Lampiran 2. Metode Analisa Kimiawi. 2.1 Uji Kadar Air 35

Lampiran 2. Metode Analisa Kimiawi 2.1 Uji Kadar Air 35 3 gram dalam cawan porselin yang Sampel yang telah dihaluskan ditimbang sebanyak telah diketahui berat konstannya. Lalu sampel dikeringkan dalam oven pada suhu 1001050C selama 3-5 jam kemudian didinginkan dalam desikator dan ditimbang sampai beratnya konstan (Sudarmadji et al., 1989). Perhitungan : Kadar air =

Berat air

x 100%

Berat sampel 2.2 Analisa Protein (Metoda Kjeldahl) Sampel ditimbang sebanyak 0,25 gram dan dimasukkan ke dalam labu Kjeldahl dengan ditambahkan 7,5 gram K2SO4; 0,35 gram HgO dan 15 ml H2SO4 pekat. Campuran adonan tersebut kemudian dipanaskan dalam ruang asam sampai larutan jernih. Setelah larutan jernih, larutan tersebut kemudian didinginkan dan dipindahkan ke labu destilasi, sambil dibilas dengan 100 ml aquadest dingin. Dan ditambahkan 0,2- 0,25 gram Zn; 15 ml Na2S2O3 4% dan 50 ml NaOH 50% dingin. Setelah itu, sebanyak 50 ml HCl 0,1N dimasukkan ke dalam erlenmeyer 100 ml dan dilakukan destilasi sampai tertampung 75 ml. Kedalam larutan ditambahkan indikator metil red dan dilakukan titrasi dengan NaOH 0,1N sampai berwarna kuning. Kemudian dihitung % protein dan dimasukkan dalam tabel pengamatan (Sudarmadji et al., 1989). Perhitungan : %N

=

ml NaOH ( blanko – sampel ) x N. NaOH x 14,008 x 100% W sampel ( g ) x 1000

% Protein = % N x Faktor konversi Keterangan : W sampel : berat sampel N NaOH : 0,1 Faktor konversi tepung terigu : 5,7 Faktor konversi koro benguk : 6,25

2.3 Uji Kadar Lemak (Metode Soxhlet) 2 gr sampel ditimbang lalu dibungkus dengan kertas saring yang telah diketahui beratnya. Kemudian sampel dimasukkan dalam labu soxhlet, ditambah dengan pelarut eter sampai 1/3 bagian labu lalu diekstraksi selama 4 jam. Sampel lalu dikeringkan dalam oven kemudian ditimbang (Sudarmadji et al., 1989). Perhitungan : Kadar lemak =

Berat lemak

x 100%

Berat sampel 2.4 Uji Kadar Serat Kasar Sampel yang telah diekstrak lemaknya dimasukkan dalam erlenmeyer dan ditambahkan anti buih dan batu didih. kemudian ditambahkan H2SO4 0,25 N sebanyak 200 ml dan dididihkan 30 menit. Residu yang terbentuk disaring dan dicuci dengan 200 ml akuades panas. Residu yang terbentuk dimasukkan dalam erlenmeyer dengan ditambahkan NaOH 0,25 N sebanyak 200 ml dan dididihkan kembali 30 menit. Residu disaring kembali dengan kertas saring yang telah diketahui beratnya. Lalu residu dicuci dengan 100 ml aquades panas dan 15 ml alkohol 95%. Kertas saring dikeringkan dan ditimbang sampai berat konstan (Sudarmadji et al., 1989). Perhitungan : Berat residu = berat serat kasar Kadar serat kasar = Berat serat kasar

x 100%

Berat sampel 2.5 Uji Kadar Abu Sampel yang telah dihaluskan ditimbang sebanyak 2 gr dalam cawan porselin yang telah diketahui berat konstannya. Sampel tadi diabukan dalam tanur pada suhu 5500C selama 3-5 jam, kemudian didinginkan dalam oven dan dimasukkan dalam desikator lalu ditimbang sampai beratnya konstan (Sudarmadji et al., 1989).

Perhitungan : Berat residu = berat abu Kadar abu =

Berat abu

x 100%

Berat sampel 2.6 Uji Kadar Karbohidrat Dengan menggunakan metode by diffrerence, yaitu dengan mengurangkan 100% bahan dengan kadar air, kadar abu, kadar lemak, dan kadar protein bahan yang telah diketahui sebelumnya (Nielsen, 1998). Perhitungan : Carbohydrate by difference = 100% - (%air + %abu + %lemak + %protein)

Lampiran 3. Analisa Data Pengembangan Puff Pastry Descriptives PENGEMB

N

kontrol 5% 10% 15% Total

15 15 15 15 60

Mean Std. Deviation Std. Error 686.5000 91.2197 23.5528 455.7500 51.1449 13.2056 321.1667 51.1769 13.2138 253.6667 23.1333 5.9730 429.2708 176.5078 22.7871

95% Confidence Interval for Mean Lower Bound Upper Bound Minimum Maximum 635.9842 737.0158 538.75 857.50 427.4269 484.0731 362.50 525.00 292.8258 349.5075 233.75 392.50 240.8559 266.4775 212.50 291.25 383.6740 474.8676 212.50 857.50

Test of Homogeneity of Variances PENGEMB Levene Statistic 5.000

df1

df2 3

Sig. .004

56

ANOVA PENGEMB

Between Groups Within Groups Total

Sum of Squares 1640870 197274.8 1838145

df 3 56 59

Mean Square 546956.623 3522.764

F 155.263

PENGEMB Duncan

a

PERLKN 15% 10% 5% kontrol Sig.

N 15 15 15 15

1 253.6667

Subset for alpha = .05 2 3

4

321.1667 455.7500 1.000

1.000

1.000

Means for groups in homogeneous subsets are displayed. a. Uses Harmonic Mean Sample Size = 15.000.

686.5000 1.000

Sig. .000

Lampiran 4. Analisa Data Hardness Puff Pastry Descriptives HARDNESS

N


Mean Std. Deviation Std. Error .2940 9.800E-02 2.530E-02 1.1107 .1877 4.845E-02 1.5092 .1918 4.951E-02 2.0253 .4651 .1201 1.2348 .6911 8.922E-02

15 15 15 15 60

95% Confidence Interval for Mean Lower Bound Upper Bound Minimum Maximum .2397 .3483 .20 .49 1.0067 1.2146 .69 1.37 1.4030 1.6154 1.27 1.86 1.7678 2.2829 1.47 2.94 1.0563 1.4133 .20 2.94

Test of Homogeneity of Variances HARDNESS Levene Statistic 13.596

df1

3

df2

Sig. .000

56

ANOVA HARDNESS


Sum of Squares 24.011 4.171 28.182

df 3 56 59

Mean Square 8.004 7.448E-02

F 107.467

HARDNESS Duncan

a

PERLKN kontrol 5% 10% 15% Sig.

N 15 15 15 15

1 .2940


4

1.1107 1.5092 1.000

1.000

1.000

Means for groups in homogeneous subsets are displayed. a. Uses Harmonic Mean Sample Size = 15.000.

2.0253 1.000

Sig. .000

Lampiran 5. Analisa Data Kadar Air Puff Pastry Descriptives AIR

N


Mean 10,3205 9,9969 9,7101 8,1213 9,5372

9 9 9 9 36

95% Confidence Interval for Mean Std. Deviation Std. Error Lower Bound Upper Bound Minimum Maximum ,24187 ,08062 10,1346 10,5065 10,13 10,92 ,27850 ,09283 9,7829 10,2110 9,71 10,66 ,12443 ,04148 9,6145 9,8058 9,50 9,84 ,18766 ,06255 7,9771 8,2656 7,87 8,44 ,88205 ,14701 9,2388 9,8357 7,87 10,92

Test of Homogeneity of Variances AIR Levene Statistic ,501

df1

df2 3

Sig. ,684

32

ANOVA AIR Sum of Squares 25,737 1,494 27,231


df 3 32 35

Mean Square 8,579 ,047

F 183,742

AIR Duncan

a

PERLAKN 15% 10% 5% kontrol Sig.

N 9 9 9 9

1 8,1213


4

9,7101 9,9969 1,000

1,000

1,000

Means for groups in homogeneous subsets are displayed. a. Uses Harmonic Mean Sample Size = 9,000.

10,3205 1,000

Sig. ,000

Lampiran 6. Analisa Data Kandungan Protein Puff Pastry Descriptives PROTEIN

N


Mean 9,3405 11,5542 13,6032 16,5547 12,7632

9 9 9 9 36

95% Confidence Interval for Mean Std. Deviation Std. Error Lower Bound Upper Bound Minimum Maximum ,20025 ,06675 9,1865 9,4944 8,87 9,47 ,35453 ,11818 11,2817 11,8267 11,13 12,17 ,38338 ,12779 13,3085 13,8979 12,95 14,26 ,26237 ,08746 16,3531 16,7564 16,22 16,91 2,71175 ,45196 11,8456 13,6807 8,87 16,91

Test of Homogeneity of Variances PROTEIN Levene Statistic 1,360

df1

df2 3

Sig. ,272

32

ANOVA PROTEIN Sum of Squares 254,323 3,053 257,376


df 3 32 35


F 888,594

PROTEIN Duncan

a

PERLAKN kontrol 5% 10% 15% Sig.

N 9 9 9 9

1 9,3405


4

11,5542 13,6032 1,000

1,000

1,000


16,5547 1,000

Sig. ,000

Lampiran 7. Analisa Data Kandungan Lemak Puff Pastry Descriptives LEMAK

N


Mean 30,1388 28,0520 26,1921 24,9875 27,3426

9 9 9 9 36

95% Confidence Interval for Mean Std. DeviationStd. ErrorLower BoundUpper Bound Minimum Maximum ,81540 ,27180 29,5120 30,7655 29,03 31,40 1,45983 ,48661 26,9299 29,1741 26,06 30,45 ,44145 ,14715 25,8528 26,5315 25,34 26,86 ,28321 ,09440 24,7698 25,2052 24,68 25,45 2,14673 ,35779 26,6162 28,0689 24,68 31,40

Test of Homogeneity of Variances LEMAK Levene Statistic 8,448

df1

3

df2

Sig. ,000

32

ANOVA LEMAK Sum of Squares 136,727 24,569 161,296


df 3 32 35


F 59,362

LEMAK Duncan

a


N 9 9 9 9

1 24,9875


4

26,1921 28,0520 1,000

1,000

1,000


30,1388 1,000

Sig. ,000

Lampiran 8. Analisa Data Kandungan Serat KasarPuff Pastry Descriptives SERAT

N


Mean Std. Deviation Std. Error ,5306 ,05755 ,01918 1,8021 ,14246 ,04749 2,4458 ,10113 ,03371 2,7833 ,20494 ,06831 1,8905 ,88270 ,14712

9 9 9 9 36

95% Confidence Interval for Mean Lower Bound Upper Bound Minimum Maximum ,4864 ,5748 ,44 ,61 1,6926 1,9116 1,63 2,03 2,3681 2,5236 2,32 2,63 2,6258 2,9408 2,51 3,11 1,5918 2,1891 ,44 3,11

Test of Homogeneity of Variances SERAT Levene Statistic 5,570

df1

df2 3

Sig. ,003

32

ANOVA SERAT Sum of Squares 26,664 ,607 27,270


df 3 32 35


F 468,810

SERAT Duncan

a


N 9 9 9 9

1 ,5306


4

1,8021 2,4458 1,000

1,000

1,000


2,7833 1,000

Sig. ,000

Lampiran 9. Analisa Kadar Abu Puff Pastry Descriptives ABU

N kontrol 5% 10% 15% Total

Mean Std. Deviation Std. Error 1,0328 ,18568 ,06189 2,5847 ,14996 ,04999 3,0708 ,11863 ,03954 3,2419 ,12124 ,04041 2,4826 ,89442 ,14907

9 9 9 9 36

95% Confidence Interval for Mean Lower Bound Upper Bound Minimum Maximum ,8901 1,1756 ,85 1,34 2,4695 2,7000 2,36 2,85 2,9797 3,1620 2,93 3,25 3,1487 3,3351 3,04 3,37 2,1800 2,7852 ,85 3,37

Test of Homogeneity of Variances ABU Levene Statistic ,876

df1

df2 3

Sig. ,464

32

ANOVA ABU Sum of Squares 27,314 ,686 28,000


df 3 32 35


F 424,769

ABU Duncan

a


N 9 9 9 9

1 1,0328


4

2,5847 3,0708 1,000

1,000

1,000


3,2419 1,000

Sig. ,000

Lampiran 10. Analisa Data Kandungan Karbohidrat Puff Pastry

Descriptives KARBOHDT

N


Mean 49,1674 47,8121 47,4237 47,0945 47,8744

9 9 9 9 36

95% Confidence Interval for Mean Std. Deviation Std. Error Lower Bound Upper Bound Minimum Maximum ,71152 ,23717 48,6205 49,7143 48,24 50,27 1,35101 ,45034 46,7736 48,8506 45,68 49,80 ,69799 ,23266 46,8872 47,9602 46,26 48,72 ,35182 ,11727 46,8241 47,3650 46,48 47,54 1,14546 ,19091 47,4869 48,2620 45,68 50,27

Test of Homogeneity of Variances KARBOHDT Levene Statistic 3,639

df1

3

df2

Sig. ,023

32

ANOVA KARBOHDT Sum of Squares 22,383 23,540 45,923


df 3 32 35


KARBOHDT a

Duncan


N 9 9 9 9

Subset for alpha = .05 1 2 47,0945 47,4237 47,8121 49,1674 ,102 1,000


F 10,143

Sig. ,000

Lampiran 11. Analisa Data Uji Sensoris Warna Puff Pastry

Case Processing Summary

PERLKN * WARNA

Cases Missing N Percent 0 .0%

Valid N Percent 120 100.0%

N

Total Percent 120 100.0%

PERLKN * WARNA Crosstabulation WARNA

PERLKN 0% 5% 10% 15% Total

tidak suka sekali tidak suka Count 1 3 % of Total .8% 2.5% Count 4 % of Total 3.3% Count 4 12 % of Total 3.3% 10.0% Count 4 19 % of Total 3.3% 15.8% Count 9 38 % of Total 7.5% 31.7%

suka suka sekali 10 8 8.3% 6.7% 11 12 9.2% 10.0% 9 2 7.5% 1.7% 6 1 5.0% .8% 36 23 30.0% 19.2%

Chi-Square Tests

Pearson Chi-Square Likelihood Ratio Linear-by-Linear Association N of Valid Cases

Value 48.484a 53.946 33.647

df

12 12

Asymp. Sig. (2-sided) .000 .000

1

.000

120

a. 8 cells (40.0%) have expected count less than 5. The minimum expected count is 2.25.

sangat suka sekali 8 6.7% 3 2.5% 3 2.5%

14 11.7%

Total 30 25.0% 30 25.0% 30 25.0% 30 25.0% 120 100.0%

Lampiran 12. Analisa Data Uji Sensoris Aroma Puff Pastry

Case Processing Summary

PERLKN * AROMA



N

Total Percent 120 100.0%

PERLKN * AROMA Crosstabulation AROMA


Count % of Total Count % of Total Count % of Total Count % of Total Count % of Total

tidak suka sekali tidak suka 7 5.8% 4 3.3% 8 6.7% 1 13 .8% 10.8% 1 32 .8% 26.7%

suka 9 7.5% 17 14.2% 18 15.0% 12 10.0% 56 46.7%

Chi-Square Tests


Value 24.955a 28.143 14.835

12 12


1

.000

df

120

a. 8 cells (40.0%) have expected count less than 5. The minimum expected count is .25.

suka sekali 8 6.7% 5 4.2% 4 3.3% 4 3.3% 21 17.5%

sangat suka sekali 6 5.0% 4 3.3%

10 8.3%

Total 30 25.0% 30 25.0% 30 25.0% 30 25.0% 120 100.0%

Lampiran 13. Analisa Data Uji Sensoris Tekstur Puff Pastry

Case Processing Summary Cases Missing N Percent 0 .0%

Valid N

PERLKN * TEKSTUR

Percent 100.0%

120

Total N

120

Percent 100.0%

PERLKN * TEKSTUR Crosstabulation TEKSTUR

PERLKN

0% 5% 10% 15%

Total


tidak suka sekali 1 .8%

1 .8% 5 4.2% 7 5.8%

tidak suka 4 3.3% 5 4.2% 9 7.5% 12 10.0% 30 25.0%

suka 10 8.3% 12 10.0% 14 11.7% 9 7.5% 45 37.5%

suka sekali 10 8.3% 11 9.2% 4 3.3% 4 3.3% 29 24.2%

Chi-Square Tests


Value 26.770a 28.169 19.169

12 12


1

.000

df

120


sangat suka sekali 5 4.2% 2 1.7% 2 1.7%

9 7.5%

Total 30 25.0% 30 25.0% 30 25.0% 30 25.0% 120 100.0%

Lampiran 14. Analisa Data Uji Sensoris Kerenyahan Puff Pastry Case Processing Summary

PERLKN * RENYAH



Total N 120

Percent 100.0%

PERLKN * RENYAH Crosstabulation RENYAH


tidak suka sekali tidak suka Count 1 9 % of Total .8% 7.5% Count 10 % of Total 8.3% Count 2 8 % of Total 1.7% 6.7% Count 4 14 % of Total 3.3% 11.7% Count 7 41 % of Total 5.8% 34.2%

suka 8 6.7% 10 8.3% 11 9.2% 8 6.7% 37 30.8%

Chi-Square Tests


Value 15.314a 16.925 7.298

12 12


1

.007

df

120


suka sekali 7 5.8% 8 6.7% 8 6.7% 2 1.7% 25 20.8%

sangat suka sekali 5 4.2% 2 1.7% 1 .8% 2 1.7% 10 8.3%

Total 30 25.0% 30 25.0% 30 25.0% 30 25.0% 120 100.0%

Lampiran 15. Analisa Data Uji Sensoris Rasa Puff Pastry Case Processing Summary Cases Missing N Percent 0 .0%

Valid N

PERLKN * RASA

Percent 100.0%

120

Total N

120

Percent 100.0%

PERLKN * RASA Crosstabulation RASA


tidak suka sekali tidak suka Count 2 1 % of Total 1.7% .8% Count 5 % of Total 4.2% Count 2 8 % of Total 1.7% 6.7% Count 5 9 % of Total 4.2% 7.5% Count 9 23 % of Total 7.5% 19.2%

suka suka sekali 13 8 10.8% 6.7% 13 7 10.8% 5.8% 15 5 12.5% 4.2% 13 2 10.8% 1.7% 54 22 45.0% 18.3%

Chi-Square Tests


Value 25.113a 31.313 18.296

12 12


1

.000

df

120


sangat suka sekali 6 5.0% 5 4.2%

1 .8% 12 10.0%

Total 30 25.0% 30 25.0% 30 25.0% 30 25.0% 120 100.0%

Lampiran 16. Analisa Data Uji Sensoris Kesukaan Puff Pastry Case Processing Summary Cases Missing N Percent 0 .0%

Valid N

PERLKN * KESUKAAN

120

Percent 100.0%

Total N 120

Percent 100.0%

PERLKN * KESUKAAN Crosstabulation KESUKAAN



tidak suka sekali tidak suka 4 3.3% 3 2.5% 1 8 .8% 6.7% 6 9 5.0% 7.5% 7 24 5.8% 20.0%

suka suka sekali 10 7 8.3% 5.8% 13 10 10.8% 8.3% 16 4 13.3% 3.3% 12 2 10.0% 1.7% 51 23 42.5% 19.2%

Chi-Square Tests


Value 37.738a 37.304 26.354

12 12


1

.000

df

120


sangat suka sekali 9 7.5% 4 3.3% 1 .8% 1 .8% 15 12.5%

Total 30 25.0% 30 25.0% 30 25.0% 30 25.0% 120 100.0%

Lampiran 2. Metode Analisa Kimiawi. 2.1 Uji Kadar Air 35

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