Persyaratan 1 Keadaan: 1.1 Bau - Normal 1.2 Rasa - Normal 1.3 Warna - Normal 2 Benda-benda asing - Tidak boleh ada 3 Serangga dalam bentuk stadia dan potongan-potongan - Tidak boleh ada 4 Jenis pati lain selain pati jagung - Tidak boleh ada 5 Kehalusan: 5
LAMPIRAN Lampiran 1. Persyaratan Mutu Tepung Jagung Menurut SNI 01-3727-1995 No Kriteria Uji Satuan Persyaratan
1 Keadaan:
- 1.1 Bau
Normal
- 1.2 Rasa
Normal
1.3 Warna - Normal
- 2 Benda-benda asing Tidak boleh ada
- 3 Serangga dalam bentuk stadia Tidak boleh ada dan potongan-potongan
- 4 Jenis pati lain selain pati Tidak boleh ada jagung
5 Kehalusan:
5.1 Lolos ayakan 80 mesh % Min. 70
5.2 Lolos ayakan 60 mesh % Min. 99
6 Air % b/b Maks. 10
7 Abu % b/b Maks. 1,5
8 Silikat % b/b Maks. 0,1
9 Serat kasar % b/b Maks. 1,5
10 Derajat asam ml N. NaOH / 100 gr Maks. 4,0
11 Cemaran logam:
11.1 Timbal (Pb) mg/kg Maks. 1,0
11.2 Tembaga (Cu) mg/kg Maks. 10,0
11.3 Seng (Zn) mg/kg Maks. 40,0
11.4 Raksa (Hg) mg/kg Maks. 0,05
12 Cemaran arsen (As) mg/kg Maks. 0,5
13 Cemaran mikroba:
6
13.1 Angka lempeng total koloni/g Maks. 10
13.2 E. coli APM/g Maks. 10
4
13.3 Kapang koloni/g Maks. 10
Lampiran 2. Persyaratan Mutu Sup Krim Instan Menurut SNI 01-4967-1999 No Jenis Uji Satuan Persyaratan
1 Keadaan:
- 1.1 Bau
Normal
1.2 Rasa - Normal
- 1.3 Tekstur
Berbentuk larutran kental setelah diseduh atau dimasak dengan air mendidih.
2 Protein % Min. 10
3 Lemak % Min. 5
4 Air % Maks. 8,0
5 Bahan tambahan makanan:
5.1 Pengawet Sesuai SNI 01-0222-1995 -
- 5.2 Penyedap rasa Sesuai SNI 01-0222-1995
6 Cemaran logam:
6.1 Timbal (Pb) mg/kg Maks. 1,0
6.2 Tembaga (Cu) mg/kg Maks. 10,0
6.3 Seng (Zn) mg/kg Maks. 40,0
6.4 Raksa (Hg) mg/kg Maks. 0,05
7 Arsen (As) mg/kg Maks. 0,5
8 Cemaran mikroba:
5
8.1 Angka lempeng total koloni/g Maks. 1 x 10
8.2 Coliform APM/g Maks. 10
8.3 E. coli koloni/g negatif
8.4 Salmonella koloni/25g negatif
3
8.5 Kapang / khamir koloni/g Maks. 1 x 10
Lampiran 3. Aktivitas Enzim -Amilase Secara Spektrofotometri αααα .
7
xcontrol xsampel xcontrol
− ÷
( )Aktivitas enzim amilase = waktu
10 menit
( )
, 7 ( 2 , 6345 , 1912 ) 2 , 6345− ÷ Aktivitas enzim amilase awal =
10
= 0,0649 unit , 7 ( 2 , 1730 , 2281 ) 2 , 1730− ÷ Aktivitas enzim amilase akhir =
10
= 0,0627 unitLampiran 4. Analisa Data Viskositas Sup Krim Jagung Instan Tests of Normality
.287 6 .132 .863 6 .201 .218 6 .200* .894 6 .340 .235 6 .200* .862 6 .195 .200 6 .200* .919 6 .498 .186 6 .200* .965 6 .855 .191 6 .200* .959 6 .809 .184 6 .200* .957 6 .795 .158 6 .200* .954 6 .776 .131 6 .200* .995 6 .997 .145 6 .200* .971 6 .900 .218 6 .200* .946 6 .706 .165 6 .200* .929 6 .570 .206 6 .200* .963 6 .840 .189 6 .200* .926 6 .549 .240 6 .200* .949 6 .736 .220 6 .200* .938 6 .645 .163 6 .200* .974 6 .916 .177 6 .200* .968 6 .879 .240 6 .200* .945 6 .698 .187 6 .200* .963 6 .846 sampel kontrol 15% 20% 25% 30% kontrol 15% 20% 25% 30% kontrol 15% 20% 25% 30% kontrol 15% 20% 25% 30% visko_menit0 visko_menit10 visko_menit20 visko_menit30 Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnov
a
Shapiro-Wilk This is a lower bound of the true significance.
- .
Lilliefors Significance Correction a.
Descriptive Statistics
30 5.0373 2.76070
6 4.6817 .20527
6 6.4233 .32574
6 8.2083 .22382
6 5.7292 1.80039
24 2.3240 1.08901
30 3.0950 1.47155
30 4.1073 2.06746
30 3.6409 2.18506 120 waktu menit ke-0 menit ke-10 menit ke-20 menit ke-30 Total menit ke-0 menit ke-10 menit ke-20 menit ke-30 Total menit ke-0 menit ke-10 menit ke-20 menit ke-30 Total menit ke-0 menit ke-10 menit ke-20 menit ke-30 Total menit ke-0 menit ke-10 menit ke-20 menit ke-30 Total menit ke-0 menit ke-10 menit ke-20 menit ke-30 Total perlakuan kontrol 15% 20% 25% 30% Total
6 5.5671 1.88525
Mean Std. Deviation N
Tests of Between-Subjects Effects
Dependent Variable: viskositas 564.490
a
19 29.710 808.255 .000 1590.753 1 1590.753 43276.176 .000
388.679 4 97.170 2643.488 .000 125.995 3 41.998 1142.554 .000
49.816 12 4.151 112.937 .000 Source Corrected Model Intercept perlakuan waktu perlakuan * waktu
24 3.6033 .13677
6 8.1517 .23575
Dependent Variable: viskositas .9100 .08672
6 2.3283 .19833
6 1.3050 .08118
6 1.7083 .14106
6 1.9917 .15690
6 1.4788 .43288
24 1.2950 .11292
6 1.5450 .13590
6 1.9667 .17351
6 1.7838 .43031
6 6.2850 .26861
24 2.5317 .18433
6 3.3917 .20527
6 4.1533 .16801
6 4.5067 .23261
6 3.6458 .79727
24 3.2800 .15218
6 4.5517 .22248
Type III Sum of Squares df Mean Square F Sig.
viskositas a,b
Duncan Subset perlakuan N
1
2
3
4
5 kontrol 24 1.4788
15% 24 1.7838 20% 24 3.6458 25% 24 5.5671 30%
24 5.7292 Sig.
1.000 1.000 1.000 1.000 1.000 Means for groups in homogeneous subsets are displayed. Based on Type III Sum of Squares The error term is Mean Square(Error) = .037.
a.
Uses Harmonic Mean Sample Size = 24.000.
b.
Alpha = .05.
viskositas a,b
Duncan Subset waktu N
1
2
3
4 menit ke-0 30 2.3240 menit ke-10 30 3.0950 menit ke-20 30 4.1073 menit ke-30 30 5.0373
Sig. 1.000 1.000 1.000 1.000 Means for groups in homogeneous subsets are displayed. Based on Type III Sum of Squares The error term is Mean Square(Error) = .037.
a.
Uses Harmonic Mean Sample Size = 30.000.
b.
Alpha = .05.
Lampiran 5. Analisa Data Bulk Density Sup Krim Jagung Instan Tests of Normality a
Kolmogorov-Smirnov Shapiro-Wilk sampel Statistic df Sig. Statistic df Sig. bulk_density kontrol
.206 6 .200* .879 6 .264 15% .213 6 .200* .893 6 .332 20%
.178 6 .200* .945 6 .701 25% .190 6 .200* .942 6 .673 30%
.239 6 .200* .860 6 .189 *. This is a lower bound of the true significance.
Descriptives bulk_density 95% Confidence Interval for
Mean N Mean Std. Deviation Std. Error Lower Bound Upper Bound Minimum Maximum kontrol
6 .70067 .009070 .003703 .69115 .71019 .691 .712
15%
6 .64867 .005750 .002348 .64263 .65470 .643 .659
20%6 .64417 .006145 .002509 .63772 .65062 .635 .651
25%6 .62350 .005050 .002062 .61820 .62880 .616 .629
30%6 .61533 .009158 .003739 .60572 .62494 .602 .624
Total
30 .64647 .031061 .005671 .63487 .65807 .602 .712
ANOVAbulk_density Sum of Squares df Mean Square F Sig.
Between Groups .027 4 .007 127.002 .000 Within Groups .001 25 .000 Total
.028
29
bulk_density a
Duncan Subset for alpha = .05 sampel N
1
2
3 30% 6 .61533 25% 6 .62350 20% 6 .64417 15% 6 .64867 kontrol 6 .70067 Sig.
.062 .292 1.000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6.000.
- .
18.91
86.54 6 -.9733 .08756 .03575 -1.0652 -.8814 -1.10 -.86 6 -.8033 .09266 .03783 -.9006 -.7061 -.98 -.72 6 -.7667 .07118 .02906 -.8414 -.6920 -.87 -.69 6 -.6317 .05913 .02414 -.6937 -.5696 -.73 -.57 6 -.5067 .05888 .02404 -.5685 -.4449 -.59 -.43
30 -.7363 .17549 .03204 -.8019 -.6708 -1.10 -.43
6 23.4917 .69107 .28213 22.7664 24.2169
22.39
24.46
6 20.6933 .72032 .29407 19.9374 21.4493
19.80
21.61
6 20.1583 1.04254 .42562 19.0643 21.2524
21.51
6 19.9700 .83659 .34154 19.0921 20.8479
83.80 30 84.8620 1.06313 .19410 84.4650 85.2590
18.72
20.93
6 18.1667 .72619 .29646 17.4046 18.9288
17.30
19.11 30 20.4960 1.90760 .34828 19.7837 21.2083
17.30
24.46 kontrol 15% 20% 25% 30% Total kontrol 15% 20% 25% 30% Total kontrol 15% 20% 25% 30% Total L_sampel_kering a_sampel_kering b_sampel_kering
82.63
82.63
Lampiran 6. Analisa Data Warna Sampel Sup Krim Jagung Kering Tests of Normality
Descriptives
6 86.2167 .17386 .07098 86.0342 86.3991
.303 6 .091 .869 6 .221 .192 6 .200* .924 6 .531 .280 6 .156 .872 6 .235 .201 6 .200* .925 6 .542 .219 6 .200* .890 6 .316 .227 6 .200* .959 6 .808 .305 6 .086 .821 6 .089 .197 6 .200* .922 6 .516 .149 6 .200* .937 6 .634 .212 6 .200* .960 6 .823 .177 6 .200* .973 6 .909 .235 6 .200* .926 6 .548 .239 6 .200* .908 6 .424 .176 6 .200* .948 6 .727 .194 6 .200* .928 6 .568 sampel kontrol 15% 20% 25% 30% kontrol 15% 20% 25% 30% kontrol 15% 20% 25% 30%
L_sampel_kering a_sampel_kering b_sampel_kering Statistic df Sig. Statistic df Sig.
Kolmogorov-Smirnov
a
Shapiro-Wilk This is a lower bound of the true significance.
Lilliefors Significance Correction a.
86.03
84.67
6 83.3867 .43734 .17854 82.9277 83.8456
86.54
6 85.5350 .27501 .11227 85.2464 85.8236
85.18
85.86
6 85.0533 .28112 .11477 84.7583 85.3483
84.64
85.32
6 84.1183 .33778 .13790 83.7639 84.4728
83.78
N Mean Std. Deviation Std. Error Lower Bound Upper Bound 95% Confidence Interval for Mean Minimum Maximum
ANOVA
Sum of Squares df Mean Square F Sig. L_sampel_kering Between Groups 30.326 4 7.581 77.323 .000
Within Groups 2.451 25 .098
Total 32.777
29 a_sampel_kering Between Groups .752 4 .188 33.221 .000
Within Groups .141 25 .006
Total .893
29 b_sampel_kering Between Groups 88.977 4 22.244 33.596 .000
Within Groups 16.553 25 .662 Total 105.530
29 L_sampel_kering
a
Duncan Subset for alpha = .05 sampel N
1
2
3
4
5 30% 6 83.3867 25% 6 84.1183 20% 6 85.0533 15% 6 85.5350 kontrol
6 86.2167
Sig. 1.000 1.000 1.000 1.000 1.000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6.000.
a_sampel_kering a
Duncan Subset for alpha = .05 sampel N
1
2
3
4 kontrol 6 -.9733
15% 6 -.8033 20% 6 -.7667 25% 6 -.6317 30% 6 -.5067 Sig. 1.000 .406 1.000 1.000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6.000. Lilliefors Significance Correction a.
Shapiro-Wilk This is a lower bound of the true significance.
Uses Harmonic Mean Sample Size = 6.000.
a
Kolmogorov-Smirnov
L_sampel_cair a_sampel_cair b_sampel_cair Statistic df Sig. Statistic df Sig.
.202 6 .200* .901 6 .379 .200 6 .200* .977 6 .934 .173 6 .200* .934 6 .611 .242 6 .200* .894 6 .342 .184 6 .200* .957 6 .796 .282 6 .146 .807 6 .068 .157 6 .200* .959 6 .814 .208 6 .200* .901 6 .378 .185 6 .200* .928 6 .561 .154 6 .200* .933 6 .604 .231 6 .200* .942 6 .673 .160 6 .200* .960 6 .821 .324 6 .048 .795 6 .053 .192 6 .200* .976 6 .930 .168 6 .200* .988 6 .983 sampel kontrol 15% 20% 25% 30% kontrol 15% 20% 25% 30% kontrol 15% 20% 25% 30%
Lampiran 7. Analisa Data Warna Sampel Sup Krim Jagung Cair Tests of Normality
a.
3 Subset for alpha = .05 Means for groups in homogeneous subsets are displayed.
b_sampel_kering
2
1
N
1.000 .157 1.000 sampel 30% 25% 20% 15% kontrol Sig.
6 18.1667 6 19.9700 6 20.1583 6 20.6933 6 23.4917
a
Duncan
- .
Descriptives 6 55.3717 .43911 .17927 54.9109 55.8325
Sum of Squares df Mean Square F Sig.
ANOVA
20.989 4 5.247 60.394 .000 2.172 25 .087
23.161
29 1.228 4 .307 19.742 .000
.389 25 .016 1.617
29 15.855 4 3.964 14.505 .000
6.832 25 .273 22.687
29 Between Groups Within Groups Total Between Groups Within Groups Total Between Groups Within Groups Total
L_sampel_cair a_sampel_cair b_sampel_cair
L_sampel_cair
15.74 kontrol 15% 20% 25% 30% Total kontrol 15% 20% 25% 30% Total kontrol 15% 20% 25% 30% Total L_sampel_cair a_sampel_cair b_sampel_cair
Duncan
a
6 52.9767 6 53.5817 6 54.4200 6 54.6450 6 55.3717
1.000 1.000 .198 1.000 sampel 30% 25% 20% 15% kontrol Sig.
N
1
2
3
4 Subset for alpha = .05 Means for groups in homogeneous subsets are displayed.
Uses Harmonic Mean Sample Size = 6.000.
N Mean Std. Deviation Std. Error Lower Bound Upper Bound 95% Confidence Interval for Mean Minimum Maximum
12.20
54.87
52.74
55.90 6 54.6450 .30138 .12304 54.3287 54.9613
54.24
55.09 6 54.4200 .17810 .07271 54.2331 54.6069
54.22
54.67 6 53.5817 .30915 .12621 53.2572 53.9061
53.02
53.93 6 52.9767 .15319 .06254 52.8159 53.1374
52.74
53.15 30 54.1990 .89367 .16316 53.8653 54.5327
55.90 6 -2.4433 .13003 .05308 -2.5798 -2.3069 -2.69 -2.34 6 -2.2117 .08796 .03591 -2.3040 -2.1194 -2.34 -2.11 6 -2.1550 .14460 .05903 -2.3068 -2.0032 -2.39 -2.02 6 -2.0150 .11845 .04836 -2.1393 -1.8907 -2.21 -1.89 6 -1.8367 .13486 .05506 -1.9782 -1.6951 -1.98 -1.64
14.26 30 14.4533 .88448 .16148 14.1231 14.7836
30 -2.1323 .23614 .04311 -2.2205 -2.0442 -2.69 -1.64 6 15.2467 .36887 .15059 14.8596 15.6338
14.78
15.74 6 14.9383 .22640 .09243 14.7007 15.1759
14.67
15.32 6 14.8350 .52899 .21596 14.2799 15.3901
14.40
15.60 6 13.9800 .60870 .24850 13.3412 14.6188
13.01
14.80 6 13.2667 .72712 .29685 12.5036 14.0297
12.20
a.
a_sampel_cair a
Duncan Subset for alpha = .05 sampel N
1
2
3
4 kontrol 6 -2.4433
15% 6 -2.2117 20% 6 -2.1550 -2.1550 25% 6 -2.0150 30% 6 -1.8367 Sig.
1.000 .439 .063 1.000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6.000.
b_sampel_cair a
Duncan Subset for alpha = .05 sampel N
1
2
3 30% 6 13.2667 25% 6 13.9800 20% 6 14.8350 15% 6 14.9383 kontrol
6 15.2467 Sig.
1.000 1.000 .209 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6.000.
Lampiran 8. Analisa Data Kadar Air Sup Krim Jagung Instan Tests of Normality a
Kolmogorov-Smirnov Shapiro-Wilk SAMPEL Statistic df Sig. Statistic df Sig. KDR_AIR KONTROL
.168 6 .200* .945 6 .703 15% .200 6 .200* .972 6 .904 20%
.250 6 .200* .846 6 .147 25% .172 6 .200* .967 6 .871 30%
.204 6 .200* .911 6 .444 *. This is a lower bound of the true significance.
a.
Lilliefors Significance Correction
Descriptives KDR_AIR 95% Confidence Interval for
Mean
N Mean Std. Deviation Std. Error Lower Bound Upper Bound Minimum Maximum
KONTROL 6 7.76567 .144528 .059003 7.61399 7.91734 7.610 8.000ANOVA
KDR_AIR Sum of Squares df Mean Square F Sig.
Between Groups 1.571 4 .393 16.839 .000
Within Groups .583 25 .023
Total 2.154
29 KDR_AIR
a
Duncan Subset for alpha = .05
SAMPEL N
1
2
3
4 30% 6 7.12267 25% 6 7.41600 20% 6 7.54367 7.54367 15% 6 7.70100 7.70100 KONTROL 6 7.76567 Sig.
1.000 .160 .087 .470 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6.000.
Lampiran 9. Analisa Data Kadar Abu Sup Krim Jagung Instan Tests of Normality
a
Kolmogorov-Smirnov Shapiro-Wilk SAMPEL Statistic df Sig. Statistic df Sig. KDR_ABU KONTROL
.208 6 .200* .945 6 .704 15% .284 6 .142 .875 6 .245 20%
.192 6 .200* .940 6 .660 25%
.235 6 .200* .937 6 .634 30%
.202 6 .200* .956 6 .785 *. This is a lower bound of the true significance.
a.
Lilliefors Significance Correction
Descriptives KDR_ABU 95% Confidence Interval for
Mean
N Mean Std. Deviation Std. Error Lower Bound Upper Bound Minimum Maximum
KONTROL 6 11.77317 .246642 .100691 11.51433 12.03200 11.350 12.061 15% 6 11.87200 .559682 .228489 11.28465 12.45935 11.337 12.728 20%6 11.95767 .428889 .175093 11.50758 12.40776 11.455 12.572 25% 6 12.05033 .449333 .183439 11.57879 12.52188 11.543 12.728 30% 6 12.16850 .265404 .108351 11.88998 12.44702 11.798 12.524 Total
30 11.96433 .403304 .073633 11.81374 12.11493 11.337 12.728
ANOVA
KDR_ABU Sum of Squares df Mean Square F Sig.
Between Groups .565 4 .141 .851 .507
Within Groups 4.152 25 .166
Total 4.717
29 KDR_ABU
a
Duncan Subset for alpha
= .05 SAMPEL N
1 KONTROL 6 11.77317 15% 6 11.87200 20% 6 11.95767 25% 6 12.05033 30% 6 12.16850 Sig.
.144 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6.000.
Lampiran 10. Analisa Data Kadar Lemak Sup Krim Jagung Instan Tests of Normality
a
Kolmogorov-Smirnov Shapiro-Wilk SAMPEL Statistic df Sig. Statistic df Sig. KDR_LEMAK KONTROL
.255 6 .200* .845 6 .143 15%
.267 6 .200* .876 6 .253 20%
.248 6 .200* .835 6 .118 25% .191 6 .200* .944 6 .691 30% .242 6 .200* .916 6 .479 *. This is a lower bound of the true significance.
a.
Lilliefors Significance Correction
Descriptives KDR_LEMAK 95% Confidence Interval for
Mean
N Mean Std. Deviation Std. Error Lower Bound Upper Bound Minimum Maximum
KONTROL 6 5.14100 .265630 .108443 4.86224 5.41976 4.912 5.536 15% 6 5.27933 .312465 .127563 4.95142 5.60725 4.978 5.805 20%6 5.56050 .328858 .134256 5.21538 5.90562 5.292 6.070 25% 6 5.68150 .357520 .145957 5.30631 6.05669 5.180 6.087 30% 6 5.86917 .377010 .153914 5.47352 6.26481 5.231 6.382
KDR_LEMAK
Lampiran 11. Analisa Data Kadar Protein Sup Krim Jagung Instan Tests of Normality
95% Confidence Interval for Mean Minimum Maximum
30 5.91800 .895253 .163450 5.58371 6.25229 4.042 7.211 KONTROL 15% 20% 25% 30% Total N Mean Std. Deviation Std. Error Lower Bound Upper Bound
6 5.52733 .235620 .096191 5.28007 5.77460 5.158 5.810 6 6.32783 .225964 .092249 6.09070 6.56497 6.084 6.644 6 6.51917 .187264 .076450 6.32265 6.71569 6.290 6.801 6 6.78900 .246358 .100575 6.53046 7.04754 6.523 7.211
Descriptives KDR_PROTEIN 6 4.42667 .220447 .089997 4.19532 4.65801 4.042 4.618
Lilliefors Significance Correction a.
Shapiro-Wilk This is a lower bound of the true significance.
a
Kolmogorov-Smirnov
KDR_PROTEIN Statistic df Sig. Statistic df Sig.
SAMPEL KONTROL 15% 20% 25% 30%
.251 6 .200* .850 6 .159 .250 6 .200* .941 6 .667 .184 6 .200* .925 6 .541 .201 6 .200* .962 6 .835 .189 6 .200* .929 6 .572
a.
ANOVA
Uses Harmonic Mean Sample Size = 6.000.
3 Subset for alpha = .05 Means for groups in homogeneous subsets are displayed.
2
1
N
.475 .056 .138 SAMPEL KONTROL 15% 20% 25% 30% Sig.
6 5.14100 6 5.27933 5.27933 6 5.56050 5.56050 6 5.68150 5.68150 6 5.86917
a
Duncan
Sum of Squares df Mean Square F Sig.
29 Between Groups Within Groups Total
KDR_LEMAK 2.102 4 .525 4.809 .005 2.731 25 .109 4.833
- .
ANOVA
KDR_PROTEIN Sum of Squares df Mean Square F Sig.
Between Groups 21.988 4 5.497 109.532 .000
Within Groups 1.255 25 .050
Total 23.243
29 KDR_PROTEIN
a
Duncan Subset for alpha = .05
SAMPEL N
1
2
3
4 KONTROL 6 4.42667 15% 6 5.52733 20% 6 6.32783 25% 6 6.51917 30% 6 6.78900 Sig.
1.000 1.000 .152 1.000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6.000.
Lampiran 12. Analisa Data Kadar Karbohidrat Sup Krim Jagung Instan Tests of Normality a
Kolmogorov-Smirnov Shapiro-Wilk SAMPEL Statistic df Sig. Statistic df Sig. KDR_KH KONTROL .237 6 .200* .871 6 .231
15% .208 6 .200* .969 6 .884
20% .180 6 .200* .918 6 .491 25%
.244 6 .200* .852 6 .163 30%
.211 6 .200* .908 6 .421 *. This is a lower bound of the true significance.
a.
Lilliefors Significance Correction
Descriptives KDR_KH 95% Confidence Interval for
Mean
N Mean Std. Deviation Std. Error Lower Bound Upper Bound Minimum Maximum
KONTROL 6 70.89400 .236230 .096440 70.64609 71.14191 70.577 71.118 15% 6 69.62017 .534397 .218167 69.05935 70.18098 68.862 70.408 20% 6 68.61017 .804419 .328403 67.76598 69.45435 67.595 69.515 25% 6 68.33283 .685872 .280006 67.61305 69.05261 67.054 68.964 30%6 68.05067 .717739 .293016 67.29745 68.80389 67.259 69.336 Total 30 69.10157 1.208899 .220714 68.65016 69.55298 67.054 71.118
ANOVA KDR_KH Sum of
Squares df Mean Square F Sig. Between Groups 32.511 4 8.128 20.587 .000 Within Groups
9.870 25 .395 Total 42.382
29 KDR_KH
a
Duncan Subset for alpha = .05
SAMPEL N
1
2
3 30% 6 68.05067 25% 6 68.33283 20% 6 68.61017 15% 6 69.62017 KONTROL 6 70.89400 Sig. .157 1.000 1.000 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6.000.
Lampiran 13. Analisa Data Kadar Serat Larut Sup Krim Jagung Instan Tests of Normality a
Kolmogorov-Smirnov Shapiro-Wilk SAMPEL Statistic df Sig. Statistic df Sig. KDR_SERAT_LARUT KONTROL .242 6 .200* .921 6 .513 15%
.128 6 .200* .986 6 .978 20% .220 6 .200* .923 6 .530 25% .215
6 .200* .970 6 .894 30% .281 6 .150 .798 6 .056 *.
This is a lower bound of the true significance.
a.
Lilliefors Significance Correction Descriptives
KDR_SERAT_LARUT 95% Confidence Interval for Mean
N Mean Std. Deviation Std. Error Lower Bound Upper Bound Minimum Maximum
KONTROL 6 55.15883 2.051852 .837665 53.00555 57.31212 52.924 58.321 15% 6 53.06283 3.292987 1.344356 49.60706 56.51861 48.289 57.372 20%
6 52.20550 2.137806 .872756 49.96201 54.44899 49.925 55.389 25% 6 52.15167 1.560174 .636938 50.51436 53.78897 49.714 54.414 30% 6 51.01267 2.528571 1.032285 48.35909 53.66624 46.210 52.987 Total
30 52.71830 2.623949 .479065 51.73850 53.69810 46.210 58.321
ANOVA
KDR_SERAT_LARUT Sum of Squares df Mean Square F Sig.
Between Groups 57.409 4 14.352 2.522 .066
Within Groups 142.259 25 5.690
Total 199.668
29 KDR_SERAT_LARUT
a
Duncan Subset for alpha = .05
SAMPEL N
1
2 30% 6 51.01267 25% 6 52.15167 52.15167 20% 6 52.20550 52.20550 15% 6 53.06283 53.06283 KONTROL 6 55.15883 Sig.
.185 .055 Means for groups in homogeneous subsets are displayed.
a.
Uses Harmonic Mean Sample Size = 6.000.
Lampiran 14. Analisa Data Uji Rating Hedonik Sup Krim Jagung Instan Descriptive Statistics N Mean Std. Deviation Minimum Maximum Rasa
150 2.4733 .96026
1.00
4.00 Konsentrasi 150 3.0000 1.41895
1.00
5.00 b,c Test Statistics
Rasa Chi-Square
23.788 df
4 Asymp. Sig. .000
a
Monte Carlo Sig. .000 Sig.
99% Confidence Lower Bound .000
Interval Upper Bound
.000 a. Based on 10000 sampled tables with starting seed 926214481.
b.
Kruskal Wallis Test c. Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Rasa kontrol
30 26.37 791.00 15%
30 34.63 1039.00 Total
60
b Test Statistics
Rasa Mann-Whitney U
326.000 Wilcoxon W
791.000 Z
- 1.922 Asymp. Sig. (2-tailed)
.055
a
Monte Carlo Sig. Sig. .058 (2-tailed)
99% Confidence Lower Bound .052
Interval Upper Bound
.064
a Monte Carlo Sig. Sig.
.027 (1-tailed)
99% Confidence Lower Bound .023
Interval Upper Bound
.031 a. Based on 10000 sampled tables with starting seed 303130861.
b.
Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Rasa 15%
30 31.03 931.00 20%
30 29.97 899.00 Total
60
b Test Statistics
Rasa Mann-Whitney U
434.000 Wilcoxon W
899.000 Z
- .251 Asymp. Sig. (2-tailed)
.802
a Monte Carlo Sig. Sig.
.818 (2-tailed)
99% Confidence Lower Bound .808
Interval Upper Bound
.828
a Monte Carlo Sig. Sig.
.408 (1-tailed)
99% Confidence Lower Bound .395
Interval Upper Bound .420 a.
Based on 10000 sampled tables with starting seed 92208573.
b.
Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Rasa 20%
30 24.63 739.00 25%
30 36.37 1091.00 Total
60
b Test Statistics
Rasa Mann-Whitney U
274.000 Wilcoxon W
739.000 Z
- 2.768 Asymp. Sig. (2-tailed)
.006
a
Monte Carlo Sig. Sig. .005 (2-tailed)
99% Confidence Lower Bound .003
Interval Upper Bound
.006
a Monte Carlo Sig. Sig.
.002 (1-tailed)
99% Confidence Lower Bound .001
Interval Upper Bound .003 a.
Based on 10000 sampled tables with starting seed 1335104164.
b.
Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Rasa 25%
30 30.33 910.00 30%
30 30.67 920.00 Total
60
b Test Statistics
Rasa Mann-Whitney U
445.000 Wilcoxon W
910.000 Z
- .078 Asymp. Sig. (2-tailed)
.938
a Monte Carlo Sig. Sig.
1.000 (2-tailed)
99% Confidence Lower Bound 1.000
Interval Upper Bound
1.000
a Monte Carlo Sig. Sig.
.508 (1-tailed)
99% Confidence Lower Bound .495 Interval
Upper Bound .520 a.
Ranks
Konsentrasi N Mean Rank Sum of Ranks Rasa kontrol
30 26.37 791.00 20%
30 34.63 1039.00 Total
60
b Test Statistics
Rasa Mann-Whitney U
326.000 Wilcoxon W
791.000 Z
- 1.947 Asymp. Sig. (2-tailed)
.052
a
Monte Carlo Sig. Sig. .050 (2-tailed)
99% Confidence Lower Bound .044
Interval Upper Bound
.056
a Monte Carlo Sig. Sig.
.025 (1-tailed)
99% Confidence Lower Bound .021
Interval Upper Bound
.029 a. Based on 10000 sampled tables with starting seed 1535910591.
b.
Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Rasa kontrol
30 21.97 659.00 25%
30 39.03 1171.00 Total
60
b Test Statistics
Rasa Mann-Whitney U
194.000 Wilcoxon W
659.000 Z
- 3.939 Asymp. Sig. (2-tailed)
.000
a
Monte Carlo Sig. Sig. .000 (2-tailed)
99% Confidence Lower Bound .000
Interval Upper Bound
.000
a Monte Carlo Sig. Sig.
.000 (1-tailed)
99% Confidence Lower Bound .000
Interval Upper Bound
.000 a. Based on 10000 sampled tables with starting seed 1993510611.
b.
Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Rasa kontrol
30 22.53 676.00 30%
30 38.47 1154.00 Total
60
b Test Statistics
Rasa Mann-Whitney U
211.000 Wilcoxon W
676.000 Z
- 3.664 Asymp. Sig. (2-tailed)
.000
a
Monte Carlo Sig. Sig. .000 (2-tailed)
99% Confidence Lower Bound .000
Interval Upper Bound
.001
a Monte Carlo Sig. Sig.
.000 (1-tailed)
99% Confidence Lower Bound .000
Interval Upper Bound .001 a.
Based on 10000 sampled tables with starting seed 1241531719.
b.
Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Rasa 15%
30 25.77 773.00 25%
30 35.23 1057.00 Total
60
b Test Statistics
Rasa Mann-Whitney U
308.000 Wilcoxon W
773.000 Z
- 2.208 Asymp. Sig. (2-tailed)
.027
a Monte Carlo Sig. Sig.
.028 (2-tailed)
99% Confidence Lower Bound .024
Interval Upper Bound
.033
a Monte Carlo Sig. Sig.
.015 (1-tailed)
99% Confidence Lower Bound .012 Interval
Upper Bound .018 a.
Ranks
Konsentrasi N Mean Rank Sum of Ranks Rasa 15%
30 26.07 782.00 30%
30 34.93 1048.00 Total
60
b Test Statistics
Rasa Mann-Whitney U
317.000 Wilcoxon W
782.000 Z
- 2.049 Asymp. Sig. (2-tailed)
.040
a
Monte Carlo Sig. Sig. .042 (2-tailed)
99% Confidence Lower Bound .037
Interval Upper Bound
.047
a Monte Carlo Sig. Sig.
.022 (1-tailed)
99% Confidence Lower Bound .018
Interval Upper Bound
.025 a. Based on 10000 sampled tables with starting seed 1556559737.
b.
Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Rasa 20%
30 25.20 756.00 30%
30 35.80 1074.00 Total
60
b Test Statistics
Rasa Mann-Whitney U
291.000 Wilcoxon W
756.000 Z
- 2.478 Asymp. Sig. (2-tailed)
.013
a Monte Carlo Sig. Sig.
.015 (2-tailed)
99% Confidence Lower Bound .012
Interval Upper Bound
.018
a Monte Carlo Sig. Sig.
.008 (1-tailed)
99% Confidence Lower Bound .006 Interval
Upper Bound .010 a. Based on 10000 sampled tables with starting seed 79654295.
b.
Descriptive Statistics N Mean Std. Deviation Minimum Maximum Warna
150 2.5333 1.03409
1.00
4.00 Konsentrasi 150 3.0000 1.41895
1.00
5.00 b,c Test Statistics
Warna Chi-Square
20.969 df
4 Asymp. Sig. .000
a
Monte Carlo Sig. .000 Sig.
99% Confidence Lower Bound .000
Interval Upper Bound
.000 a. Based on 10000 sampled tables with starting seed 299883525.
b.
Kruskal Wallis Test c. Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Warna kontrol
30 33.50 1005.00 15%
30 27.50 825.00 Total
60
b Test Statistics
Warna Mann-Whitney U
360.000 Wilcoxon W
825.000 Z
- 1.404 Asymp. Sig. (2-tailed)
.160
a Monte Carlo Sig. Sig.
.165 (2-tailed)
99% Confidence Lower Bound .156
Interval Upper Bound .175
a
Monte Carlo Sig. Sig. .083 (1-tailed)
99% Confidence Lower Bound .076
Interval Upper Bound
.090 a. Based on 10000 sampled tables with starting seed 215962969.
b.
Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Warna 15%
30 36.95 1108.50 20%
30 24.05 721.50 Total
60
b Test Statistics
Warna Mann-Whitney U
256.500 Wilcoxon W
721.500 Z
- 2.995 Asymp. Sig. (2-tailed)
.003
a Monte Carlo Sig. Sig.
.002 (2-tailed)
99% Confidence Lower Bound .001
Interval Upper Bound .004
a
Monte Carlo Sig. Sig. .001 (1-tailed)
99% Confidence Lower Bound .000
Interval Upper Bound
.002 a. Based on 10000 sampled tables with starting seed 1573343031.
b.
Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Warna 20%
30 27.73 832.00 25%
30 33.27 998.00 Total
60
b Test Statistics
Warna Mann-Whitney U
367.000 Wilcoxon W
832.000 Z
- 1.292 Asymp. Sig. (2-tailed)
.197
a Monte Carlo Sig. Sig.
.201 (2-tailed)
99% Confidence Lower Bound .190
Interval Upper Bound .211
a
Monte Carlo Sig. Sig. .102 (1-tailed)
99% Confidence Lower Bound .095
Interval Upper Bound
.110
Ranks
Konsentrasi N Mean Rank Sum of Ranks Warna 25%
30 26.13 784.00 30%
30 34.87 1046.00 Total
60
b Test Statistics
Warna Mann-Whitney U
319.000 Wilcoxon W
784.000 Z
- 2.017 Asymp. Sig. (2-tailed)
.044
a Monte Carlo Sig. Sig.
.048 (2-tailed)
99% Confidence Lower Bound .042 Interval
Upper Bound .054
a Monte Carlo Sig. Sig.
.025 (1-tailed)
99% Confidence Lower Bound .021
Interval Upper Bound
.028 a. Based on 10000 sampled tables with starting seed 475497203.
b.
Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Warna kontrol
30 38.60 1158.00 20%
30 22.40 672.00 Total
60
b Test Statistics
Warna Mann-Whitney U
207.000 Wilcoxon W
672.000 Z
- 3.732 Asymp. Sig. (2-tailed)
.000
a
Monte Carlo Sig. Sig. .000 (2-tailed)
99% Confidence Lower Bound .000 Interval
Upper Bound .000
a Monte Carlo Sig. Sig.
.000 (1-tailed)
99% Confidence Lower Bound .000
Interval Upper Bound
.000
Ranks
Konsentrasi N Mean Rank Sum of Ranks Warna kontrol
30 35.93 1078.00 25%
30 25.07 752.00 Total
60
b Test Statistics
Warna Mann-Whitney U
287.000 Wilcoxon W
752.000 Z
- 2.493 Asymp. Sig. (2-tailed)
.013
a Monte Carlo Sig. Sig.
.014 (2-tailed)
99% Confidence Lower Bound .011
Interval Upper Bound .017
a
Monte Carlo Sig. Sig. .007 (1-tailed)
99% Confidence Lower Bound .005
Interval Upper Bound
.009 a. Based on 10000 sampled tables with starting seed 2048628469.
b.
Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Warna kontrol
30 32.97 989.00 30%
30 28.03 841.00 Total
60
b Test Statistics
Warna Mann-Whitney U
376.000 Wilcoxon W
841.000 Z
- 1.162 Asymp. Sig. (2-tailed)
.245
a Monte Carlo Sig. Sig.
.238 (2-tailed)
99% Confidence Lower Bound .227
Interval Upper Bound .249
a
Monte Carlo Sig. Sig. .119 (1-tailed)
99% Confidence Lower Bound .110
Interval Upper Bound
.127
Ranks
Konsentrasi N Mean Rank Sum of Ranks Warna 15%
30 34.03 1021.00 25%
30 26.97 809.00 Total
60
b Test Statistics
Warna Mann-Whitney U
344.000 Wilcoxon W
809.000 Z
- 1.627 Asymp. Sig. (2-tailed)
.104
a Monte Carlo Sig. Sig.
.096 (2-tailed)
99% Confidence Lower Bound .089
Interval Upper Bound .104
a
Monte Carlo Sig. Sig. .049 (1-tailed)
99% Confidence Lower Bound .043
Interval Upper Bound
.054 a. Based on 10000 sampled tables with starting seed 726961337.
b.
Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Warna 15%
30 29.77 893.00 30%
30 31.23 937.00 Total
60
b Test Statistics
Warna Mann-Whitney U
428.000 Wilcoxon W
893.000 Z
- .351 Asymp. Sig. (2-tailed)
.726
a Monte Carlo Sig. Sig.
.741 (2-tailed)
99% Confidence Lower Bound .730
Interval Upper Bound .752
a
Monte Carlo Sig. Sig. .372 (1-tailed)
99% Confidence Lower Bound .359
Interval Upper Bound
.384
Ranks
Konsentrasi N Mean Rank Sum of Ranks Warna 20%
30 23.17 695.00 30%
30 37.83 1135.00 Total
60
b Test Statistics
Warna Mann-Whitney U
230.000 Wilcoxon W
695.000 Z
- 3.408 Asymp. Sig. (2-tailed)
.001
a Monte Carlo Sig. Sig.
.000 (2-tailed)
99% Confidence Lower Bound .000 Interval
Upper Bound .001
a Monte Carlo Sig. Sig.
.000 (1-tailed)
99% Confidence Lower Bound .000
Interval Upper Bound
.001 a. Based on 10000 sampled tables with starting seed 1585587178.
b.
Grouping Variable: Konsentrasi
Descriptive Statistics N Mean Std. Deviation Minimum Maximum Kekentalan 150 2.4267 1.07032
1.00
4.00 Konsentrasi 150 3.0000 1.41895
1.00
5.00 b,c Test Statistics
Kekentalan Chi-Square
13.040 df
4 Asymp. Sig. .011
a
Monte Carlo Sig. .010 Sig.
99% Confidence Lower Bound .007
Interval Upper Bound
.012 a. Based on 10000 sampled tables with starting seed 1314643744.
b.
Kruskal Wallis Test c. Grouping Variable: Konsentrasi
Ranks
Konsentrasi N Mean Rank Sum of Ranks Kekentalan kontrol
30 34.23 1027.00 15%
30 26.77 803.00 Total
60
b Test Statistics
Kekentalan Mann-Whitney U
338.000 Wilcoxon W
803.000 Z
- 1.728 Asymp. Sig. (2-tailed)
.084
a