• Tidak ada hasil yang ditemukan

KA Kontrol 1 KA Kontrol 2 KA Kontrol 3 KA Blanching 1

N/A
N/A
Protected

Academic year: 2019

Membagikan "KA Kontrol 1 KA Kontrol 2 KA Kontrol 3 KA Blanching 1"

Copied!
33
0
0

Teks penuh

(1)

55

LAMPIRAN

Lampiran 1. Penurunan Kadar Air Selama Proses Pengeringan

Waktu KA Kontrol 1 KA Kontrol 2 KA Kontrol 3 KA Blanching 1

KA Blanching 2

KA Blanching 3

9:00 0.9265 ± 0 0.9265 ± 0 0.9265 ± 0 0.9171 ± 0 0.9171 ± 0 0.9171 ± 0 9:30 0.8833 ±

0.0139 0.8756 ± 0.0038 0.8879 ± 0.0049 0.8828 ± 0.0047 0.8749 ± 0.0053 0.8810 ± 0.0059 10:00 0.8368 ±

0.0236 0.8132 ± 0.0100 0.8442 ± 0.0059 0.8551 ± 0.0182 0.8419 ± 0.0093 0.8385 ± 0.0067 10:30 0.7601 ±

0.0611 0.6970 ± 0.0181 0.7565 ± 0.0191 0.8080 ± 0.0281 0.7753 ± 0.0102 0.7867 ± 0.0055 11:00 0.5727 ±

0.0765 0.4616 ± 0.1218 0.6050 ± 0.0975 0.7618 ± 0.0262 0.6577 ± 0.0574 0.6436 ± 0.0814 11:30 0.3937 ±

0.0269 0.1979 ± 0.0811 0.3746 ± 0.1390 0.6592 ± 0.0305 0.4897 ± 0.1469 0.5307 ± 0.0963 12:00 0.3075 ±

0.0498 0.1749 ± 0.0795 0.2259 ± 0.1257 0.5188 ± 0.0351 0.3390 ± 0.1378 0.3837 ± 0.0453 12:30 0.2188 ±

0.0927 0.1582 ± 0.0690 0.2133 ± 0.1336 0.3903 ± 0.0567 0.2181 ± 0.0867 0.2224 ± 0.0755 13:00 0.1488 ±

0.0898 0.1406 ± 0.0575 0.2003 ± 0.1410 0.2483 ± 0.1043 0.1578 ± 0.0441 0.1402 ± 0.0468 13:30 0.0848 ±

0.0173 0.0959 ± 0.0169 0.1501 ± 0.0814 0.2131 ± 0.0753 0.1344 ± 0.0460 0.1169 ± 0.0401 14:00 0.0782 ±

0.0233 0.0847 ± 0.0257 0.0919 ± 0.0193 0.1239 ± 0.0284 0.0991 ± 0.0268 0.0962 ± 0.0218 14:30 0.0658 ±

0.0237 0.0734 ± 0.0176 0.0699 ± 0.0112 0.0595 ± 0.0205 0.0770 ± 0.0077 0.0836 ± 0.0132

Waktu KA

Metabisulfit 1 KA Metabisulfit 2 KA Metabisulfit 3 KA Askorbat 1 KA Askorbat 2 KA Askorbat 3

9:00 0.9091 ± 0 0.9091 ± 0 0.9091 ± 0 0.9138 ± 0 0.9138 ± 0 0.9138 ± 0 9:30 0.8741 ±

0.0040 0.8566 ± 0.0123 0.8654 ± 0.0114 0.8608 ± 0.0108 0.8752 ± 0.0079 0.8648 ± 0.0177 10:00 0.8281 ±

0.0156 0.8088 ± 0.0151 0.8120 ± 0.0215 0.8019 ± 0.0345 0.8386 ± 0.0140 0.8293 ± 0.0045 10:30 0.7779 ±

0.0169 0.7222 ± 0.0317 0.7166 ± 0.0140 0.7428 ± 0.0122 0.7796 ± 0.0242 0.7806 ± 0.0092 11:00 0.6677 ±

0.0304 0.4889 ± 0.1046 0.5874 ± 0.0936 0.5713 ± 0.0459 0.7182 ± 0.0207 0.6550 ± 0.1167 11:30 0.5670 ±

0.0658 0.4093 ± 0.0322 0.4709 ± 0.0257 0.4160 ± 0.0724 0.5753 ± 0.0443 0.5237 ± 0.0556 12:00 0.4265 ±

0.0397 0.2292 ± 0.1058 0.3598 ± 0.0912 0.3593 ± 0.1186 0.4087 ± 0.1679 0.3669 ± 0.1032 12:30 0.2880 ±

0.0820 0.1811 ± 0.1102 0.1908 ± 0.1346 0.2887 ± 0.1681 0.3270 ± 0.1512 0.2473 ± 0.2010 13:00 0.1907 ±

0.1268 0.1637 ± 0.1028 0.1699 ± 0.1530 0.1686 ± 0.1084 0.2328 ± 0.1951 0.2206 ± 0.1557 13:30 0.1310 ±

0.0462 0.1049 ± 0.0215 0.1055 ± 0.0515 0.1572 ± 0.1142 0.2133 ± 0.1490 0.2054 ± 0.1247 14:00 0.0849 ±

0.0139 0.0909 ± 0.0090 0.0814 ± 0.0183 0.0838 ± 0.0098 0.1969 ± 0.0845 0.1739 ± 0.0850 14:30 0.0696 ±

(2)

56

Lampiran 2. Perubahan Karaketeristik Warna Selama Proses Pengeringan

waktu

L kontrol

L blanching

L metabisulfit

L askorbat

9:00

80,27

73,82

78,87333333

75,84

9:30

79,54666667

73,52

78,20666667

75,14666667

10:00

78,83

73,27333333

77,81333333

74,57333333

10:30

78,20666667

71,78333333

77,65666667

72,40666667

11:00

76,31333333

71,05

75,82

66,68666667

11:30

74,78

62,93

73,03666667

54,39666667

12:00

74,18333333

51,80666667

66,27

49,70333333

12:30

73,19666667

51,52333333

63,65

39,07666667

13:00

72,64666667

45,13

63,21333333

35,28

13:30

72,29333333

42,15666667

61,17

31,98666667

14:00

70,59666667

41,06

58,69333333

28,25666667

14:30

66,88

39,66

53,07333333

26,90333333

waktu

a* kontrol

a* blanching

a* metabisulfit

a* askorbat

9:00

-1,566666667

-0,723333333

-2,183333333

-2,15

9:30

-1,486666667

-0,706666667

-2,053333333

-2,00666667

10:00

-1,27

-0,04

-2,02

-0,70666667

10:30

-0,703333333

0,326666667

-1,953333333

1,876666667

11:00

0,313333333

1,98

-1,596666667

2,163333333

11:30

1,253333333

2,76

-0,316666667

11,04333333

12:00

2,26

3,96

0,286666667

11,42

12:30

2,303333333

5,16

1,463333333

13,3

13:00

2,683333333

6,21

2,163333333

14,52333333

13:30

2,7

6,456666667

3,303333333

16,47

14:00

2,92

6,496666667

3,783333333

17,37333333

14:30

2,93

6,906666667

4,416666667

20,85

waktu

b* kontrol

b* blanching

b* metabisulfit

b* askorbat

9:00

12,64333333

12,91333333

5,976666667

8,026666667

9:30

15,13

13,22

6,31

9,74

10:00

16,49666667

13,93666667

8,18

10,47666667

10:30

19,80333333

14,79666667

9,64

11,54333333

11:00

24,39666667

17,52333333

9,936666667

12,05666667

11:30

25,27

22,00333333

15,33

13,60333333

12:00

25,43

22,29666667

19,31

13,72333333

12:30

26,29333333

24,14666667

24,05333333

14,78

13:00

26,72

24,35333333

24,79

18,08333333

13:30

26,79666667

25,61333333

25,39666667

18,83333333

14:00

27,66

26,91333333

26,43666667

19,12

(3)

57

Lampiran 3. Perubahan Nilai Tekstur Selama Proses Pengeringan

waktu

kontrol

blanching

metabisulfit

askorbat

9:00

603,4793

829,6641

753,583

697,5522

9:30

738,8987

929,9968

781,76

715,3029

10:00

847,9135

1028,48

796,5534

726,9589

10:30

947,4274

1042,885

857,1365

741,0516

11:00

1057,891

1154,836

954,6759

849,2828

11:30

1451,7

1430,695

1141,588

900,3505

12:00

1751,838

1559,654

1161,489

1149,061

12:30

2065,146

1860,929

1605,131

1368,364

13:00

2227,42

2187,817

1770,018

1418,175

13:30

2547,649

2258,527

2001,344

1892,068

14:00

2643,245

2460,757

2365,912

2231,084

14:30

2923,494

2850,363

2640,862

2540,009

Lampiran 4. Perubahan Nilai Aw Selama Proses Pengeringan

waktu

rerata kontrol

std dev kontrol

rerata blanching

std dev blanching

9:00

0,987666667

0,001154701

0,990333333

0,005507571

9:30

0,979

0,018384776

0,9865

0,006363961

10:00

0,9525

0,012020815

0,985

0,004242641

10:30

0,9445

0,031819805

0,9615

0,004949747

11:00

0,9385

0,010606602

0,9165

0,013435029

11:30

0,928

0,008485281

0,84

0,173948268

12:00

0,8855

0,004949747

0,749

0,004242641

12:30

0,7055

0,079903066

0,592

0,012727922

13:00

0,5705

0,078488853

0,452

0,022627417

13:30

0,41

0,069296465

0,4275

0,007778175

14:00

0,199

0,005656854

0,266

0,066468037

14:30

0,157

0,001414214

0,146

0,012727922

waktu

rerata

metabisulfit

std dev

metabisulfit

rerata askorbat

std dev askorbat

9:00

0,986333333

0,00305505

0,987333333

0,005507571

9:30

0,984

0,002828427

0,9805

0,00212132

10:00

0,979

0,002828427

0,9765

0,003535534

10:30

0,9615

0,006363961

0,9505

0,006363961

11:00

0,9385

0,007778175

0,882

0,005656854

11:30

0,919

0,004242641

0,6945

0,092630988

12:00

0,7915

0,003535534

0,571

0,007071068

12:30

0,526

0,022627417

0,368

0,197989899

13:00

0,3595

0,068589358

0,336

0,011313708

13:30

0,3439

0,03549676

0,229

0,004242641

14:00

0,273

0,038183766

0,214

0,011313708

(4)

58

Lampiran 5. Perubahan Nilai Rehidrasi Selama Proses Pengeringan

waktu

rerata kontrol

std dev kontrol

rerata blanching

std dev blanching

9:00

1,086

0,008519193

1,106426799

0,009985185

9:30

1,199

0,027090127

1,358552951

0,045106243

10:00

1,394

0,122062477

1,370577874

0,066290144

10:30

2,056

0,070186826

1,599733805

0,048614779

11:00

2,192

0,093883341

1,768319719

0,034893348

11:30

3,361

0,505015705

1,860308651

0,070673113

12:00

4,254

0,443480483

2,366384337

0,127996501

12:30

4,303

0,194213769

2,426062809

0,095739021

13:00

5,429

0,293045777

2,456465338

0,246913824

13:30

5,673

0,286548963

2,517276559

0,057434149

14:00

5,945

0,56748326

2,564579998

0,020781034

14:30

6,216

0,454909551

2,726327458

0,080204773

waktu

rerata

metabisulfit

std dev

metabisulfit

rerata as.askorbat

std dev as.

Askorbat

9:00

1,051999325

0,035504876

1,097083429

0,052280965

9:30

1,063337457

0,083925096

1,331498499

0,083950402

10:00

1,184376321

0,099332134

1,3572287

0,131560502

10:30

1,293283688

0,077539124

1,428789676

0,099626382

11:00

1,298536411

0,020500996

1,519620662

0,051949542

11:30

1,376467878

0,13493496

2,170371546

0,19294071

12:00

1,846038249

0,116785598

2,423146032

0,234096822

12:30

2,212404026

0,209699131

2,597419289

0,044921266

13:00

2,280868167

0,091427159

3,21782631

0,290943813

13:30

2,35812137

0,231965296

3,222247617

0,275010121

14:00

2,71579114

0,082085519

3,243035743

0,066351186

(5)

59

Lampiran 6. Analisa Data

Pengaruh Area terhadap Kadar Air _

Perlakuan _ Suhu

KA1_2

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .8757

1.00 3 .8834

3.00 3 .8879

Sig. .152

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_2

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .8749

3.00 3 .8811

1.00 3 .8828

Sig. .131

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_2

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .8567

3.00 3 .8654

1.00 3 .8742

Sig. .084

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA4_2

Duncana

Area N

Subset for alpha = 0.05

1

1.00 3 .8608

3.00 3 .8649

2.00 3 .8753

Sig. .233

Means for groups in homogeneous subsets are displayed.

(6)

KA1_3

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .8133

1.00 3 .8369

3.00 3 .8443

Sig. .053

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_3

Duncana

Area N

Subset for alpha = 0.05

1

3.00 3 .8386

2.00 3 .8419

1.00 3 .8552

Sig. .165

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_3

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .8089

3.00 3 .8121

1.00 3 .8282

Sig. .243

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA4_3

Duncana

Area N

Subset for alpha = 0.05

1

1.00 3 .8019

3.00 3 .8294

2.00 3 .8387

Sig. .092

Means for groups in homogeneous subsets are displayed.

(7)

KA1_4

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .6970

3.00 3 .7566

1.00 3 .7601

Sig. .100

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_4

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .7753

3.00 3 .7867

1.00 3 .8080

Sig. .071

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_4

Duncana

Area N

Subset for alpha = 0.05

1 2

3.00 3 .7166

2.00 3 .7223

1.00 3 .7780

Sig. .767 1.000

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA4_4

Duncana

Area N

Subset for alpha = 0.05

1 2

1.00 3 .7429

2.00 3 .7796

3.00 3 .7807

Sig. 1.000 .942

Means for groups in homogeneous subsets are displayed.

(8)

KA1_5

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .4616

1.00 3 .5727

3.00 3 .6050

Sig. .142

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_5

Duncana

Area N

Subset for alpha = 0.05

1

3.00 3 .6436

2.00 3 .6578

1.00 3 .7618

Sig. .057

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_5

Duncana

Area N

Subset for alpha = 0.05

1 2

2.00 3 .4890

3.00 3 .5875 .5875

1.00 3 .6678

Sig. .196 .280

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA4_5

Duncana

Area N

Subset for alpha = 0.05

1

1.00 3 .5714

3.00 3 .6551

2.00 3 .7182

Sig. .056

Means for groups in homogeneous subsets are displayed.

(9)

KA1_6

Duncana

Area N

Subset for alpha = 0.05

1 2

2.00 3 .1979

3.00 3 .3747 .3747

1.00 3 .3938

Sig. .061 .813

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_6

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .4898

3.00 3 .5308

1.00 3 .6592

Sig. .100

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_6

Duncana

Area N

Subset for alpha = 0.05

1 2

2.00 3 .4093

3.00 3 .4710

1.00 3 .5671

Sig. .143 1.000

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA4_6

Duncana

Area N

Subset for alpha = 0.05

1 2

1.00 3 .4160

3.00 3 .5237 .5237

2.00 3 .5753

Sig. .065 .322

Means for groups in homogeneous subsets are displayed.

(10)

KA1_7

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .1749

3.00 3 .2259

1.00 3 .3075

Sig. .134

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_7

Duncana

Area N

Subset for alpha = 0.05

1 2

2.00 3 .3390

3.00 3 .3838 .3838

1.00 3 .5188

Sig. .548 .104

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_7

Duncana

Area N

Subset for alpha = 0.05

1 2

2.00 3 .2293

3.00 3 .3598 .3598

1.00 3 .4265

Sig. .105 .368

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA4_7

Duncana

Area N

Subset for alpha = 0.05

1

1.00 3 .3594

3.00 3 .3669

2.00 3 .4088

Sig. .674

Means for groups in homogeneous subsets are displayed.

(11)

KA1_8

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .1583

3.00 3 .2134

1.00 3 .2188

Sig. .508

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_8

Duncana

Area N

Subset for alpha = 0.05

1 2

2.00 3 .2181

3.00 3 .2225

1.00 3 .3903

Sig. .945 1.000

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_8

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .1811

3.00 3 .1909

1.00 3 .2881

Sig. .297

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA4_8

Duncana

Area N

Subset for alpha = 0.05

1

3.00 3 .2473

1.00 3 .2888

2.00 3 .3270

Sig. .608

Means for groups in homogeneous subsets are displayed.

(12)

KA1_9

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .1407

1.00 3 .1488

3.00 3 .2004

Sig. .513

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_9

Duncana

Area N

Subset for alpha = 0.05

1

3.00 3 .1402

2.00 3 .1579

1.00 3 .2484

Sig. .121

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_9

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .1637

3.00 3 .1699

1.00 3 .1907

Sig. .812

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA4_9

Duncana

Area N

Subset for alpha = 0.05

1

1.00 3 .1686

3.00 3 .2206

2.00 3 .2329

Sig. .679

Means for groups in homogeneous subsets are displayed.

(13)

KA1_10

Duncana

Area N

Subset for alpha = 0.05

1

1.00 3 .0849

2.00 3 .0960

3.00 3 .1502

Sig. .166

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_10

Duncana

Area N

Subset for alpha = 0.05

1

3.00 3 .1170

2.00 3 .1345

1.00 3 .2131

Sig. .089

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_10

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .1050

3.00 3 .1056

1.00 3 .1310

Sig. .489

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA4_10

Duncana

Area N

Subset for alpha = 0.05

1

1.00 3 .1572

3.00 3 .2055

2.00 3 .2133

Sig. .726

Means for groups in homogeneous subsets are displayed.

(14)

KA1_11

Duncana

Area N

Subset for alpha = 0.05

1

1.00 3 .0782

2.00 3 .0848

3.00 3 .0920

Sig. .505

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_11

Duncana

Area N

Subset for alpha = 0.05

1

3.00 3 .0962

2.00 3 .0992

1.00 3 .1240

Sig. .251

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_11

Duncana

Area N

Subset for alpha = 0.05

1

3.00 3 .0814

1.00 3 .0849

2.00 3 .0909

Sig. .461

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA4_11

Duncana

Area N

Subset for alpha = 0.05

1

1.00 3 .0838

3.00 3 .1739

2.00 3 .1970

Sig. .434

Means for groups in homogeneous subsets are displayed.

(15)

KA1_12

Duncana

Area N

Subset for alpha = 0.05

1

1.00 3 .0658

3.00 3 .0699

2.00 3 .0735

Sig. .637

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_12

Duncana

Area N

Subset for alpha = 0.05

1

1.00 3 .0595

2.00 3 .0770

3.00 3 .0836

Sig. .103

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_12

Duncana

Area N

Subset for alpha = 0.05

1

1.00 3 .0696

3.00 3 .0700

2.00 3 .0727

Sig. .857

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA4_12

Duncana

Area N

Subset for alpha = 0.05

1

2.00 3 .0668

1.00 3 .0710

3.00 3 .0809

Sig. .393

Means for groups in homogeneous subsets are displayed.

(16)

Pengaruh Perlakuan terhadap Kadar Air _

Area _ Suhu

KA1_2

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2

askorbat 3 .8608

metabisulfit 3 .8742 .8742

blaching 3 .8828

kontrol 3 .8834

Sig. .119 .284

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_2

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2

metabisulfit 3 .8567

blaching 3 .8749

askorbat 3 .8753

kontrol 3 .8757

Sig. 1.000 .917

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_2

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2

askorbat 3 .8649

metabisulfit 3 .8654

blaching 3 .8811 .8811

kontrol 3 .8879

Sig. .130 .476

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA1_3

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2

askorbat 3 .8019

metabisulfit 3 .8282 .8282

kontrol 3 .8369 .8369

blaching 3 .8552

Sig. .127 .225

Means for groups in homogeneous subsets are displayed.

(17)

KA2_3

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2

metabisulfit 3 .8089

kontrol 3 .8133

askorbat 3 .8387

blaching 3 .8419

Sig. .675 .755

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_3

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2

metabisulfit 3 .8121

askorbat 3 .8294 .8294

blaching 3 .8386

kontrol 3 .8443

Sig. .112 .180

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA1_4

Duncana

Perlakuan N

Subset for alpha = 0.05

1

askorbat 3 .7429

kontrol 3 .7601

metabisulfit 3 .7780

blaching 3 .8080

Sig. .066

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_4

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2

kontrol 3 .6970

metabisulfit 3 .7223

blaching 3 .7753

askorbat 3 .7796

Sig. .207 .821

Means for groups in homogeneous subsets are displayed.

(18)

KA3_4

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2 3

metabisulfit 3 .7166

kontrol 3 .7566

askorbat 3 .7807 .7807

blaching 3 .7867

Sig. 1.000 .053 .584

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA1_5

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2 3

askorbat 3 .5714

kontrol 3 .5727

metabisulfit 3 .6678

blaching 3 .7618

Sig. .974 1.000 1.000

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_5

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2

kontrol 3 .4616

metabisulfit 3 .4890

blaching 3 .6578

askorbat 3 .7182

Sig. .706 .414

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_5

Duncana

Perlakuan N

Subset for alpha = 0.05

1

metabisulfit 3 .5875

kontrol 3 .6050

blaching 3 .6436

askorbat 3 .6551

Sig. .449

Means for groups in homogeneous subsets are displayed.

(19)

KA1_6

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2

kontrol 3 .3938

askorbat 3 .4160

metabisulfit 3 .5671

blaching 3 .6592

Sig. .621 .066

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_6

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2

kontrol 3 .1979

metabisulfit 3 .4093

blaching 3 .4898

askorbat 3 .5753

Sig. 1.000 .058

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_6

Duncana

Perlakuan N

Subset for alpha = 0.05

1

kontrol 3 .3747

metabisulfit 3 .4710

askorbat 3 .5237

blaching 3 .5308

Sig. .081

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA1_7

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2

kontrol 3 .3075

askorbat 3 .3594

metabisulfit 3 .4265 .4265

blaching 3 .5188

Sig. .079 .143

Means for groups in homogeneous subsets are displayed.

(20)

KA2_7

Duncana

Perlakuan N

Subset for alpha = 0.05

1

kontrol 3 .1749

metabisulfit 3 .2293

blaching 3 .3390

askorbat 3 .4088

Sig. .068

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_7

Duncana

Perlakuan N

Subset for alpha = 0.05

1

kontrol 3 .2259

metabisulfit 3 .3598

askorbat 3 .3669

blaching 3 .3838

Sig. .095

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA1_8

Duncana

Perlakuan N

Subset for alpha = 0.05

1

kontrol 3 .2188

metabisulfit 3 .2881

askorbat 3 .2888

blaching 3 .3903

Sig. .106

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_8

Duncana

Perlakuan N

Subset for alpha = 0.05

1

kontrol 3 .1583

metabisulfit 3 .1811

blaching 3 .2181

askorbat 3 .3270

Sig. .112

Means for groups in homogeneous subsets are displayed.

(21)

KA3_8

Duncana

Perlakuan N

Subset for alpha = 0.05

1

metabisulfit 3 .1909

kontrol 3 .2134

blaching 3 .2225

askorbat 3 .2473

Sig. .660

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA1_9

Duncana

Perlakuan N

Subset for alpha = 0.05

1

kontrol 3 .1488

askorbat 3 .1686

metabisulfit 3 .1907

blaching 3 .2484

Sig. .319

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_9

Duncana

Perlakuan N

Subset for alpha = 0.05

1

kontrol 3 .1407

blaching 3 .1579

metabisulfit 3 .1637

askorbat 3 .2329

Sig. .386

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_9

Duncana

Perlakuan N

Subset for alpha = 0.05

1

blaching 3 .1402

metabisulfit 3 .1699

kontrol 3 .2004

askorbat 3 .2206

Sig. .548

Means for groups in homogeneous subsets are displayed.

(22)

KA1_10

Duncana

Perlakuan N

Subset for alpha = 0.05

1

kontrol 3 .0849

metabisulfit 3 .1310

askorbat 3 .1572

blaching 3 .2131

Sig. .077

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_10

Duncana

Perlakuan N

Subset for alpha = 0.05

1

kontrol 3 .0960

metabisulfit 3 .1050

blaching 3 .1345

askorbat 3 .2133

Sig. .245

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_10

Duncana

Perlakuan N

Subset for alpha = 0.05

1

metabisulfit 3 .1056

blaching 3 .1170

kontrol 3 .1502

askorbat 3 .2055

Sig. .345

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA1_11

Duncana

Perlakuan N

Subset for alpha = 0.05

1 2

kontrol 3 .0782

askorbat 3 .0838

metabisulfit 3 .0849

blaching 3 .1240

Sig. .710 1.000

Means for groups in homogeneous subsets are displayed.

(23)

KA2_11

Duncana

Perlakuan N

Subset for alpha = 0.05

1

kontrol 3 .0848

metabisulfit 3 .0909

blaching 3 .0992

askorbat 3 .1970

Sig. .269

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA3_11

Duncana

Perlakuan N

Subset for alpha = 0.05

1

metabisulfit 3 .0814

kontrol 3 .0920

blaching 3 .0962

askorbat 3 .1739

Sig. .266

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA1_12

Duncana

Perlakuan N

Subset for alpha = 0.05

1

blaching 3 .0595

kontrol 3 .0658

metabisulfit 3 .0696

askorbat 3 .0710

Sig. .507

Means for groups in homogeneous subsets are displayed.

a. Uses Harmonic Mean Sample Size = 3,000.

KA2_12

Duncana

Perlakuan N

Subset for alpha = 0.05

1

askorbat 3 .0668

metabisulfit 3 .0727

kontrol 3 .0735

blaching 3 .0770

Sig. .486

Means for groups in homogeneous subsets are displayed.

(24)

KA3_12

Duncana

Perlakuan N

Subset for alpha = 0.05

1

kontrol 3 .0699

metabisulfit 3 .0700

askorbat 3 .0809

blaching 3 .0836

Sig. .396

Means for groups in homogeneous subsets are displayed.

(25)

1.

Kadar air

1.1 Kadar Air Kontrol

𝑦 =

1,077

1 + 𝑒

1,139(𝑥−2,008)

R

2

= 0,993

Turunan Pertama

𝑑𝑦

𝑑𝑥 =

a

v =

a

. v − a. v

𝑣

2

a= 1,077

a’= 0

𝑣 = 1 + 𝑒

1,139(𝑥−2,008)

𝑣 = 1 + 𝑒

1,139𝑥−2,287

𝑣

= 1,139𝑒

1,139𝑥−2,287

y

=

𝑎

. 𝑣 − 𝑎. 𝑣

𝑣

2

y

=

−1,077.1,139𝑒

(1 + 𝑒

1,139𝑥−2,2871,139𝑥−2,287

)

2

y

=

−1,227𝑒

1,139𝑥−2,287

1 + 2𝑒

1,139𝑥−2,287

+ 𝑒

2(1,139𝑥−2,287)

y

=

−1,227𝑒

1,139𝑥−2,287

1 + 2𝑒

1,139𝑥−2,287

+ 𝑒

2,278𝑥−4,574)

1.2

Kadar Air Blanching

𝑦 =

1 + 𝑒

1,078(𝑥−2,771)

0,969

R

2

= 0,999

Turunan Pertama

𝑑𝑦

𝑑𝑥 =

a

v =

a

. v − a. v

𝑣

2

a= 0,969

a’= 0

𝑣 = 1 + 𝑒

1,078(𝑥−2,771)

𝑣 = 1 + 𝑒

1,078𝑥−2,987

𝑣

= 1,078𝑒

1,078𝑥−2,987

y

=

𝑎

. 𝑣 − 𝑎. 𝑣

𝑣

2

y

=

−0,969.1,078𝑒

(1 + 𝑒

1,078𝑥−2,9871,078𝑥−2,987

)

2

y

=

−1,045𝑒

1,078𝑥−2,987

1 + 2𝑒

1,078𝑥−2,987

+ 𝑒

2(1,078𝑥−2,987)

y

=

−1,045𝑒

1,078𝑥−2,987

1 + 2𝑒

1,078𝑥−2,987

+ 𝑒

2,156𝑥−5,974

1.3

Kadar Air Metabisulfit

𝑦 =

1,003

1 + 𝑒

1,005(𝑥−2,388)

R

2

= 0,999

Turunan Pertama

𝑑𝑦

𝑑𝑥 =

a

v =

a

. v − a. v

𝑣

2

a= 1,003

a’= 0

𝑣 = 1 + 𝑒

1,005(𝑥−2,388)

𝑣 = 1 + 𝑒

1,005𝑥−2,399

𝑣

= 1,005𝑒

1,005𝑥−2,399

y

=

𝑎

. 𝑣 − 𝑎. 𝑣

𝑣

2

y

=

−1,003.1,005𝑒

(1 + 𝑒

1,005𝑥−2,3991,005𝑥−2,399

)

2

y

=

−1,008𝑒

1,005𝑥−2,399

1 + 2𝑒

1,005𝑥−2,399

+ 𝑒

2(1,005𝑥−2.399)

y

=

−1,008𝑒

1,005𝑥−2,399
(26)

1.4

Kadar Air Asam Askorbat

𝑦 =

1 + 𝑒

0,862(𝑥−2,514)

1,035

R

2

= 0,998

Turunan Pertama

𝑑𝑦

𝑑𝑥 =

a

v =

a

. v − a. v

𝑣

2

a= 1,035

a’= 0

𝑣 = 1 + 𝑒

0,862(𝑥−2,514)

𝑣 = 1 + 𝑒

0,862𝑥−2,167

𝑣

= 0,862𝑒

0,862𝑥−2,167

y

=

𝑎

. 𝑣 − 𝑎. 𝑣

𝑣

2

y

=

−1,035.0,862𝑒

(1 + 𝑒

0,862𝑥−2,1670,862𝑥−2,167

)

2

y

=

−0,892𝑒

0,862𝑥−2,167

1 + 2𝑒

0,862𝑥−2,167

+ 𝑒

2(0,862𝑥−2,167)

y

=

−0,892𝑒

0,862𝑥−2,167

1 + 2𝑒

0,862𝑥−2,167

+ 𝑒

1,724𝑥−4,334

2 Tekstur

2.1 Tekstur Kontrol

𝑦 =

27692,33

1 + 𝑒

−0,2672(𝑥−13,4994)

R

2

= 0,993

Turunan Pertama

𝑑𝑦

𝑑𝑥 =

a

v =

a

. v − a. v

𝑣

2

a= 27692.33

a’= 0

𝑣 = 1 + 𝑒

−0,267(𝑥−13,499)

𝑣 = 1 + 𝑒

−0,267𝑥+3,604

𝑣

= −0,267𝑒

−0,267𝑥+3,604

y

=

𝑎

. 𝑣 − 𝑎. 𝑣

𝑣

2

y

=

−27692,33. −0,267𝑒

(1 + 𝑒

−0,267𝑥+3,604−0,267𝑥+3,604

)

2

y

=

7393,85𝑒

−0,267𝑥+3,604

1 + 2𝑒

−0,267𝑥+3,604

+ 𝑒

2(−0,267𝑥+3,604)

y

=

7393,85𝑒

−0,267𝑥+3,604

1 + 2𝑒

−0,267𝑥+3,604

+ 𝑒

−0,534𝑥+7,208

2.2 Tekstur Blanching

𝑦 =

25682,24

1 + 𝑒

−0,272(𝑥−12,994)

R

2

= 0,997

Turunan Pertama

𝑑𝑦

𝑑𝑥 =

a

v =

a

. v − a. v

𝑣

2

a=

25682,24

a’= 0

𝑣 = 1 + 𝑒

−0,272(𝑥−12,994)

𝑣 = 1 + 𝑒

−0,272𝑥+3,534

𝑣

= −0,272𝑒

−0,272𝑥+3,534

y

=

𝑎

. 𝑣 − 𝑎. 𝑣

𝑣

2

y

=

−25682,24. −0,272𝑒

(1 + 𝑒

−0,272𝑥+3,534−0,272𝑥+3,534

)

2

y

=

6985,57𝑒

−0,272𝑥+3,534
(27)

y

=

7393,85𝑒

−0,267𝑥+3,604

1 + 2𝑒

−0,272𝑥+3,534

+ 𝑒

−0,544𝑥+7,068

2.3 Tekstur Metabisulfit

𝑦 =

1 + 𝑒

24879,24

0,285(𝑥−12,94)

R

2

= 0,997

Turunan Pertama

𝑑𝑦

𝑑𝑥

=

a

v

=

a

. v − a. v

𝑣

2

a=

24879,24

a’= 0

𝑣 = 1 + 𝑒

0,285(𝑥−12,94)

𝑣 = 1 + 𝑒

0,285𝑥−3,688

𝑣

= 0.285𝑒

0,285𝑥−3,688

y

=

𝑎

. 𝑣 − 𝑎. 𝑣

𝑣

2

y

=

−24879,24.0,285𝑒

(1 + 𝑒

0,285𝑥−3,6880,285𝑥−3,688

)

2

y

=

7090,58𝑒

0,285𝑥−3,688

1 + 2𝑒

0,285𝑥−3,688

+ 𝑒

2(0,285𝑥−3,688)

y

=

7090,58𝑒

0,285𝑥−3,688

1 + 2𝑒

0,285𝑥−3,688

+ 𝑒

0,57𝑥+7,376

2.4 Tekstur Askorbat

𝑦 =

1 + 𝑒

23286,17

0,287(𝑥−12,83)

R

2

= 0,996

Turunan Pertama

𝑑𝑦

𝑑𝑥 =

a

v =

a

. v − a. v

𝑣

2

a=

23286,17

a’= 0

𝑣 = 1 + 𝑒

0,287(𝑥−12,83)

𝑣 = 1 + 𝑒

0,287𝑥−1,058

𝑣

= 0.287𝑒

0,287𝑥−1,058

y

=

𝑎

. 𝑣 − 𝑎. 𝑣

𝑣

2

y

=

−23286.0,287𝑒

(1 + 𝑒

0,287𝑥−1,0580,287𝑥−1,058

)

2

y

=

6683,08𝑒

0,287𝑥−1,058

1 + 2𝑒

0,287𝑥−1,058

+ 𝑒

2(0,287𝑥−1,058)

y

=

6683,08𝑒

0,287𝑥−1,058

1 + 2𝑒

0,287𝑥−1,058

+ 𝑒

0,574𝑥−2,116

3.

AW

3.1

AW Kontrol

𝑦 =

0,977

1 + 𝑒

1,51(𝑥−4,302)

R

2

= 1

3.2

AW Blanching

𝑦 =

1,025

1 + 𝑒

1,046(𝑥−3,985)

R

2

= 0,999

3.3

AW Metabisulfit

𝑦 =

1,037

1 + 𝑒

1,094(𝑥−3,805)

R

2

= 0,994

(28)

𝑦 =

1 + 𝑒

0,925(𝑥−3,228)

1,084

R

2

= 0,996

4.

Rehidrasi

4.1

Rehidrasi Kontrol

𝑦 =

1 + 𝑒

1,51(𝑥−4,302)

0,977

R

2

= 1

4.2

Rehidrasi blanching

𝑦 =

1,025

1 + 𝑒

1,046(𝑥−3,985)

R

2

= 0,999

4.3

Rehidrasi Metabisulfit

𝑦 =

1,037

1 + 𝑒

1,094(𝑥−3,805)

R

2

= 0,994

4.4

Rehidrasi askorbat

𝑦 =

1,084

1 + 𝑒

0,925(𝑥−3,228)

R

2

= 0,996

5.

Warna L

5.1

Warna L Kontrol

𝑦 =

1 + 𝑒

0,174(𝑥−12,044)

90,091

R

2

= 1

5.2

Warna L Blanching

𝑦 =

1 + 𝑒

92,409

0,38(𝑥−4,282)

R

2

= 0,997

5.3

Warna L Metabisulfit

𝑦 =

1 + 𝑒

88,386

0,337(𝑥−6,779)

R

2

= 0,999

5.4

Warna L Askorbat

𝑦 =

1 + 𝑒

0,907(𝑥−2,837)

87,6

R

2

= 0,996

6.

Warna a*

6.1

Warna a* Kontrol

𝑦 =

5,144

1 + 𝑒

−1,43(𝑥−2,01)

R

2

= 0,998

6.2

Warna a* Blanching

𝑦 =

1 + 𝑒

−4,014(𝑥−2,572)

2,722

R

2

= 0,998

6.3

Warna a* Metabisulfit

𝑦 =

1 + 𝑒

−1,312(𝑥−3,471)

6,894

R

2

= 0,997

6.4

Warna a* askorbat

𝑦 =

20,859

1 + 𝑒

−1,388(𝑥−2,577)

R

2

= 0,987

7.

Warna b*

7.1

Warna b* Kontrol

𝑦 =

28,329

1 + 𝑒

−0,856(𝑥−0,361)

R

2

= 0,999

7.2

Warna b* Blanching

𝑦 =

1 + 𝑒

−0,458(𝑥−1,252)

31,616

(29)

7.3

Warna b* Metabisulfit

𝑦 =

30.014

1 + 𝑒

−0,806(𝑥−2,33)

R

2

= 0,998

7.4

Warna b* Askorbat

𝑦 =

1 + 𝑒

−0,271(𝑥−4,271)

35,126

(30)
(31)
(32)
(33)

Referensi

Dokumen terkait

[r]

Pemerintah daerah Indragiri Hilir dapat meningkatkan pendapatan asli daerah dengan cara lebih mengoptimalkan penerimaan dari retribusi dan pajak serta faktor dari pendapatan asli

Dalam penelitian ini perilaku manajerial yang dimaksudkan adalah perilaku yang berhubungan dengan penggunaan sistem informasi keuangan daerah dalam proses manajemen keputusan

analisis data kualitatif adalah upaya yang dilakukan dengan jalan. bekerja dengan data, mengorganisasikan data,

[r]

[r]

Sebelumnya, Pemerintah Pusat memang mengintervensi kebijakan pendidikan, sebagaimana yang terjadi sejak tahun 1872, dimana Pemerintah Pusat AS mengintervensi

Kesediaan dosen untuk menyelesaikan masalah yang dihadapi