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Simpulan SIMPULAN DAN SARAN

deltakontinu[i] = N[talphaperduaspkontinu[i] Sqrt[1n1 + 1n2]]; thkontinu[i] = N[xmean[1, i] - xmean[2, i] - Subscript[ , 1] - Subscript[ , 2]spkontinu[i]Sqrt[1n1 + 1n2]]; deltarerata[i] = Abs[xmean[1, i] - xmean[2, i]]; batasatas[i] = deltarerata[i] + deltakontinu[i]; batasbawah[i] = deltarerata[i] - deltakontinu[i]; keputusankontinuTrue[i] = If[batasbawah[i] Subscript[ , 1] - Subscript[, 2] batasatas[i], True, False]; keputusankontinuFalse[i] = If[batasbawah[i] Subscript[ , 1] - Subscript[, 2] || Subscript[ , 1] - Subscript[, 2] batasatas[i], False, True]}] reratagalat=Mean[Array[deltakontinu,q]]; dalamkontinu=Count[Array[keputusankontinuTrue,q],True]; luarkontinu=Count[Array[keputusankontinuFalse,q],False]; reratathkontinu=Mean[Array[thkontinu,q]]; reratabatasatas=Mean[Array[batasatas,q]]; reratabatasbawah=Mean[Array[batasbawah,q]]; Masing-masing 1000 pasangan contoh data kontinu dikonversi ke data kategori berukuran 2 sampai 15. Kemudian masing-masing pasangan data kategori dilakukan uji nilai tengah. For[j=1,j 2,j++,For[l=1,lq,l++,For[kategorimin=2,kategoriminkategorimaks,kategorimin++,For [k=1,k kategorimin,k++,bbkelas[j,l,kategorimin,1]=0]]]] For[j = 1, j = 2, j++, For[l = 1, l = q, l++, For[kategorimin = 2, kategorimin = kategorimaks, kategorimin++, For[k = 1, k = kategorimin, k++, selisih[j, l, kategorimin, k] = N[100kategorimin, 4]]]]]; For[j=1,j 2,j++,For[l=1,lq,l++,For[kategorimin=2,kategoriminkategorimaks,kategorimin++,For [k=1,k kategorimin,k++,{bakelas[j,l,kategorimin,k]=bbkelas[j,l,kategorimin,k]+selisih[j,l,kategori min,k]+0.0005,bbkelas[j,l,kategorimin,k+1]=bakelas[j,l,kategorimin,k]}]]]]; For[j=1,j 2,j++,For[l=1,lq,l++,For[kategorimin=2,kategoriminkategorimaks,kategorimin++,For [k=1,k kategorimin,k++,fkelas[j,l,kategorimin,k]=Length[Select[contoh[j,l],bbkelas[j,l,kategorimi n,k]  bakelas[j,l,kategorimin,k]]]]]]] For[j = 1, j = 2, j++, For[l = 1, l = q, l++, For[kategorimin = 2, kategorimin = kategorimaks, kategorimin++, jumlahfkelas[j, l, kategorimin] = Sum[fkelas[j, l, kategorimin, k], {k, 1, kategorimin}]]]] For[j=1,j 2,j++,For[l=1,lq,l++,For[kategorimin=2,kategoriminkategorimaks,kategorimin++,For [k=1,k kategorimin,k++,xtengah[j,l,kategorimin,k]=12 bbkelas[j,l,kategorimin,k]+bakelas[j,l,kategorimin,k]]]]] For[j = 1, j = 2, j++, For[l = 1, l = q, l++, For[kategorimin = 2, kategorimin = kategorimaks, kategorimin++, For[k = 1, k = kategorimin, k++,xmean[j, l, kategorimin] = N[Sum[xtengah[j, l, kategorimin, p]fkelas[j, l, kategorimin, p], {p, 1, kategorimin}]Sum[fkelas[j, l, kategorimin, p], {p, 1, kategorimin}]]]]]] For[j = 1, j = 2, j++, For[l = 1, l = q, l++, For[kategorimin = 2, kategorimin = kategorimaks, kategorimin++, For[k = 1, k = kategorimin, k++,{ragam[j, l, kategorimin] = N[1Sum[fkelas[j, l, kategorimin, p], {p, 1, kategorimin}] - 1 Sum[fkelas[j, l, kategorimin, p]xtengah[j, l, kategorimin, p] - xmean[j, l, kategorimin]2, {p, 1, kategorimin}]]}]]]] For[j=1,j 2,j++,For[l=1,lq,l++,For[kategorimin=2,kategoriminkategorimaks,

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