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LAMPIRAN
75
Lampiran 1. Perhitungan Kadar Vitamin A A. Pembuatan Kurva Standar
konsentrasi (ppm) absorbansi 0.000 0.0000 0.004 0.0042 0.009 0.0063 0.019 0.0097 0.390 0.0121 0.780 0.0313 1.562 0.0713 3.125 0.1144 6.250 0.2236 12.500 0.4060 25.000 0.7843 50.000 1.4740 100.000 2.4220
Keterangan : x = µgram karoten/ml yang terbaca dari kurva standar y = absorbansi mg beta karoten/ 100 gram sampel = x . pengenceran . 100 berat sampel x 1000 pengenceran = 1 berat sampel = 10 gram kadar vitamin A = 1 mg beta karoten x 1666,7 SI
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B. Kadar Vitamin A
sampel ul y x mg â-karoten/100gr
sampel kdr vit.A
(SI) tepung jagung 1 0.4010 14.3280 0.1433 238.8478
2 0.8458 32.1200 0.3212 535.4404 3 0.7988 30.2400 0.3024 504.1008 4 0.8391 31.8520 0.3185 530.9728 5 0.5142 18.8560 0.1886 314.3295 6 0.4769 17.3640 0.1736 289.4579
menir jagung instan 1x kukus 1 0.0657 0.9160 0.0092 15.2697
2 0.0657 0.9148 0.0091 15.2490 3 0.0674 0.9852 0.0099 16.4230 4 0.0663 0.9400 0.0094 15.6698 5 0.0675 0.9883 0.0099 16.4750 6 0.0639 0.8440 0.0084 14.0695
menir jagung instan 2x kukus 1 0.0586 0.6320 0.0063 10.5354
2 0.0576 0.5920 0.0059 9.8686 3 0.0599 0.6855 0.0069 11.4280 4 0.0577 0.5964 0.0060 9.9423 5 0.0602 0.6960 0.0070 11.6023 6 0.0576 0.5920 0.0059 9.8686
1xkukus 9 mesh direbus 1 0.0600 0.6866 0.0069 11.4450 2 0.0606 0.7104 0.0071 11.8430 3 0.0611 0.7328 0.0073 12.2150 4 0.0616 0.7508 0.0075 12.5160 5 0.0607 0.7164 0.0072 11.9420 6 0.0610 0.7268 0.0073 12.1150 1xkukus 9 mesh dikukus 1 0.0601 0.6929 0.0069 11.5510 2 0.0577 0.5964 0.0060 9.9423 3 0.0578 0.5996 0.0060 9.9960 4 0.0596 0.6733 0.0067 11.2240 5 0.0590 0.6485 0.0065 10.8100 6 0.0592 0.6564 0.0066 10.9420 1xkukus 9 mesh micwave 1 0.0544 0.4644 0.0046 7.7423 2 0.0551 0.4932 0.0049 8.2216 3 0.0546 0.4730 0.0047 7.8843 4 0.0555 0.5076 0.0051 8.4621 5 0.0554 0.5046 0.0050 8.4112 6 0.0547 0.4764 0.0048 7.9423 1xkukus 36 mesh direbus 1 0.0612 0.7346 0.0073 12.2450 2 0.0608 0.7195 0.0072 11.9940 3 0.0605 0.7084 0.0071 11.8087 4 0.0613 0.7403 0.0074 12.3410 5 0.0601 0.6933 0.0069 11.5570 6 0.0602 0.6967 0.0070 11.6140
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1xkukus 36 mesh dikukus 1 0.0576 0.5906 0.0059 9.8450 2 0.0586 0.6330 0.0063 10.5520 3 0.0593 0.6602 0.0066 11.0050 4 0.0595 0.6692 0.0067 11.1548 5 0.0578 0.5995 0.0060 9.9930 6 0.0578 0.5989 0.0060 9.9842 1xkukus 36 mesh micwave 1 0.0546 0.4707 0.0047 7.8465 2 0.0544 0.4650 0.0047 7.7520 3 0.0555 0.5096 0.0051 8.4950 4 0.0563 0.5400 0.0054 9.0015 5 0.0561 0.5304 0.0053 8.8415 6 0.0548 0.4798 0.0048 7.9990 1xkukus 144 mesh direbus 1 0.0591 0.6504 0.0065 10.8420 2 0.0593 0.6602 0.0066 11.0053 3 0.0592 0.6566 0.0066 10.9460 4 0.0593 0.6596 0.0066 10.9963 5 0.0596 0.6726 0.0067 11.2130 6 0.0590 0.6462 0.0065 10.7720 1xkukus 144 mesh dikukus 1 0.0567 0.5559 0.0056 9.2670 2 0.0579 0.6034 0.0060 10.0590 3 0.0593 0.6601 0.0066 11.0040 4 0.0592 0.6566 0.0066 10.9450 5 0.0578 0.5996 0.0060 9.9960 6 0.0587 0.6357 0.0064 10.5970 1xkukus 144 mesh micwave 1 0.0544 0.4646 0.0046 7.7450 2 0.0552 0.4958 0.0050 8.2650 3 0.0546 0.4704 0.0047 7.8423 4 0.0555 0.5066 0.0051 8.4450 5 0.0558 0.5188 0.0052 8.6490 6 0.0548 0.4794 0.0048 7.9912 2xkukus 9 mesh direbus 1 0.0541 0.4533 0.0045 7.5560 2 0.0539 0.4455 0.0045 7.4260 3 0.0556 0.5133 0.0051 8.5560 4 0.0546 0.4716 0.0047 7.8620 5 0.0548 0.4814 0.0048 8.0245 6 0.0554 0.5046 0.0050 8.4116 2xkukus 9 mesh dikukus 1 0.0554 0.5054 0.0051 8.4250 2 0.0548 0.4797 0.0048 7.9960 3 0.0551 0.4920 0.0049 8.2015 4 0.0547 0.4766 0.0048 7.9450 5 0.0555 0.5092 0.0051 8.4890 6 0.0544 0.4653 0.0047 7.7560 2xkukus 9 mesh micwave 1 0.0526 0.3934 0.0039 6.5580 2 0.0525 0.3881 0.0039 6.4698 3 0.0521 0.3733 0.0037 6.2230 4 0.0520 0.3695 0.0037 6.1590
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5 0.0533 0.4202 0.0042 7.0040 6 0.0535 0.4272 0.0043 7.1220 2xkukus 36 mesh direbus 1 0.0546 0.4706 0.0047 7.8456 2 0.0543 0.4601 0.0046 7.6698 3 0.0544 0.4654 0.0047 7.7590 4 0.0550 0.4867 0.0049 8.1140 5 0.0552 0.4957 0.0050 8.2640 6 0.0550 0.4872 0.0049 8.1223 2xkukus 36 mesh dikukus 1 0.0546 0.4706 0.0047 7.8450 2 0.0552 0.4957 0.0050 8.2640 3 0.0546 0.4730 0.0047 7.8850 4 0.0544 0.4635 0.0046 7.7260 5 0.0553 0.4989 0.0050 8.3160 6 0.0551 0.4932 0.0049 8.2215 2xkukus 36 mesh micwave 1 0.0657 0.9160 0.0092 7.3348 2 0.0531 0.4110 0.0041 6.8520 3 0.0533 0.4193 0.0042 6.9889 4 0.0538 0.4406 0.0044 7.3450 5 0.0657 0.9160 0.0092 7.1348 6 0.0532 0.4168 0.0042 6.9480 2xkukus 144 mesh direbus 1 0.0542 0.4558 0.0046 7.5980 2 0.0546 0.4706 0.0047 7.8450 3 0.0542 0.4573 0.0046 7.6230 4 0.0551 0.4934 0.0049 8.2254 5 0.0544 0.4647 0.0046 7.7460 6 0.0548 0.4802 0.0048 8.0050 2xkukus 144 mesh dikukus 1 0.0550 0.4869 0.0049 8.1160 2 0.0550 0.4888 0.0049 8.1490 3 0.0547 0.4764 0.0048 7.9420 4 0.0548 0.4803 0.0048 8.0065 5 0.0546 0.4729 0.0047 7.8840 6 0.0551 0.4928 0.0049 8.2156 2xkukus 144 mesh micwave 1 0.0528 0.3986 0.0040 6.6450 2 0.0531 0.4122 0.0041 6.8720 3 0.0535 0.4275 0.0043 7.1260 4 0.0533 0.4203 0.0042 7.0056 5 0.0525 0.3893 0.0039 6.4890 6 0.0531 0.4133 0.0041 6.8895
Lampiran 2. Hasil Olah Data SPSS Karakteristik Kimia Tepung Jagung Uji Normalitas Tests of Normality
Kolmogorov-Smirnov(a) Shapiro-Wilk Statistic df Sig. Statistic df Sig. k.air .222 6 .200(*) .926 6 .553 k.abu .254 6 .200(*) .866 6 .212 k.lemak .220 6 .200(*) .956 6 .787 k.protein .195 6 .200(*) .940 6 .657 k.serat .227 6 .200(*) .889 6 .311 k.karbohidrat .247 6 .200(*) .885 6 .294 k.vit_a .274 6 .179 .825 6 .097
* This is a lower bound of the true significance. a Lilliefors Significance Correction One Sample Test One-Sample Statistics
N Mean Std. Deviation Std. Error
Mean k.air 6 13.27767 .430758 .175856 k.abu 6 .58333 .376386 .153659 k.lemak 6 2.67500 .643355 .262649 k.protein 6 10.80583 .563279 .229958 k.serat 6 1.67217 .321374 .131200 k.karbohidrat 6 71.56917 .303759 .124009 k.vit_a 6 402.19153 135.525022 55.327859
Lampiran 3. Hasil Olah Data SPSS Karakteristik Kimia Menir Jagung Instan Uji Normalitas Tests of Normality
Kolmogorov-Smirnov(a) Shapiro-Wilk perlakuan Statistic df Sig. Statistic df Sig.
menir_1x_kukus .179 6 .200(*) .957 6 .798 k.air menir_2x_kukus .194 6 .200(*) .930 6 .582 menir_1x_kukus .319 6 .056 .683 6 .004 k.abu menir_2x_kukus .319 6 .056 .683 6 .004 menir_1x_kukus .209 6 .200(*) .911 6 .442 k.lemak menir_2x_kukus .261 6 .200(*) .824 6 .096 menir_1x_kukus .210 6 .200(*) .964 6 .853 k.protein menir_2x_kukus .188 6 .200(*) .972 6 .903 menir_1x_kukus .215 6 .200(*) .911 6 .442 k.serat menir_2x_kukus .205 6 .200(*) .913 6 .457 menir_1x_kukus .204 6 .200(*) .914 6 .465 k.karbohidrat menir_2x_kukus .178 6 .200(*) .950 6 .742 menir_1x_kukus .289 6 .128 .867 6 .215 k.vit_a menir_2x_kukus .204 6 .200(*) .913 6 .458
* This is a lower bound of the true significance. a Lilliefors Significance Correction
Uji Beda Nyata 1. Kadar Air Paired Samples Statistics
Mean N Std. Deviation Std. Error
Mean menir_1x_kukus 9.33333 6 .286046 .116778 Pair 1
menir_2x_kukus 9.51100 6 .204954 .083672
Paired Samples Correlations
N Correlation Sig. Pair 1 menir_1x_ku
kus & menir_2x_kukus
6 .060 .910
Paired Samples Test
Paired Differences 95% Confidence Interval
of the Difference
Mean Std. Deviation Std. Error
Mean Lower Upper t df Sig. (2-tailed) Pair 1 menir_1x_ku
kus - menir_2x_kukus
-.177667 .341743 .139516 -.536304 .180971 -1.273 5 .259
2. Kadar Abu Paired Samples Statistics
Mean N Std. Deviation Std. Error
Mean menir_1x_kukus .75000 6 .273861 .111803 Pair 1
menir_2x_kukus .75000 6 .273861 .111803
Paired Samples Correlations
N Correlation Sig. Pair 1 menir_1x_ku
kus & menir_2x_kukus
6 -.333 .519
Paired Samples Test
Paired Differences 95% Confidence Interval
of the Difference
Mean Std. Deviation Std. Error
Mean Lower Upper t df Sig. (2-tailed) Pair 1 menir_1x_ku
kus - menir_2x_kukus
.000000 .447214 .182574 -.469322 .469322 .000 5 1.000
3. Kadar Lemak Paired Samples Statistics
Mean N Std. Deviation Std. Error
Mean menir_1x_kukus 1.20867 6 .548691 .224002 Pair 1
menir_2x_kukus 1.05483 6 .615601 .251318
Paired Samples Correlations
N Correlation Sig. Pair 1 menir_1x_ku
kus & menir_2x_kukus
6 .926 .008
Paired Samples Test
Paired Differences 95% Confidence Interval
of the Difference
Mean Std. Deviation Std. Error
Mean Lower Upper t df Sig. (2-tailed) Pair 1 menir_1x_ku
kus - menir_2x_kukus
.153833 .233757 .095431 -.091480 .399147 1.612 5 .168
4. Kadar Protein Paired Samples Statistics
Mean N Std. Deviation Std. Error
Mean menir_1x_kukus 9.28167 6 .186633 .076193 Pair 1
menir_2x_kukus 9.51150 6 .186919 .076309
Paired Samples Correlations
N Correlation Sig. Pair 1 menir_1x_ku
kus & menir_2x_kukus
6 .432 .392
Paired Samples Test
Paired Differences 95% Confidence Interval
of the Difference
Mean Std. Deviation Std. Error
Mean Lower Upper t df Sig. (2-tailed) Pair 1 menir_1x_ku
kus - menir_2x_kukus
-.229833 .198990 .081237 -.438660 -.021006 -2.829 5 .037
5. Kadar Serat Kasar Paired Samples Statistics
Mean N Std. Deviation Std. Error
Mean menir_1x_kukus 1.44217 6 .533846 .217942 Pair 1
menir_2x_kukus 1.21550 6 .551478 .225140
Paired Samples Correlations
N Correlation Sig. Pair 1 menir_1x_ku
kus & menir_2x_kukus
6 -.090 .866
Paired Samples Test
Paired Differences 95% Confidence Interval
of the Difference
Mean Std. Deviation Std. Error
Mean Lower Upper t df Sig. (2-tailed) Pair 1 menir_1x_ku
kus - menir_2x_kukus
.226667 .801264 .327115 -.614209 1.067542 .693 5 .519
6. Kadar Karbohidrat Paired Samples Statistics
Mean N Std. Deviation Std. Error
Mean menir_1x_kukus 78.73417 6 1.224192 .499774 Pair 1
menir_2x_kukus 78.70717 6 .844407 .344728
Paired Samples Correlations
N Correlation Sig. Pair 1 menir_1x_ku
kus & menir_2x_kukus
6 .692 .127
Paired Samples Test
Paired Differences 95% Confidence Interval
of the Difference
Mean Std. Deviation Std. Error
Mean Lower Upper t df Sig. (2-tailed) Pair 1 menir_1x_ku
kus - menir_2x_kukus
.027000 .883294 .360603 -.899960 .953960 .075 5 .943
7. Kadar Vitamin A Paired Samples Statistics
Mean N Std. Deviation Std. Error
Mean menir_1x_kukus 13.86943 6 3.186726 1.300975 Pair 1
menir_2x_kukus 9.24627 6 1.997572 .815505
Paired Samples Correlations
N Correlation Sig. Pair 1 menir_1x_ku
kus & menir_2x_kukus
6 -.744 .090
Paired Samples Test
Paired Differences 95% Confidence Interval
of the Difference
Mean Std. Deviation Std. Error
Mean Lower Upper t df Sig. (2-tailed) Pair 1 menir_1x_ku
kus - menir_2x_kukus
4.623167 4.859256 1.983783 -.476310 9.722644 2.330 5 .067
Lampiran 4. Hasil Olah Data SPSS Karakteristik Kimia Nasi Jagung Instan Uji Normalitas Tests of Normality
Kolmogorov-Smirnov(a) Shapiro-Wilk perlakuan Statistic df Sig. Statistic df Sig.
1kks_9m_rbs .186 6 .200(*) .950 6 .742 1kks_9m_kks .150 6 .200(*) .974 6 .918 1kks_9m_mwv .169 6 .200(*) .964 6 .853 1kks_36m_rbs .229 6 .200(*) .909 6 .429 1kks_36m_kks .202 6 .200(*) .920 6 .503 1kks_36m_mwv .182 6 .200(*) .944 6 .694
1kks_144m_rbs .141 6 .200(*) .973 6 .912
1kks_144m_kks .203 6 .200(*) .945 6 .697
1kks_144m_mwv .181 6 .200(*) .944 6 .690
2kks_9m_rbs .201 6 .200(*) .878 6 .261 2kks_9m_kks .256 6 .200(*) .869 6 .223 2kks_9m_mwv .231 6 .200(*) .890 6 .318 2kks_36m_rbs .199 6 .200(*) .891 6 .325 2kks_36m_kks .180 6 .200(*) .935 6 .621 2kks_36m_mwv .249 6 .200(*) .878 6 .258
2kks_144m_rbs .157 6 .200(*) .976 6 .929
2kks_144m_kks .211 6 .200(*) .885 6 .294
k.air
2kks_144m_mwv .173 6 .200(*) .954 6 .772
1kks_9m_rbs .319 6 .056 .683 6 .004 k.abu 1kks_9m_kks .319 6 .056 .683 6 .004
1kks_9m_mwv .319 6 .056 .683 6 .004 1kks_36m_rbs .319 6 .056 .683 6 .004 1kks_36m_kks .319 6 .056 .683 6 .004 1kks_36m_mwv .319 6 .056 .683 6 .004
1kks_144m_rbs .319 6 .056 .683 6 .004
1kks_144m_kks .319 6 .056 .683 6 .004
1kks_144m_mwv .319 6 .056 .683 6 .004
2kks_9m_rbs .319 6 .056 .683 6 .004 2kks_9m_kks .319 6 .056 .683 6 .004 2kks_9m_mwv .319 6 .056 .683 6 .004 2kks_36m_rbs .319 6 .056 .683 6 .004 2kks_36m_kks .319 6 .056 .683 6 .004 2kks_36m_mwv .319 6 .056 .683 6 .004
2kks_144m_rbs .319 6 .056 .683 6 .004
2kks_144m_kks .319 6 .056 .683 6 .004
2kks_144m_mwv .319 6 .056 .683 6 .004
1kks_9m_rbs .299 6 .102 .874 6 .244 1kks_9m_kks .261 6 .200(*) .859 6 .187 1kks_9m_mwv .166 6 .200(*) .983 6 .964 1kks_36m_rbs .312 6 .070 .828 6 .103 1kks_36m_kks .309 6 .076 .838 6 .125 1kks_36m_mwv .270 6 .196 .834 6 .116
1kks_144m_rbs .228 6 .200(*) .849 6 .154
1kks_144m_kks .281 6 .150 .863 6 .200
1kks_144m_mwv .282 6 .147 .898 6 .360
k.lemak
2kks_9m_rbs .288 6 .131 .860 6 .189
2kks_9m_kks .304 6 .087 .823 6 .094 2kks_9m_mwv .235 6 .200(*) .901 6 .381 2kks_36m_rbs .300 6 .099 .868 6 .219 2kks_36m_kks .194 6 .200(*) .928 6 .563 2kks_36m_mwv .218 6 .200(*) .945 6 .699
2kks_144m_rbs .269 6 .200 .926 6 .553
2kks_144m_kks .262 6 .200(*) .868 6 .219
2kks_144m_mwv .196 6 .200(*) .923 6 .530
1kks_9m_rbs .206 6 .200(*) .959 6 .814 1kks_9m_kks .236 6 .200(*) .930 6 .580 1kks_9m_mwv .173 6 .200(*) .958 6 .803 1kks_36m_rbs .242 6 .200(*) .897 6 .355 1kks_36m_kks .214 6 .200(*) .926 6 .548 1kks_36m_mwv .204 6 .200(*) .906 6 .410
1kks_144m_rbs .270 6 .196 .855 6 .171
1kks_144m_kks .197 6 .200(*) .902 6 .388
1kks_144m_mwv .134 6 .200(*) .987 6 .982
2kks_9m_rbs .249 6 .200(*) .935 6 .619 2kks_9m_kks .179 6 .200(*) .979 6 .947 2kks_9m_mwv .171 6 .200(*) .955 6 .777 2kks_36m_rbs .143 6 .200(*) .969 6 .889 2kks_36m_kks .315 6 .063 .799 6 .058 2kks_36m_mwv .268 6 .200(*) .861 6 .193
2kks_144m_rbs .222 6 .200(*) .925 6 .541
2kks_144m_kks .230 6 .200(*) .889 6 .311
k.protein
2kks_144m_mwv .176 6 .200(*) .950 6 .739
1kks_9m_rbs .231 6 .200(*) .897 6 .355 1kks_9m_kks .309 6 .076 .742 6 .017 1kks_9m_mwv .247 6 .200(*) .881 6 .273 1kks_36m_rbs .189 6 .200(*) .883 6 .285 1kks_36m_kks .250 6 .200(*) .947 6 .713 1kks_36m_mwv .280 6 .156 .928 6 .562
1kks_144m_rbs .197 6 .200(*) .873 6 .237
1kks_144m_kks .262 6 .200(*) .792 6 .050
1kks_144m_mwv .201 6 .200(*) .863 6 .201
2kks_9m_rbs .316 6 .061 .848 6 .150 2kks_9m_kks .231 6 .200(*) .892 6 .329 2kks_9m_mwv .241 6 .200(*) .884 6 .290 2kks_36m_rbs .230 6 .200(*) .893 6 .334 2kks_36m_kks .307 6 .080 .767 6 .029 2kks_36m_mwv .306 6 .083 .737 6 .015
2kks_144m_rbs .248 6 .200(*) .877 6 .254
2kks_144m_kks .299 6 .101 .870 6 .225
k.serat
2kks_144m_mwv .183 6 .200(*) .964 6 .853
1kks_9m_rbs .187 6 .200(*) .948 6 .720 1kks_9m_kks .227 6 .200(*) .863 6 .199 1kks_9m_mwv .198 6 .200(*) .917 6 .487 1kks_36m_rbs .241 6 .200(*) .923 6 .526 1kks_36m_kks .190 6 .200(*) .919 6 .495 1kks_36m_mwv .282 6 .146 .903 6 .392
1kks_144m_rbs .216 6 .200(*) .879 6 .266
k.khidrat
1kks_144m_kks .186 6 .200(*) .927 6 .560
1kks_144m_mwv .235 6 .200(*) .963 6 .843
2kks_9m_rbs .161 6 .200(*) .949 6 .735 2kks_9m_kks .180 6 .200(*) .965 6 .854 2kks_9m_mwv .165 6 .200(*) .982 6 .963 2kks_36m_rbs .203 6 .200(*) .873 6 .240 2kks_36m_kks .252 6 .200(*) .874 6 .244 2kks_36m_mwv .266 6 .200(*) .865 6 .207
2kks_144m_rbs .237 6 .200(*) .857 6 .180
2kks_144m_kks .258 6 .200(*) .865 6 .207
2kks_144m_mwv .263 6 .200(*) .811 6 .074
1kks_9m_rbs .154 6 .200(*) .989 6 .986 1kks_9m_kks .208 6 .200(*) .909 6 .431 1kks_9m_mwv .214 6 .200(*) .915 6 .467 1kks_36m_rbs .170 6 .200(*) .925 6 .545 1kks_36m_kks .276 6 .171 .866 6 .211 1kks_36m_mwv .228 6 .200(*) .896 6 .349
1kks_144m_rbs .223 6 .200(*) .954 6 .773
1kks_144m_kks .166 6 .200(*) .923 6 .530
1kks_144m_mwv .179 6 .200(*) .948 6 .724
2kks_9m_rbs .168 6 .200(*) .943 6 .686 2kks_9m_kks .186 6 .200(*) .944 6 .688 2kks_9m_mwv .198 6 .200(*) .906 6 .411 2kks_36m_rbs .239 6 .200(*) .920 6 .507 2kks_36m_kks .260 6 .200(*) .867 6 .215 2kks_36m_mwv .206 6 .200(*) .901 6 .381
k.vit_a
2kks_144m_rbs .159 6 .200(*) .929 6 .575
2kks_144m_kks .190 6 .200(*) .955 6 .781
2kks_144m_mwv .225 6 .200(*) .958 6 .807
* This is a lower bound of the true significance. a Lilliefors Significance Correction Oneway Descriptives
95% Confidence Interval for Mean
N Mean Std. Deviation Std. Error Lower Bound Upper Bound Minimum Maximum 1kks_9m_rbs 6 61.41133 .712458 .290860 60.66365 62.15901 60.400 62.267 1kks_9m_kks 6 69.13333 .700476 .285968 68.39823 69.86844 68.000 70.000 1kks_9m_mwv 6 65.61100 .556854 .227335 65.02662 66.19538 64.933 66.400 1kks_36m_rbs 6 63.30000 .711555 .290491 62.55327 64.04673 62.200 64.000 1kks_36m_kks 6 70.80000 .596248 .243417 70.17428 71.42572 70.067 71.533 1kks_36m_mwv 6 66.34467 .398839 .162825 65.92611 66.76322 65.867 66.867
1kks_144m_rbs 6 63.76667 .526287 .214856 63.21436 64.31897 62.933 64.400
1kks_144m_kks 6 73.31117 .457410 .186737 72.83114 73.79119 72.800 74.000
1kks_144m_mwv 6 67.07783 .302364 .123439 66.76052 67.39514 66.733 67.600
2kks_9m_rbs 6 65.24433 .510605 .208453 64.70849 65.78018 64.733 65.933 2kks_9m_kks 6 66.37783 .394841 .161193 65.96347 66.79219 65.733 66.733 2kks_9m_mwv 6 64.80017 .413054 .168628 64.36669 65.23364 64.067 65.200 2kks_36m_rbs 6 64.36667 .451634 .184379 63.89271 64.84063 63.867 64.933 2kks_36m_kks 6 66.87783 .577113 .235605 66.27219 67.48348 66.067 67.533 2kks_36m_mwv 6 66.22217 .463011 .189024 65.73627 66.70807 65.667 66.733
k.air
2kks_144m_rbs 6 64.85567 .464363 .189575 64.36835 65.34299 64.267 65.533
2kks_144m_kks 6 66.98883 .499619 .203969 66.46452 67.51315 66.467 67.667
2kks_144m_mwv 6 67.98900 .548782 .224039 67.41309 68.56491 67.267 68.667
Total 108 66.35992 2.749401 .264561 65.83545 66.88438 60.400 74.000 1kks_9m_rbs 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000 1kks_9m_kks 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000 1kks_9m_mwv 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000 1kks_36m_rbs 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000 1kks_36m_kks 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000 1kks_36m_mwv 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000
1kks_144m_rbs 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000
1kks_144m_kks 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000
1kks_144m_mwv 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000
2kks_9m_rbs 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000 2kks_9m_kks 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000 2kks_9m_mwv 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000 2kks_36m_rbs 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000 2kks_36m_kks 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000 2kks_36m_mwv 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000
2kks_144m_rbs 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000
2kks_144m_kks 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000
2kks_144m_mwv 6 .75000 .273861 .111803 .46260 1.03740 .500 1.000
k.abu
Total 108 .75000 .251166 .024168 .70209 .79791 .500 1.000 1kks_9m_rbs 6 .77033 .110648 .045172 .65421 .88645 .594 .943 1kks_9m_kks 6 .82400 .132260 .053995 .68520 .96280 .600 .936 1kks_9m_mwv 6 1.37883 .264783 .108097 1.10096 1.65671 1.008 1.753 1kks_36m_rbs 6 .92017 .218994 .089404 .69035 1.14999 .723 1.323
k.lemak
1kks_36m_kks 6 .43667 .157064 .064121 .27184 .60150 .148 .584
1kks_36m_mwv 6 .89667 .375395 .153254 .50271 1.29062 .500 1.325
1kks_144m_rbs 6 1.20767 .247861 .101189 .94755 1.46778 .903 1.461
1kks_144m_kks 6 .57750 .106401 .043438 .46584 .68916 .408 .673
1kks_144m_mwv 6 1.31717 .107557 .043910 1.20429 1.43004 1.153 1.491
2kks_9m_rbs 6 .95517 .237250 .096857 .70619 1.20414 .700 1.392 2kks_9m_kks 6 1.03850 .233954 .095512 .79298 1.28402 .832 1.371 2kks_9m_mwv 6 1.02683 .205461 .083879 .81122 1.24245 .703 1.225 2kks_36m_rbs 6 .71200 .106469 .043466 .60027 .82373 .541 .877 2kks_36m_kks 6 .60917 .206825 .084436 .39212 .82622 .325 .848 2kks_36m_mwv 6 1.04267 .252306 .103003 .77789 1.30745 .668 1.339
2kks_144m_rbs 6 .86567 .022651 .009247 .84190 .88944 .826 .893
2kks_144m_kks 6 .71450 .131445 .053662 .57656 .85244 .503 .832
2kks_144m_mwv 6 1.11967 .018886 .007710 1.09985 1.13949 1.097 1.143
Total 108 .91184 .306195 .029464 .85343 .97025 .148 1.753 1kks_9m_rbs 6 8.23700 .224160 .091513 8.00176 8.47224 7.953 8.554 1kks_9m_kks 6 8.06450 .133840 .054640 7.92404 8.20496 7.886 8.223 1kks_9m_mwv 6 5.97950 .515739 .210550 5.43827 6.52073 5.387 6.772 1kks_36m_rbs 6 8.11950 .177101 .072301 7.93364 8.30536 7.865 8.315 1kks_36m_kks 6 8.07333 .626595 .255806 7.41576 8.73090 7.260 8.812 1kks_36m_mwv 6 6.63350 .378290 .154436 6.23651 7.03049 6.243 7.165
1kks_144m_rbs 6 8.18583 .421386 .172030 7.74362 8.62805 7.632 8.611
1kks_144m_kks 6 8.10800 .471891 .192649 7.61278 8.60322 7.298 8.561
1kks_144m_mwv 6 6.96517 .552848 .225699 6.38499 7.54534 6.241 7.805
2kks_9m_rbs 6 8.04833 .509597 .208042 7.51354 8.58312 7.445 8.851 2kks_9m_kks 6 7.91833 .389550 .159033 7.50953 8.32714 7.298 8.434
k.protein
2kks_9m_mwv 6 5.99233 .392947 .160420 5.57996 6.40471 5.516 6.570
2kks_36m_rbs 6 8.37617 .100408 .040991 8.27079 8.48154 8.226 8.496 2kks_36m_kks 6 8.09950 .250547 .102285 7.83657 8.36243 7.883 8.462 2kks_36m_mwv 6 6.88467 .573676 .234202 6.28263 7.48670 6.224 7.541
2kks_144m_rbs 6 8.26867 .331419 .135301 7.92086 8.61647 7.811 8.649
2kks_144m_kks 6 8.04000 .289540 .118204 7.73615 8.34385 7.669 8.344
2kks_144m_mwv 6 7.11700 .276208 .112761 6.82714 7.40686 6.729 7.445
Total 108 7.61730 .859357 .082692 7.45337 7.78122 5.387 8.851 1kks_9m_rbs 6 .55383 .148450 .060604 .39804 .70962 .385 .787 1kks_9m_kks 6 .38967 .081672 .033342 .30396 .47538 .306 .467 1kks_9m_mwv 6 .49683 .128289 .052374 .36220 .63146 .350 .686 1kks_36m_rbs 6 .55867 .173266 .070736 .37684 .74050 .365 .771 1kks_36m_kks 6 .54183 .152912 .062426 .38136 .70230 .301 .742 1kks_36m_mwv 6 .57150 .175938 .071827 .38686 .75614 .344 .851
1kks_144m_rbs 6 .55400 .168523 .068799 .37715 .73085 .367 .753
1kks_144m_kks 6 .38417 .161429 .065903 .21476 .55358 .264 .680
1kks_144m_mwv 6 .50500 .154140 .062927 .34324 .66676 .334 .682
2kks_9m_rbs 6 .35067 .107914 .044056 .23742 .46392 .177 .518 2kks_9m_kks 6 .82167 .131110 .053525 .68408 .95926 .675 1.023 2kks_9m_mwv 6 .38883 .131920 .053856 .25039 .52728 .181 .536 2kks_36m_rbs 6 .72717 .005193 .002120 .72172 .73262 .721 .734 2kks_36m_kks 6 .58667 .091834 .037491 .49029 .68304 .498 .686 2kks_36m_mwv 6 .43050 .097912 .039972 .32775 .53325 .337 .528
2kks_144m_rbs 6 .50900 .141103 .057605 .36092 .65708 .350 .729
2kks_144m_kks 6 .50150 .109940 .044883 .38613 .61687 .328 .675
2kks_144m_mwv 6 .48667 .009812 .004006 .47637 .49696 .475 .501
k.serat
Total 108 .51990 .165826 .015957 .48827 .55153 .177 1.023
1kks_9m_rbs 6 29.02800 .964734 .393851 28.01557 30.04043 27.851 30.655 1kks_9m_kks 6 21.58850 .737065 .300906 20.81500 22.36200 20.945 22.929 1kks_9m_mwv 6 26.53383 .657595 .268462 25.84373 27.22394 25.773 27.393 1kks_36m_rbs 6 27.10150 .474574 .193744 26.60347 27.59953 26.545 27.734 1kks_36m_kks 6 20.14833 .577472 .235752 19.54231 20.75435 19.405 20.790 1kks_36m_mwv 6 25.55400 .809025 .330283 24.70498 26.40302 24.659 26.791
1kks_144m_rbs 6 26.28583 .791353 .323068 25.45536 27.11631 25.198 27.094
1kks_144m_kks 6 17.61900 .530223 .216463 17.06257 18.17543 17.040 18.554
1kks_144m_mwv 6 24.13500 .434188 .177256 23.67935 24.59065 23.448 24.763
2kks_9m_rbs 6 25.40150 .726011 .296393 24.63960 26.16340 24.254 26.191 2kks_9m_kks 6 23.84400 .386707 .157872 23.43818 24.24982 23.288 24.425 2kks_9m_mwv 6 27.79233 .460889 .188157 27.30866 28.27601 27.113 28.493 2kks_36m_rbs 6 25.81850 .511177 .208687 25.28205 26.35495 25.241 26.384 2kks_36m_kks 6 23.82700 .291435 .118978 23.52116 24.13284 23.543 24.217 2kks_36m_mwv 6 25.42000 .407329 .166292 24.99253 25.84747 24.970 26.175
2kks_144m_rbs 6 25.50117 .618032 .252311 24.85258 26.14975 24.924 26.355
2kks_144m_kks 6 23.75517 .560047 .228638 23.16743 24.34290 22.721 24.303
2kks_144m_mwv 6 23.28750 .720562 .294168 22.53132 24.04368 22.309 23.909
k.khidrat
Total 108 24.59118 2.744169 .264058 24.06771 25.11464 17.040 30.655 1kks_9m_rbs 6 12.01267 .363533 .148412 11.63116 12.39417 11.445 12.516 1kks_9m_kks 6 10.74422 .652294 .266298 10.05968 11.42876 9.942 11.551 1kks_9m_mwv 6 8.11063 .297125 .121301 7.79882 8.42245 7.742 8.462 1kks_36m_rbs 6 11.92662 .324306 .132397 11.58628 12.26695 11.557 12.341 1kks_36m_kks 6 10.42233 .566114 .231115 9.82823 11.01643 9.845 11.155 1kks_36m_mwv 6 8.32258 .532326 .217321 7.76394 8.88123 7.752 9.002
k.vit_a
1kks_144m_rbs 6 10.96243 .152845 .062399 10.80203 11.12283 10.772 11.213
1kks_144m_kks 6 10.31133 .665833 .271825 9.61258 11.01008 9.267 11.004
1kks_144m_mwv 6 8.15625 .355792 .145251 7.78287 8.52963 7.745 8.649
2kks_9m_rbs 6 7.97268 .451737 .184421 7.49861 8.44675 7.426 8.556 2kks_9m_kks 6 8.13542 .287367 .117317 7.83384 8.43699 7.756 8.489 2kks_9m_mwv 6 6.58930 .397577 .162310 6.17207 7.00653 6.159 7.122 2kks_36m_rbs 6 7.96245 .236703 .096634 7.71405 8.21085 7.670 8.264 2kks_36m_kks 6 8.04292 .252938 .103262 7.77747 8.30836 7.726 8.316 2kks_36m_mwv 6 7.10058 .206551 .084324 6.88382 7.31735 6.852 7.345
2kks_144m_rbs 6 7.84040 .240944 .098365 7.58754 8.09326 7.598 8.225
2kks_144m_kks 6 8.05218 .128580 .052493 7.91725 8.18712 7.884 8.216
2kks_144m_mwv 6 6.83785 .234048 .095550 6.59223 7.08347 6.489 7.126
Total 108 8.86127 1.711905 .164728 8.53472 9.18782 6.159 12.516 ANOVA
Sum of
Squares df Mean Square F Sig. Between Groups 783.775 17 46.104 165.581 .000
Within Groups 25.060 90 .278
k.air
Total 808.835 107 Between Groups .000 17 .000 .000 1.000
Within Groups 6.750 90 .075
k.abu
Total 6.750 107 Between Groups 6.597 17 .388 10.170 .000
Within Groups 3.434 90 .038
k.lemak
Total 10.032 107 Between Groups 64.794 17 3.811 24.115 .000 k.protein
Within Groups 14.224 90 .158
Total 79.019 107 Between Groups 1.422 17 .084 4.950 .000
Within Groups 1.521 90 .017
k.serat
Total 2.942 107 Between Groups 771.602 17 45.388 119.591 .000
Within Groups 34.158 90 .380
k.khidrat
Total 805.760 107 Between Groups 300.151 17 17.656 118.365 .000
Within Groups 13.425 90 .149
k.vit_a
Total 313.576 107
2. Kadar Abu k.abu Duncan
Subset for alpha =
.05
Perlakuan N 1 1kks_9m_rbs 6 .75000 1kks_9m_kks 6 .75000 1kks_9m_mwv 6 .75000 1kks_36m_rbs 6 .75000 1kks_36m_kks 6 .75000 1kks_36m_mwv 6 .75000 1kks_144m_rbs 6 .75000 1kks_144m_kks 6 .75000 1kks_144m_mwv 6 .75000 2kks_9m_rbs 6 .75000 2kks_9m_kks 6 .75000 2kks_9m_mwv 6 .75000 2kks_36m_rbs 6 .75000 2kks_36m_kks 6 .75000 2kks_36m_mwv 6 .75000 2kks_144m_rbs 6 .75000 2kks_144m_kks 6 .75000 2kks_144m_mwv 6 .75000 Sig. 1.000
Means for groups in homogeneous subsets are displayed. a Uses Harmonic Mean Sample Size = 6.000.
3. Kadar Lemak k.lemak Duncan
Subset for alpha = .05 Perlakuan N 1 2 3 4 5 6 7 8 9 1kks_36m_kks 6 .43667 1kks_144m_kks 6 .57750 .57750 2kks_36m_kks 6 .60917 .60917 2kks_36m_rbs 6 .71200 .71200 2kks_144m_kks 6 .71450 .71450 1kks_9m_rbs 6 .77033 .77033 .77033 1kks_9m_kks 6 .82400 .82400 .82400 .82400 2kks_144m_rbs 6 .86567 .86567 .86567 .86567 1kks_36m_mwv 6 .89667 .89667 .89667 .89667 1kks_36m_rbs 6 .92017 .92017 .92017 .92017 2kks_9m_rbs 6 .95517 .95517 .95517 .95517 .95517 2kks_9m_mwv 6 1.02683 1.02683 1.02683 1.02683 2kks_9m_kks 6 1.03850 1.03850 1.03850 2kks_36m_mwv 6 1.04267 1.04267 1.04267 2kks_144m_mwv 6 1.11967 1.11967 1.11967 1kks_144m_rbs 6 1.20767 1.20767 1.20767 1kks_144m_mwv 6 1.31717 1.31717 1kks_9m_mwv 6 1.37883 Sig. .153 .057 .068 .051 .102 .056 .051 .101 .156
Means for groups in homogeneous subsets are displayed. a Uses Harmonic Mean Sample Size = 6.000.
4. Kadar Protein k.protein Duncan
Subset for alpha = .05 Perlakuan N 1 2 3 1kks_9m_mwv 6 5.97950 2kks_9m_mwv 6 5.99233 1kks_36m_mwv 6 6.63350 2kks_36m_mwv 6 6.88467 1kks_144m_mwv 6 6.96517 2kks_144m_mwv 6 7.11700 2kks_9m_kks 6 7.91833 2kks_144m_kks 6 8.04000 2kks_9m_rbs 6 8.04833 1kks_9m_kks 6 8.06450 1kks_36m_kks 6 8.07333 2kks_36m_kks 6 8.09950 1kks_144m_kks 6 8.10800 1kks_36m_rbs 6 8.11950 1kks_144m_rbs 6 8.18583 1kks_9m_rbs 6 8.23700 2kks_144m_rbs 6 8.26867 2kks_36m_rbs 6 8.37617 Sig. .956 .056 .103
Means for groups in homogeneous subsets are displayed. a Uses Harmonic Mean Sample Size = 6.000.
5. Kadar Serat Kasar k.serat Duncan
Subset for alpha = .05 Perlakuan N 1 2 3 4 5 2kks_9m_rbs 6 .35067 1kks_144m_kks 6 .38417 .38417 2kks_9m_mwv 6 .38883 .38883 1kks_9m_kks 6 .38967 .38967 2kks_36m_mwv 6 .43050 .43050 .43050 2kks_144m_mwv 6 .48667 .48667 .48667 1kks_9m_mwv 6 .49683 .49683 .49683 2kks_144m_kks 6 .50150 .50150 .50150 1kks_144m_mwv 6 .50500 .50500 .50500 2kks_144m_rbs 6 .50900 .50900 .50900 1kks_36m_kks 6 .54183 .54183 1kks_9m_rbs 6 .55383 .55383 1kks_144m_rbs 6 .55400 .55400 1kks_36m_rbs 6 .55867 .55867 1kks_36m_mwv 6 .57150 .57150 2kks_36m_kks 6 .58667 .58667 2kks_36m_rbs 6 .72717 .72717 2kks_9m_kks 6 .82167 Sig. .080 .057 .088 .052 .211
Means for groups in homogeneous subsets are displayed. a Uses Harmonic Mean Sample Size = 6.000.
6. Kadar Karbohidrat k.khidrat Duncan
perlakuan N Subset for alpha = .05
1 2 3 4 5 6 7 8 9 10 11 1kks_144m_kks 6 17.61900 1kks_36m_kks 6 20.14833 1kks_9m_kks 6 21.58850 2kks_144m_mwv 6 23.28750 2kks_144m_kks 6 23.75517 23.75517 2kks_36m_kks 6 23.82700 23.82700 2kks_9m_kks 6 23.84400 23.84400 1kks_144m_mwv 6 24.13500 2kks_9m_rbs 6 25.40150 2kks_36m_mwv 6 25.42000 2kks_144m_rbs 6 25.50117 1kks_36m_mwv 6 25.55400 25.55400 2kks_36m_rbs 6 25.81850 25.81850 25.81850 1kks_144m_rbs 6 26.28583 26.28583 1kks_9m_mwv 6 26.53383 26.53383 1kks_36m_rbs 6 27.10150 27.10150 2kks_9m_mwv 6 27.79233 1kks_9m_rbs 6 29.02800 Sig. 1.000 1.000 1.000 .158 .338 .305 .054 .059 .114 .055 1.000
Means for groups in homogeneous subsets are displayed. a Uses Harmonic Mean Sample Size = 6.000.
7. Kadar Vitamin A k.vit_a Duncan
Subset for alpha = .05 Perlakuan N 1 2 3 4 5 6 2kks_9m_mwv 6 6.58930 2kks_144m_mwv 6 6.83785 6.83785 2kks_36m_mwv 6 7.10058 2kks_144m_rbs 6 7.84040 2kks_36m_rbs 6 7.96245 2kks_9m_rbs 6 7.97268 2kks_36m_kks 6 8.04292 2kks_144m_kks 6 8.05218 1kks_9m_mwv 6 8.11063 2kks_9m_kks 6 8.13542 1kks_144m_mwv 6 8.15625 1kks_36m_mwv 6 8.32258 1kks_144m_kks 6 10.31133 1kks_36m_kks 6 10.42233 1kks_9m_kks 6 10.74422 10.74422 1kks_144m_rbs 6 10.96243 1kks_36m_rbs 6 11.92662 1kks_9m_rbs 6 12.01267 Sig. .268 .242 .070 .069 .330 .700
Means for groups in homogeneous subsets are displayed. a Uses Harmonic Mean Sample Size = 6.000.
Lampiran 5. Hasil Olah Data SPSS Karakteristik Fisik Nasi Jagung Instan Uji Normalitas Tests of Normality
Kolmogorov-Smirnov(a) Shapiro-Wilk perlakuan Statistic df Sig. Statistic df Sig.
1xkukus_9mesh_rebus .189 6 .200(*) .969 6 .888
1xkukus_9mesh_kukus .239 6 .200(*) .870 6 .226
1xkukus_9mesh_mwave .260 6 .200(*) .886 6 .295
1xkukus_36mesh_rebus .277 6 .165 .857 6 .179
1xkukus_36mesh_kukus .216 6 .200(*) .932 6 .600
1xkukus_36mesh_m.wave .215 6 .200(*) .890 6 .318
1xkukus_144mesh_rebus .198 6 .200(*) .969 6 .883
1xkukus_144mesh_kukus .280 6 .154 .823 6 .094
1xkukus_144mesh_m.wave .263 6 .200(*) .853 6 .166
2xkukus_9mesh_rebus .232 6 .200(*) .902 6 .387
2xkukus_9mesh_kukus .255 6 .200(*) .882 6 .278
penyerapan_air
2xkukus_9mesh_m.wave .167 6 .200(*) .947 6 .716
2xkukus_36mesh_rebus .216 6 .200(*) .882 6 .276
2xkukus_36mesh_kukus .169 6 .200(*) .960 6 .818
2xkukus_36mesh_m.wave .281 6 .149 .877 6 .256
2xkukus_144mesh_rebus .221 6 .200(*) .949 6 .728
2xkukus_144mesh_kukus .213 6 .200(*) .898 6 .363
2xkukus_144mesh_m.wave .196 6 .200(*) .960 6 .819
1xkukus_9mesh_rebus .261 6 .200(*) .905 6 .405
1xkukus_9mesh_kukus .208 6 .200(*) .921 6 .513
1xkukus_9mesh_mwave .239 6 .200(*) .955 6 .780
1xkukus_36mesh_rebus .205 6 .200(*) .951 6 .751
1xkukus_36mesh_kukus .201 6 .200(*) .941 6 .669
1xkukus_36mesh_m.wave .254 6 .200(*) .869 6 .223
1xkukus_144mesh_rebus .175 6 .200(*) .954 6 .772
1xkukus_144mesh_kukus .182 6 .200(*) .977 6 .937
1xkukus_144mesh_m.wave .256 6 .200(*) .845 6 .144
2xkukus_9mesh_rebus .233 6 .200(*) .898 6 .362
2xkukus_9mesh_kukus .316 6 .062 .801 6 .060
2xkukus_9mesh_m.wave .215 6 .200(*) .877 6 .254
pgmbgn_vol
2xkukus_36mesh_rebus .302 6 .094 .859 6 .186
2xkukus_36mesh_kukus .189 6 .200(*) .969 6 .886
2xkukus_36mesh_m.wave .205 6 .200(*) .906 6 .411
2xkukus_144mesh_rebus .273 6 .181 .861 6 .193
2xkukus_144mesh_kukus .308 6 .077 .793 6 .050
2xkukus_144mesh_m.wave .206 6 .200(*) .861 6 .191
1xkukus_9mesh_rebus .239 6 .200(*) .909 6 .428
1xkukus_9mesh_kukus .223 6 .200(*) .862 6 .197
1xkukus_9mesh_mwave .189 6 .200(*) .950 6 .742
1xkukus_36mesh_rebus .189 6 .200(*) .973 6 .913
1xkukus_36mesh_kukus .203 6 .200(*) .924 6 .531
1xkukus_36mesh_m.wave .164 6 .200(*) .947 6 .718
1xkukus_144mesh_rebus .188 6 .200(*) .936 6 .624
1xkukus_144mesh_kukus .177 6 .200(*) .967 6 .870
1xkukus_144mesh_m.wave .151 6 .200(*) .975 6 .924
2xkukus_9mesh_rebus .197 6 .200(*) .956 6 .785
2xkukus_9mesh_kukus .299 6 .101 .860 6 .191
2xkukus_9mesh_m.wave .265 6 .200(*) .853 6 .166
2xkukus_36mesh_rebus .239 6 .200(*) .928 6 .561
Rehdrtn_Cpcty
2xkukus_36mesh_kukus .246 6 .200(*) .931 6 .588
2xkukus_36mesh_m.wave .219 6 .200(*) .843 6 .137
2xkukus_144mesh_rebus .139 6 .200(*) .975 6 .923
2xkukus_144mesh_kukus .183 6 .200(*) .934 6 .609
2xkukus_144mesh_m.wave .217 6 .200(*) .860 6 .189
1xkukus_9mesh_rebus .239 6 .200(*) .909 6 .428
1xkukus_9mesh_kukus .223 6 .200(*) .862 6 .197
1xkukus_9mesh_mwave .190 6 .200(*) .950 6 .742
1xkukus_36mesh_rebus .189 6 .200(*) .973 6 .914
1xkukus_36mesh_kukus .204 6 .200(*) .923 6 .526
1xkukus_36mesh_m.wave .163 6 .200(*) .947 6 .717
1xkukus_144mesh_rebus .188 6 .200(*) .936 6 .626
1xkukus_144mesh_kukus .177 6 .200(*) .966 6 .865
1xkukus_144mesh_m.wave .150 6 .200(*) .975 6 .925
2xkukus_9mesh_rebus .197 6 .200(*) .955 6 .784
2xkukus_9mesh_kukus .298 6 .103 .862 6 .195
2xkukus_9mesh_m.wave .265 6 .200(*) .853 6 .166
2xkukus_36mesh_rebus .239 6 .200(*) .928 6 .563
2xkukus_36mesh_kukus .245 6 .200(*) .932 6 .596
Rhdrtn_Rate
2xkukus_36mesh_m.wave .219 6 .200(*) .842 6 .137
2xkukus_144mesh_rebus .139 6 .200(*) .975 6 .924
2xkukus_144mesh_kukus .183 6 .200(*) .934 6 .608
2xkukus_144mesh_m.wave .217 6 .200(*) .860 6 .189
* This is a lower bound of the true significance. a Lilliefors Significance Correction Oneway Descriptives
95% Confidence Interval for Mean
N Mean Std. Deviation Std. Error Lower Bound Upper Bound Minimum Maximum 1xkukus_9mesh_rebus 6 225.66310 1.035450 .422721 224.57646 226.74974 224.015 227.134
1xkukus_9mesh_kukus 6 295.53790 1.530727 .624917 293.93150 297.14430 293.898 297.520
1xkukus_9mesh_mwave 6 263.99482 1.395141 .569564 262.53071 265.45893 262.613 266.508
1xkukus_36mesh_rebus 6 266.00476 1.450680 .592238 264.48236 267.52715 263.975 267.398
1xkukus_36mesh_kukus 6 308.18872 1.175221 .479782 306.95540 309.42204 306.206 309.490
1xkukus_36mesh_m.wave 6 272.73543 1.315051 .536867 271.35537 274.11549 271.429 275.132
1xkukus_144mesh_rebus 6 263.42881 1.456059 .594434 261.90077 264.95685 261.295 265.618
1xkukus_144mesh_kukus 6 325.54784 1.199255 .489594 324.28930 326.80638 324.205 326.835
1xkukus_144mesh_m.wave 6 270.97308 .997863 .407376 269.92589 272.02027 269.806 272.029
2xkukus_9mesh_rebus 6 264.18475 1.159079 .473192 262.96837 265.40113 262.921 265.712
penyerapan_air
2xkukus_9mesh_kukus 6 241.79127 .707282 .288747 241.04902 242.53351 241.143 242.987
2xkukus_9mesh_m.wave 6 266.08816 1.489762 .608193 264.52475 267.65157 264.424 268.471
2xkukus_36mesh_rebus 6 265.25540 .885572 .361533 264.32605 266.18475 264.076 266.142
2xkukus_36mesh_kukus 6 270.15580 .963297 .393264 269.14489 271.16672 268.715 271.326
2xkukus_36mesh_m.wave 6 272.36588 1.293340 .528004 271.00860 273.72316 271.064 274.166
2xkukus_144mesh_rebus 6 272.39605 .985556 .402352 271.36177 273.43033 271.253 273.892
2xkukus_144mesh_kukus 6 292.03713 1.943277 .793339 289.99778 294.07647 290.170 295.043
2xkukus_144mesh_m.wave 6 272.52065 1.482424 .605197 270.96494 274.07636 270.190 274.273
Total 108 272.71497 21.868116 2.104260 268.54352 276.88643 224.015 326.835 1xkukus_9mesh_rebus 6 179.68333 11.019410 4.498655 168.11917 191.24750 162.963 191.304
1xkukus_9mesh_kukus 6 254.56917 18.710313 7.638453 234.93390 274.20444 235.000 282.353
1xkukus_9mesh_mwave 6 296.51417 19.034583 7.770836 276.53860 316.48974 270.000 323.529
1xkukus_36mesh_rebus 6 249.04983 9.806467 4.003473 238.75858 259.34109 235.000 261.111
1xkukus_36mesh_kukus 6 267.02867 17.925068 7.317878 248.21746 285.83987 242.105 287.500
1xkukus_36mesh_m.wave 6 333.57433 17.780443 7.258835 314.91490 352.23376 305.882 350.000
1xkukus_144mesh_rebus 6 237.20767 4.862927 1.985282 232.10434 242.31100 231.818 245.000
1xkukus_144mesh_kukus 6 300.99933 17.733130 7.239520 282.38956 319.60911 273.684 325.000
1xkukus_144mesh_m.wave 6 318.29783 20.169803 8.234288 297.13092 339.46474 300.000 356.250
2xkukus_9mesh_rebus 6 206.07150 6.391977 2.609514 199.36353 212.77947 200.000 216.667
pgmbgn_vol
2xkukus_9mesh_kukus 6 234.78117 11.630923 4.748304 222.57526 246.98707 225.000 257.143
2xkukus_9mesh_m.wave 6 328.74400 11.515232 4.701074 316.65950 340.82850 315.000 341.176
2xkukus_36mesh_rebus 6 297.00583 8.681234 3.544099 287.89544 306.11623 281.250 306.667
2xkukus_36mesh_kukus 6 338.69267 11.222115 4.581409 326.91578 350.46955 323.529 357.143
2xkukus_36mesh_m.wave 6 239.36433 8.079488 3.298437 230.88543 247.84324 231.579 252.941
2xkukus_144mesh_rebus 6 281.71450 10.211328 4.168757 270.99837 292.43063 270.000 294.444
2xkukus_144mesh_kukus 6 302.84250 12.026840 4.909937 290.22111 315.46389 288.235 314.286
2xkukus_144mesh_m.wave 6 349.25100 7.546201 3.080724 341.33175 357.17025 338.889 356.250
Total 108 278.63288 48.493740 4.666312 269.38246 287.88330 162.963 357.143 1xkukus_9mesh_rebus 6 86.43300 1.341063 .547487 85.02564 87.84036 84.998 88.312
1xkukus_9mesh_kukus 6 84.73700 1.276049 .520945 83.39787 86.07613 83.449 86.455
1xkukus_9mesh_mwave 6 75.10017 .672548 .274567 74.39437 75.80596 74.354 76.111
1xkukus_36mesh_rebus 6 90.00333 .722329 .294889 89.24530 90.76137 88.920 91.005
1xkukus_36mesh_kukus 6 88.26667 .799121 .326240 87.42804 89.10529 87.339 89.352
1xkukus_36mesh_m.wave 6 77.51100 .536470 .219013 76.94801 78.07399 76.859 78.237
1xkukus_144mesh_rebus 6 91.83783 .358568 .146385 91.46154 92.21413 91.416 92.314
1xkukus_144mesh_kukus 6 92.59600 .557803 .227722 92.01062 93.18138 91.898 93.411
1xkukus_144mesh_m.wave 6 76.79433 .526613 .214989 76.24169 77.34698 75.997 77.472
2xkukus_9mesh_rebus 6 80.96700 .635889 .259601 80.29968 81.63432 79.922 81.725
Rehdrtn_Cpcty
2xkukus_9mesh_kukus 6 68.69000 .642509 .262303 68.01573 69.36427 67.935 69.518
2xkukus_9mesh_m.wave 6 75.52300 .559498 .228414 74.93584 76.11016 74.867 76.143
2xkukus_36mesh_rebus 6 83.91767 .397392 .162235 83.50063 84.33470 83.472 84.492
2xkukus_36mesh_kukus 6 76.67083 .508390 .207549 76.13731 77.20436 75.932 77.331
2xkukus_36mesh_m.wave 6 77.40617 .503663 .205619 76.87761 77.93473 76.993 78.325
2xkukus_144mesh_rebus 6 84.57767 .375485 .153291 84.18362 84.97171 83.997 85.032
2xkukus_144mesh_kukus 6 82.58933 .571714 .233401 81.98936 83.18931 81.934 83.467
2xkukus_144mesh_m.wave 6 77.03417 .679601 .277446 76.32097 77.74736 75.823 77.621
Total 108 81.70306 6.463909 .621990 80.47004 82.93609 67.935 93.411 1xkukus_9mesh_rebus 6 43.21667 .670466 .273717 42.51306 43.92028 42.499 44.156
1xkukus_9mesh_kukus 6 16.94733 .255068 .104131 16.67966 17.21501 16.690 17.291
1xkukus_9mesh_mwave 6 37.55033 .336362 .137319 37.19734 37.90332 37.177 38.056
1xkukus_36mesh_rebus 6 45.00200 .361351 .147521 44.62279 45.38121 44.460 45.503
1xkukus_36mesh_kukus 6 17.65317 .159772 .065226 17.48550 17.82084 17.468 17.870
1xkukus_36mesh_m.wave 6 38.75583 .268340 .109549 38.47423 39.03744 38.430 39.119
1xkukus_144mesh_rebus 6 45.91900 .179195 .073156 45.73095 46.10705 45.708 46.157
1xkukus_144mesh_kukus 6 18.51900 .111416 .045486 18.40208 18.63592 18.380 18.682
1xkukus_144mesh_m.wave 6 38.39733 .263164 .107436 38.12116 38.67351 37.999 38.736
2xkukus_9mesh_rebus 6 40.48383 .318051 .129844 40.15006 40.81761 39.961 40.863
Rhdrtn_Rate
2xkukus_9mesh_kukus 6 13.73817 .128568 .052488 13.60324 13.87309 13.587 13.904
2xkukus_9mesh_m.wave 6 37.76183 .279735 .114201 37.46827 38.05540 37.434 38.072
2xkukus_36mesh_rebus 6 41.95917 .198664 .081104 41.75068 42.16765 41.736 42.246
2xkukus_36mesh_kukus 6 15.33400 .101680 .041511 15.22729 15.44071 15.186 15.466
2xkukus_36mesh_m.wave 6 38.70350 .251887 .102832 38.43916 38.96784 38.497 39.163
2xkukus_144mesh_rebus 6 42.28900 .187607 .076590 42.09212 42.48588 41.999 42.516
2xkukus_144mesh_kukus 6 16.51783 .114045 .046559 16.39815 16.63752 16.387 16.693
2xkukus_144mesh_m.wave 6 38.51750 .339831 .138735 38.16087 38.87413 37.912 38.811
Total 108 32.62586 11.751792 1.130817 30.38415 34.86757 13.587 46.157 ANOVA
Sum of
Squares df Mean Square F Sig. Between Groups 51021.333 17 3001.255 1829.788 .000 Within Groups 147.620 90 1.640
penyerapan_air
Total 51168.953 107 Between Groups 235658.05
4 17 13862.238 78.133 .000
Within Groups 15967.729 90 177.419
pgmbgn_vol
Total 251625.783 107
Between Groups 4426.816 17 260.401 534.202 .000 Within Groups 43.871 90 .487
Rehdrtn_Cpcty
Total 4470.687 107 Between Groups 14769.982 17 868.822 10841.534 .000 Rhdrtn_Rate Within Groups 7.212 90 .080
Total 14777.194 107 Uji Beda Nyata 1. Persentase Penyerapan Air penyerapan_air Duncan
perlakuan N Subset for alpha = .05
1 2 3 4 5 6 7 8 9 10 11 12 1xkukus_9mesh_rebus 6 225.66310
2xkukus_9mesh_kukus 6 241.79127
1xkukus_144mesh_rebus 6 263.42881
1xkukus_9mesh_mwave 6 263.99482 263.99482
2xkukus_9mesh_rebus 6 264.18475 264.18475
2xkukus_36mesh_rebus 6 265.25540 265.25540
1xkukus_36mesh_rebus 6 266.00476
2xkukus_9mesh_m.wave 6 266.08816
2xkukus_36mesh_kukus 6 270.15580
1xkukus_144mesh_m.wave 6 270.97308 270.97308
2xkukus_36mesh_m.wave 6 272.36588 272.36588
2xkukus_144mesh_rebus 6 272.39605 272.39605
2xkukus_144mesh_m.wave 6 272.52065 272.52065
1xkukus_36mesh_m.wave 6 272.73543
2xkukus_144mesh_kukus 6 292.0371
1xkukus_9mesh_kukus 6 295.53790
1xkukus_36mesh_kukus 6 308.18872
1xkukus_144mesh_kukus 6 325.54784
Sig. 1.000 1.000 .340 .111 .293 .272 .058 .655 1.000 1.000 1.000 1.000
Means for groups in homogeneous subsets are displayed. a Uses Harmonic Mean Sample Size = 6.000. 2. Pengembangan Volume pgmbgn_vol
Duncan Means for groups in homogeneous subsets are displayed. a Uses Harmonic Mean Sample Size = 6.000.
Subset for alpha = .05 perlakuan N 1 2 3 4 5 6 7 8 9 10 11 1xkukus_9mesh_rebus 6 179.68333 2xkukus_9mesh_rebus 6 206.07150 2xkukus_9mesh_kukus 6 234.78117 1xkukus_144mesh_rebus
6 237.20767
2xkukus_36mesh_m.wave 6 239.36433 239.36433
1xkukus_36mesh_rebus 6 249.04983 249.04983 1xkukus_9mesh_kukus 6 254.56917 254.56917 1xkukus_36mesh_kukus 6 267.02867 267.02867 2xkukus_144mesh_rebus
6 281.71450 281.71450
1xkukus_9mesh_mwave 6 296.51417 296.51417 2xkukus_36mesh_rebus 6 297.00583 297.00583 1xkukus_144mesh_kukus
6 300.99933
2xkukus_144mesh_kukus 6 302.84250
1xkukus_144mesh_m.wave 6 318.29783
2xkukus_9mesh_m.wave 6 328.74400 328.74400 1xkukus_36mesh_m.wave
6 333.57433 333.57433 333.57433
2xkukus_36mesh_kukus 6 338.69267 338.69267 2xkukus_144mesh_m.wave 6 349.25100
Sig. 1.000 1.000 .093 .064 .109 .059 .062 .461 .063 .227 .056
3. Rehydration Capacity (RC) Rehdrtn_Cpcty
Duncan Means for groups in homogeneous subsets are displayed. a Uses Harmonic Mean Sample Size = 6.000.
Subset for alpha = .05 perlakuan N 1 2 3 4 5 6 7 8 9 10 2xkukus_9mesh_kukus 6 68.69000 1xkukus_9mesh_mwave 6 75.10017 2xkukus_9mesh_m.wave 6 75.52300 2xkukus_36mesh_kukus 6 76.67083 1xkukus_144mesh_m.wave 6 76.79433
2xkukus_144mesh_m.wave 6 77.03417
2xkukus_36mesh_m.wave 6 77.40617
1xkukus_36mesh_m.wave 6 77.51100
2xkukus_9mesh_rebus 6 80.96700 2xkukus_144mesh_kukus
6 82.58933
2xkukus_36mesh_rebus 6 83.91767 2xkukus_144mesh_rebus
6 84.57767
1xkukus_9mesh_kukus 6 84.73700 1xkukus_9mesh_rebus 6 86.43300 1xkukus_36mesh_kukus 6 88.26667 1xkukus_36mesh_rebus 6 90.00333 1xkukus_144mesh_rebus
6 91.83783
1xkukus_144mesh_kukus 6 92.59600
Sig. 1.000 .297 .065 1.000 1.000 .057 1.000 1.000 1.000 .063
Lampiran 6. Hasil Olah Data SPSS Karakterisrik Sensoris Nasi Jagung Instan Cochran_q Test 1. Warna Descriptive Statistics
N Mean Std. Deviation Minimum Maximum sampel_1 30 1.00 .000 1 1 sampel_2 30 1.00 .000 1 1 sampel_3 30 .83 .379 0 1 sampel_4 30 .73 .450 0 1 sampel_5 30 .93 .254 0 1 sampel_6 30 .83 .379 0 1 sampel_7 30 .90 .305 0 1 sampel_8 30 .90 .305 0 1 sampel_9 30 .83 .379 0 1 sampel_10 30 .93 .254 0 1 sampel_11 30 1.00 .000 1 1 sampel_12 30 .60 .498 0 1 sampel_13 30 1.00 .000 1 1 sampel_14 30 .77 .430 0 1 sampel_15 30 .70 .466 0 1 sampel_16 30 1.00 .000 1 1 sampel_17 30 1.00 .000 1 1 sampel_18 30 .80 .407 0 1
Frequencies
Value 0 1 sampel_1 0 30 sampel_2 0 30 sampel_3 5 25 sampel_4 8 22 sampel_5 2 28 sampel_6 5 25 sampel_7 3 27 sampel_8 3 27 sampel_9 5 25 sampel_10 2 28 sampel_11 0 30 sampel_12 12 18 sampel_13 0 30 sampel_14 7 23 sampel_15 9 21
sampel_16 0 30 sampel_17 0 30 sampel_18 6 24
Test Statistics N 30 Cochran's Q 82.878(a) Df 17 Asymp. Sig. .000
a 1 is treated as a success. 2. Tekstur Descriptive Statistics
N Mean Std. Deviation Minimum Maximum sampel_1 30 .77 .430 0 1 sampel_2 30 .80 .407 0 1 sampel_3 30 .67 .479 0 1 sampel_4 30 .77 .430 0 1 sampel_5 30 .70 .466 0 1 sampel_6 30 .67 .479 0 1 sampel_7 30 .87 .346 0 1 sampel_8 30 .67 .479 0 1 sampel_9 30 .43 .504 0 1 sampel_10 30 .63 .490 0 1 sampel_11 30 .73 .450 0 1 sampel_12 30 .40 .498 0 1 sampel_13 30 .53 .507 0 1 sampel_14 30 .77 .430 0 1 sampel_15 30 .70 .466 0 1 sampel_16 30 .83 .379 0 1 sampel_17 30 .73 .450 0 1 sampel_18 30 .63 .490 0 1
Frequencies
Value 0 1 sampel_1 7 23 sampel_2 6 24 sampel_3 10 20
sampel_4 7 23 sampel_5 9 21 sampel_6 10 20 sampel_7 4 26 sampel_8 10 20 sampel_9 17 13 sampel_10 11 19 sampel_11 8 22 sampel_12 18 12 sampel_13 14 16 sampel_14 7 23 sampel_15 9 21 sampel_16 5 25 sampel_17 8 22 sampel_18 11 19
Test Statistics N 30 Cochran's Q 38.959(a) Df 17 Asymp. Sig. .002
a 1 is treated as a success. 3. Rasa Descriptive Statistics
N Mean Std. Deviation Minimum Maximum sampel_1 30 .63 .490 0 1 sampel_2 30 .77 .430 0 1 sampel_3 30 .83 .379 0 1 sampel_4 30 .80 .407 0 1 sampel_5 30 .63 .490 0 1 sampel_6 30 .60 .498 0 1 sampel_7 30 .53 .507 0 1 sampel_8 30 .50 .509 0 1 sampel_9 30 .47 .507 0 1 sampel_10 30 .63 .490 0 1 sampel_11 30 .57 .504 0 1 sampel_12 30 .63 .490 0 1 sampel_13 30 .50 .509 0 1 sampel_14 30 .47 .507 0 1
sampel_15 30 .83 .379 0 1 sampel_16 30 .63 .490 0 1 sampel_17 30 .53 .507 0 1 sampel_18 30 .53 .507 0 1
Frequencies
Value 0 1 sampel_1 11 19 sampel_2 7 23 sampel_3 5 25 sampel_4 6 24 sampel_5 11 19 sampel_6 12 18 sampel_7 14 16 sampel_8 15 15 sampel_9 16 14 sampel_10 11 19 sampel_11 13 17 sampel_12 11 19 sampel_13 15 15 sampel_14 16 14 sampel_15 5 25 sampel_16 11 19 sampel_17 14 16 sampel_18 14 16
Test Statistics N 30 Cochran's Q 39.886(a) Df 17 Asymp. Sig. .001
a 1 is treated as a success.
4. Aroma Descriptive Statistics
N Mean Std. Deviation Minimum Maximum sampel_1 30 .53 .507 0 1 sampel_2 30 .87 .346 0 1 sampel_3 30 .87 .346 0 1 sampel_4 30 .77 .430 0 1 sampel_5 30 .63 .490 0 1 sampel_6 30 .83 .379 0 1 sampel_7 30 .67 .479 0 1 sampel_8 30 .70 .466 0 1 sampel_9 30 .67 .479 0 1 sampel_10 30 .83 .379 0 1 sampel_11 30 .73 .450 0 1 sampel_12 30 .67 .479 0 1 sampel_13 30 .80 .407 0 1 sampel_14 30 .67 .479 0 1 sampel_15 30 .83 .379 0 1 sampel_16 30 .93 .254 0 1 sampel_17 30 .80 .407 0 1 sampel_18 30 .93 .254 0 1
Frequencies
Value 0 1 sampel_1 14 16 sampel_2 4 26 sampel_3 4 26 sampel_4 7 23 sampel_5 11 19 sampel_6 5 25 sampel_7 10 20 sampel_8 9 21 sampel_9 10 20 sampel_10 5 25 sampel_11 8 22 sampel_12 10 20 sampel_13 6 24 sampel_14 10 20 sampel_15 5 25 sampel_16 2 28
sampel_17 6 24 sampel_18 2 28
Test Statistics N 30 Cochran's Q 43.663(a) Df 17 Asymp. Sig. .000
a 1 is treated as a success. 5. Overall Descriptive Statistics
N Mean Std. Deviation Minimum Maximum sampel_1 30 .63 .490 0 1 sampel_2 30 .93 .254 0 1 sampel_3 30 .70 .466 0 1 sampel_4 30 .63 .490 0 1 sampel_5 30 .67 .479 0 1 sampel_6 30 .70 .466 0 1 sampel_7 30 .63 .490 0 1 sampel_8 30 .67 .479 0 1 sampel_9 30 .50 .509 0 1 sampel_10 30 .77 .430 0 1 sampel_11 30 .67 .479 0 1 sampel_12 30 .50 .509 0 1 sampel_13 30 .57 .504 0 1 sampel_14 30 .47 .507 0 1 sampel_15 30 .77 .430 0 1 sampel_16 30 .73 .450 0 1 sampel_17 30 .67 .479 0 1 sampel_18 30 .63 .490 0 1
Frequencies
Value 0 1 sampel_1 11 19 sampel_2 2 28 sampel_3 9 21 sampel_4 11 19 sampel_5 10 20
sampel_6 9 21 sampel_7 11 19 sampel_8 10 20 sampel_9 15 15 sampel_10 7 23 sampel_11 10 20 sampel_12 15 15 sampel_13 13 17 sampel_14 16 14 sampel_15 7 23 sampel_16 8 22 sampel_17 10 20 sampel_18 11 19
Test Statistics N 30 Cochran's Q 32.253(a) Df 17 Asymp. Sig. .014
a 1 is treated as a success.
Lampiran 6. Kuisioner Organoleptik Nasi Jagung Instan
KUISIONER ORGANOLEPTIK NASI JAGUNG INSTAN
Nama :
Umur :
Jenis Kelamin :
Dihadapan Anda tersaji 18 (delapan belas) macam sampel nasi jagung instan. Silahkan
berikan penilaian Anda terhadap warna, tekstur, rasa, aroma dan overall dari masing-
masing sampel yang tersedia.
Parameter sampel warna tekstur rasa aroma overall
185 295 375 624 846 583 274 749 825 538 974 351 742 284 163 369 138 319
Keterangan : (+) : dapat diterima (-) : tidak dapat diterima
-Terima Kasih-