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7. LAMPIRAN

Lampiran 1. Kurva Standar

Lampiran 2. Perhitungan

2.1. Persetase Recovery Kadmium (Cd)

2.2. Jumlah Logam Cd yang Terserap oleh Fraksi Terlarut

y = 1,4165x + 0,8673 R2= 0,971

y = 0,8673x + 1,4165 R² = 0,971

0 2 4 6 8 10 12

0 2 4 6 8 10 12

Series1

2.2.1. Konsentrasi 10%

2.2.1.1. Ukuran Partikel 40 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.2.1.2. Ukuran Partikel 80 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.2.1.3. Ukuran Partikel 100 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.2.2. Konsentrasi 15%

2.2.2.1. Ukuran Partikel 40 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.2.2.2. Ukuran Partikel 80 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.2.2.3. Ukuran Partikel 100 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.2.3. Konsentrasi 20%

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.2.2.2. Ukuran Partikel 80 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.2.2.3. Ukuran Partikel 100 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.2.4. Kontrol

2.2.4.1. Konsentrasi 10%

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.2.4.2. Konsentrasi 15%

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.2.4.3. Konsentrasi 20%

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.3. Jumlah Logam Cd yang Terserap oleh Fraksi Tidak Tidak Terlarut

y = 1,4165 + 0,8673x R2= 0,971

2.3.1. Konsentrasi 10%

2.3.1.1. Ukuran Partikel 40 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

Jumlah

2.3.1.2. Ukuran Partikel 80 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

× 0,86 × 5

Ulangan 5

2.3.1.3. Ukuran Partikel 100 mesh

Ulangan 1

8,63 × 0,86 × 5

Ulangan 2

Ulangan 3

Jumlah

Ulangan 4

Ulangan 5

2.3.2. Konsentrasi 15%

2.3.2.1. Ukuran Partikel 40 mesh

Ulangan 1

Ulangan 2

Jumlah

Ulangan 3

Ulangan 4

Ulangan 5

2.3.2.2. Ukuran Partikel 80 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.3.2.3. Ukuran Partikel 100 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

× 1,23 × 5

2.3.3. Konsentrasi 20%

2.3.3.1. Ukuran Partikel 40 mesh

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

6,55 × 1,68 × 5

Ulangan 5

2.3.3.2. Ukuran Partikel 80 mesh

Ulangan 1

8,4 × 1,62 × 5

Ulangan 2

Ulangan 3

= 67,79

Ulangan 4

Ulangan 5

2.3.3.3. Ukuran Partikel 100 mesh

Ulangan 1

Ulangan 2

,16

Ulangan 3

Ulangan 4

Ulangan 5

2.3.4. Kontrol

2.3.4.2.1. Konsentrasi 10%

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.3.4.2.2. Konsentrasi 15%

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

2.3.4.2.3. Konsentrasi 20%

Ulangan 1

Ulangan 2

Ulangan 3

Ulangan 4

Ulangan 5

Lampiran 3. Hasil Normalitas Data

3.1. Tabel Normalitas Fraksi Terlarut, Tidak Terlarut dan Total

Tests of Normal ity

Stat istic df Sig. Stat istic df Sig.

Kolmogorov -Smirnova Shapiro-Wilk

Stat istic df Sig. Stat istic df Sig.

Kolmogorov -Smirnova Shapiro-Wilk

This is a lower bound of t he true signif icance. *.

Lillief ors Signif icance Correct ion a.

3.2. Tabel Normalitas Kontrol (Terlarut, Tidak Terlarut dan Total)

Lampiran 4. Tabel Deskriptif Statistik

4.1. Tabel Deskriptif Statistik Fraksi Terlarut

Tests of Normali ty

Stat istic df Sig. Stat istic df Sig.

Kolmogorov -Smirnova Shapiro-Wilk

This is a lower bound of t he true signif icance. *.

4.2. Tabel Deskriptif Statistik Fraksi Tidak Terlarut

4.3. Tabel Deskriptif Statistik Fraksi Total

4.4. Tabel Deskriptif Statistik Kontrol (Fraksi Terlarut, Tidak Terlarut dan Total)

Descriptives

5 37.03900 .913540 .408548 35.90469 38.17331 35.832 38.002

5 13.23500 1.566150 .700404 11.29037 15.17963 10.564 14.574

5 7.76720 1.019355 .455869 6.50150 9.03290 6.334 8.820

15 19.34707 13.200600 3.408380 12.03682 26.65732 6.334 38.002

5 32.38040 .662887 .296452 31.55732 33.20348 31.425 33.224

5 57.93600 1.726478 .772105 55.79229 60.07971 56.232 60.400

5 79.01360 1.900449 .849907 76.65388 81.37332 76.463 81.410

15 56.44333 19.787218 5.109038 45.48554 67.40113 31.425 81.410

5 69.41960 1.305491 .583833 67.79862 71.04058 67.957 70.584

5 71.17080 1.773797 .793266 68.96834 73.37326 69.560 74.088

5 86.78060 2.670402 1.194240 83.46486 90.09634 82.797 89.289

15 75.79033 8.287203 2.139747 71.20103 80.37963 67.957 89.289

10% 15% 20% Total 10% 15% 20% Total 10% 15% 20% Total Terlarut

Tidak_Terlarut

Total

N Mean Std. Dev iat ion Std. Error Lower Bound Upper Bound 95% Conf idence Interv al f or

Mean

Minimum Maximum

5.1. Tabel Two-Way Anova Fraksi Terlarut

5.2. Tabel Two-Way Anova Fraksi Tidak Terlarut

Levene's Test of Equali ty of Error Variancesa

Dependent Variable: Terlarut

2.191 8 36 .052

F df 1 df 2 Sig.

Tests the null hy pothesis that the error v ariance of t he dependent v ariable is equal across groups.

Design:

Intercept+Konsentrasi+Mesh+Konsentrasi * Mesh a.

Tests of Between-Subjects Effects

Dependent Variable: Terlarut

2968.466a 8 371.058 26.789 .000

23763.158 1 23763.158 1715.615 .000

1457.793 2 728.896 52.624 .000

1060.421 2 530.211 38.279 .000

450.253 4 112.563 8.127 .000

498.640 36 13.851

27230.264 45

3467.106 44

Source

Corrected Model Intercept Konsentrasi Mesh

Konsentrasi * Mesh Error

Total

Corrected Total

Ty pe I II Sum

of Squares df Mean Square F Sig.

R Squared = . 856 (Adjusted R Squared = .824) a.

Levene's Test of Equali ty of Error Variancesa

Dependent Variable: Tidak_Terlarut

4.556 8 36 .001

F df 1 df 2 Sig.

Tests the null hy pothesis that the error v ariance of t he dependent v ariable is equal across groups.

Design:

5.3. Tabel Two-Way Anova Total

of Squares df Mean Square F Sig.

R Squared = . 988 (Adjusted R Squared = .985) a.

Levene's Test of Equali ty of Error Variancesa

Dependent Variable: Total

1.012 8 36 .444

F df 1 df 2 Sig.

Tests the null hy pothesis that the error v ariance of t he dependent v ariable is equal across groups.

Design:

of Squares df Mean Square F Sig.

Lampiran 6. Tabel Post Hoc

6.1. Tabel Post Hoc Fraksi Terlarut

Test of Homogeneity of Variances

Squares df Mean Square F Sig.

Terl arut

Means f or groups in homogeneous subset s are display ed. Based on Ty pe III Sum of Squares

The error t erm is Mean Square(Error) = 13.851. Uses Harmonic Mean Sample Size = 15.000. a.

6.2. Tabel Post Hoc Fraksi Tidak Terlarut

Means f or groups in homogeneous subset s are display ed. Based on Ty pe III Sum of Squares

The error t erm is Mean Square(Error) = 13.851. Uses Harmonic Mean Sample Size = 15.000. a.

Means f or groups in homogeneous subset s are display ed. Based on Ty pe III Sum of Squares

The error t erm is Mean Square(Error) = 5.930.

Uses Harmonic Mean Sample Size = 15.000. a.

Means f or groups in homogeneous subsets are display ed. Based on Ty pe III Sum of Squares

The error term is Mean Square(Error) = 5.930.

Uses Harmonic Mean Sample Size = 15.000. a.

6.4. Tabel Post Hoc Kontrol (Fraksi Terlarut)

Means f or groups in homogeneous subset s are display ed. Based on Ty pe III Sum of Squares

The error t erm is Mean Square(Error) = 21.021.

Uses Harmonic Mean Sample Size = 15.000. a.

Means f or groups in homogeneous subset s are display ed. Based on Ty pe III Sum of Squares

The error t erm is Mean Square(Error) = 21.021.

Uses Harmonic Mean Sample Size = 15.000. a.

Means f or groups in homogeneous subset s are display ed.

6.6. Tabel Post Hoc Kontrol (Fraksi Total)

Tidak_Terlarut

Duncana

5 33.2300

5 52.6600

5 78.3840

1.000 1.000 1.000

Konsentrasi 10% 15% 20% Sig.

N 1 2 3

Subset f or alpha = .05

Means f or groups in homogeneous subset s are display ed.

Uses Harmonic Mean Sample Size = 5.000. a.

Total

Duncana

5 63.6740

5 71.0860

5 90.5500

1.000 1.000 1.000

Konsentrasi 10% 15% 20% Sig.

N 1 2 3

Subset f or alpha = .05

Means f or groups in homogeneous subset s are display ed.