUK
Crosstab
Count
84 11 32 2 62 26 29 2 24813 5 5 1 14 6 7 514 2 6 7 4 5 28
101 18 43 3 83 36 41 2 327
< dari 5 kali5 s/d 10 kali> dari 10 kali
FREKUESI
Total
bulat lonjong boneka segitiga bintang binatang elips buahBENTUK
Total
Symmetric Measures
.179 .702
.078 .046 1.663 .096
.089 .053 1.608 .109c
.089 .052 1.604 .110c
327
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FREKUESI * GBR_KMS
Crosstab
Count
54 118 76 24815 24 12 516 15 7 28
75 157 95 327
< dari 5 kali5 s/d 10 kali> dari 10 kali
FREKUESI
Total
boneka tokoh kartun binatangGBR_KMS
Total
Symmetric Measures
.082 .696-.059 .050 -1.168 .243
-.064 .054 -1.150 .251c
-.051 .054 -.927 .355c
327
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FREKUESI * JNS_SRL
Crosstab
Count
141 3 45 25 15 3 10 6 24830 1 8 3 4 1 4 5115 1 7 3 2 28
186 5 60 28 22 4 16 6 327
< dari 5 kali5 s/d 10 kali> dari 10 kali
FREKUESI
Total
koko krunch corn flakes millo cerealsimba
choco chips choco krezzhoney
crispiessimba choco
popies honey star
JNS_SRL
Total
Symmetric Measures
.176 .730-.001 .050 -.026 .979
-.002 .055 -.028 .977c
.000 .054 .005 .996c
327
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FREKUESI * INFRMS
Crosstab
Count
4 29 184 31 2488 41 2 513 18 7 28
4 40 243 40 327
< dari 5 kali5 s/d 10 kali> dari 10 kali
FREKUESI
Total
teman keluarga iklan tahu sendiriINFRMS
Total
Symmetric Measures
.165 .166
.003 .054 .062 .951
.004 .057 .064 .949c
.042 .057 .752 .452c
327
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FREKUESI * TP_BL
Crosstab
Count
126 106 16 24817 28 6 5112 14 2 28
155 148 24 327
< dari 5 kali5 s/d 10 kali> dari 10 kali
FREKUESI
Total
supermaket pasartoko dekat
rumah
TP_BL
Total
Symmetric Measures
.134 .198
.110 .052 2.112 .035
.116 .055 2.114 .035c
.093 .055 1.688 .092c
327
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Error a Approx. T b Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
Mengenal, tetapi sering konsumsi sereal
Crosstabs
Case Processing Summary
122 100.0% 0 .0% 122 100.0%122 100.0% 0 .0% 122 100.0%122 100.0% 0 .0% 122 100.0%122 100.0% 0 .0% 122 100.0%122 100.0% 0 .0% 122 100.0%122 100.0% 0 .0% 122 100.0%122 100.0% 0 .0% 122 100.0%122 100.0% 0 .0% 122 100.0%122 100.0% 0 .0% 122 100.0%
FRE_KONS * JNS_SRLFRE_KONS * UK_MKNFRE_KONS * RASA_SLFRE_KONS * WRN_SLFRE_KONS * ARM_SLFRE_KONS * BTK_SLFRE_KONS * GBR_KMSFRE_KONS * INF_SLFRE_KONS * TMP_BL
N Percent N Percent N PercentValid Missing Total
Cases
FRE_KONS * JNS_SRL
Crosstab
Count
3 1 45 1 3 1 10
63 2 20 10 5 1 4 2 1 10871 3 23 10 6 2 4 2 1 122
< dari 5 kali5 s/d 10 kali> dari 10 kali
FRE_KONS
Total
koko krunch corn flakes millo serealsimba
choco chips chocho krezzhoney
crispiessimba choco
poppies honey starsimba
chocho rilas
JNS_SRL
Total
Symmetric Measures
.384 .176
.015 .081 .181 .856
.016 .087 .171 .864c
.025 .092 .269 .788c
122
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FRE_KONS * RASA_SL
Crosstab
Count
3 1 47 1 2 10
79 14 9 5 1 10889 16 11 5 1 122
< dari 5 kali5 s/d 10 kali> dari 10 kali
FRE_KONS
Total
coklat vanila strawbery buah maduRASA_SL
Total
Symmetric Measures
.156 .931-.004 .083 -.042 .966
-.004 .088 -.044 .965c
.030 .065 .329 .743c
122
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FRE_KONS * WRN_SL
Crosstab
Count
4 49 1 10
96 10 2 108109 11 2 122
< dari 5 kali5 s/d 10 kali> dari 10 kali
FRE_KONS
Total
coklat kuning merahWRN_SL
Total
Symmetric Measures
.075 .952
.044 .072 .600 .549
.045 .074 .493 .623c
.061 .049 .665 .507c
122
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FRE_KONS * ARM_SL
Crosstab
Count
3 1 48 2 10
80 13 14 1 10891 15 15 1 122
< dari 5 kali5 s/d 10 kali> dari 10 kali
FRE_KONS
Total
coklat strawbery buah maduARM_SL
Total
Symmetric Measures
.154 .815
.038 .080 .464 .643
.039 .084 .429 .669c
.028 .093 .304 .762c
122
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FRE_KONS * BTK_SL
Crosstab
Count
2 1 1 46 1 1 2 10
31 6 22 19 12 18 10839 7 23 22 12 19 122
< dari 5 kali5 s/d 10 kali> dari 10 kali
FRE_KONS
Total
bulat lonjong bonekabintang-bi
ntang binatang elips
BTK_SL
Total
Symmetric Measures
.257 .566
.159 .077 1.932 .053
.179 .087 1.990 .049c
.128 .097 1.419 .159c
122
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FRE_KONS * GBR_KMS
Crosstab
Count
3 1 44 4 2 10
26 57 25 10830 64 28 122
< dari 5 kali5 s/d 10 kali> dari 10 kali
FRE_KONS
Total
boneka tokoh kartun binatangGBR_KMS
Total
Symmetric Measures
.147 .610
.022 .085 .257 .797
.023 .091 .255 .799c
-.008 .081 -.088 .930c
122
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FRE_KONS * INF_SL
Crosstab
Count
2 2 47 3 10
1 18 77 12 1081 27 82 12 122
< dari 5 kali5 s/d 10 kali> dari 10 kali
FRE_KONS
Total
teman keluarga iklan tahu sendiriINF_SL
Total
Symmetric Measures
.353 .008
.315 .082 3.067 .002
.330 .086 3.835 .000c
.276 .083 3.142 .002c
122
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.
FRE_KONS * TMP_BL
Crosstab
Count
2 2 49 1 10
85 8 15 10896 11 15 122
< dari 5 kali5 s/d 10 kali> dari 10 kali
FRE_KONS
Total
supermaklet pasartoko dekat
rumah
TMP_BL
Total
Symmetric Measures
.279 .036
.013 .081 .165 .869
.015 .083 .162 .872c
.029 .067 .315 .754c
122
Contingency CoefficientNominal by NominalKendall's tau-bSpearman Correlation
Ordinal by Ordinal
Pearson's RInterval by IntervalN of Valid Cases
ValueAsymp.
Std. Errora Approx. Tb Approx. Sig.
Not assuming the null hypothesis.a.
Using the asymptotic standard error assuming the null hypothesis.b.
Based on normal approximation.c.