Phonetic and Phonological Aspects of Civili Vowel Duration: An experimental approach (titre original)

Phonetic and Phonological Aspects of Civili Vowel Duration: An experimental approach (titre original) H Steve Ndinga-Koumba-Binza To cite this version: H Steve Ndinga-Koumba-Binza. Phonetic and Phonological Aspects of Civili Vowel Duration: An experimental approach (titre original). Linguistics. Université de Stellenbosch, 2007. English. <tel- 00851023> HAL Id: tel-00851023 https://tel.archives-ouvertes.fr/tel-00851023 Submitted on 11 Aug 2013 HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d enseignement et de recherche français ou étrangers, des laboratoires publics ou privés.

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9 $ @;7 % 0 0I0 +! #F 6 9 )40K #I* Repeated Measures Analysis of Variance (Spreadsheet13 in results.stw Sigma-restricted parameterization Effective hypothesis decomposition SS Degr. of MS F p Effect Freedom Intercept Error CONTEXT Error POS Error CONTEXT*POS Error 0.328066 0.024389 0.000983 0.001527 0.001075 0.000452 0.000041 0.000473 1 0.328066 40.35393 0.007892 3 0.008130 2 0.000492 1.93140 0.225141 6 0.000254 2 0.000538 7.14051 0.025893 6 0.000075 4 0.000010 0.26055 0.897603 12 0.000039 dependent variables: a(c_c)(isolation) a(c_c)(object) a(c_c)(subject) a(c_l)(isolation) a(c_l)(object) a(c_l)(subject) a(c_n)(isolation) a(c_n)(object) a(c_n)(subject) 0IJ DV_1 0.22 0.20 0.18 0.16 0.14 0.12 0.10 0.08 0.06 0.04 0.02 0.00-0.02 &R! POS; LS Means Current effect: F(2, 6)=7.1405, p=.02589 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 1 2 3 POS :;<:8=755<:>)49#''$ 226

0IK &R! )40K #I* POS; LS Means (Spreadsheet13 in results.stw) Current effect: F(2, 6)=7.1405, p=.02589 Effective hypothesis decomposition POS DV_1 DV_1 DV_1 DV_1 N Cell No. Mean Std.Err. -95.00% +95.00% 1 2 3 1 0.103083 0.021937 0.033270 0.172896 4 2 0.092760 0.028136 0.003219 0.182302 4 3 0.090542 0.028235 0.000686 0.180397 4 0IL '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw) Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00008, df = 6.0000 POS {1} {2} {3} Cell No..10308.09276.09054 1 1 0.060627 0.028430 2 2 0.060627 0.811773 3 3 0.028430 0.811773 0IM Cell No. 3 2 1 '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw Homogenous Groups, alpha =.05000 Error: Within MSE =.00008, df = 6.0000 POS DV_1 1 2 Mean 3 0.090542 **** 2 0.092760 **** **** 1 0.103083 **** :;<:8=755<:>)49#''$ 227

J JI0 +! #F 6 9 )40K #I* Repeated Measures Analysis of Variance (Spreadsheet13 in results.stw) Sigma-restricted parameterization Effective hypothesis decomposition Effect Intercept Error CONTEXT Error POS Error CONTEXT*POS Error dependent variabe(c_c)(isolation) e(c_c)(object) e(c_c)(subject) e(c_l)(isolation) e(c_l)(object) e(c_l)(subject) e(c_n)(isolation) e(c_n)(object) e(c_n)(subject) JIJ 0.20 0.18 0.16 0.14 0.12 &'2'R! SS Degr. of Freedom MS F p 0.303890 1 0.303890 54.02254 0.005205 0.016876 3 0.005625 0.001959 2 0.000979 24.38240 0.001315 0.000241 6 0.000040 0.000812 2 0.000406 3.05168 0.121825 0.000799 6 0.000133 0.000575 4 0.000144 1.66010 0.223320 0.001039 12 0.000087 CONTEXT; LS Means Current effect: F(2, 6)=24.382, p=.00132 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals DV_1 0.10 0.08 0.06 0.04 0.02 0.00 1 2 3 CONTEXT :;<:8=755<:>)49#''$ 228

JIK &'2'R! )40K #I* CONTEXT; LS Means (Spreadsheet13 in results.stw) Current effect: F(2, 6)=24.382, p=.00132 Effective hypothesis decomposition CONTEXT DV_1 DV_1 DV_1 DV_1 N Cell No. Mean Std.Err. -95.00% +95.00% 1 2 3 1 0.085464 0.021742 0.016271 0.154658 4 2 0.087958 0.021225 0.020410 0.155507 4 3 0.102208 0.022431 0.030823 0.173593 4 JIL '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw) Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00004, df = 6.0000 CONTEXT {1} {2} {3} Cell No..08546.08796.10221 1 1 0.623824 0.001755 2 2 0.623824 0.003778 3 3 0.001755 0.003778 JIM Cell No. 1 2 3 '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw Homogenous Groups, alpha =.05000 Error: Within MSE =.00004, df = 6.0000 CONTEXT DV_1 1 2 Mean 1 0.085464 **** 2 0.087958 **** 3 0.102208 **** :;<:8=755<:>)49#''$ 229

K KI0 +! #F 6 9 )40K #I* Repeated Measures Analysis of Variance (Spreadsheet13 in results.stw) Sigma-restricted parameterization Effective hypothesis decomposition Effect Intercept Error CONTEXT Error POS Error CONTEXT*POS Error SS Degr. of Freedom MS F p 1.353527 1 1.353527 178.0409 0.000910 0.022807 3 0.007602 0.051258 4 0.012814 35.9861 0.000001 0.004273 12 0.000356 0.004729 2 0.002364 5.4271 0.045116 0.002614 6 0.000436 0.002747 8 0.000343 2.0977 0.076815 0.003928 24 0.000164 dependent variables: ee(cg_c)(isolation) ee(cg_c)(object) ee(cg_c)(subject) ee(c_c)(isolation) ee(c_c)(object) ee(c_c)(subject) ee(c_l)(isolation) ee(c_l)(object) ee(c_l)(subject) ee(c_n)(isolation) ee(c_n)(object) ee(c_n)(subject) ee(c_nc)(isolation) ee(c_nc)(object) ee(c_nc)(subject) KIJ 0.30 &'2'R! CONTEXT; LS Means Current effect: F(4, 12)=35.986, p=.00000 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 0.25 0.20 DV_1 0.15 0.10 0.05 0.00 1 2 3 4 5 CONTEXT :;<:8=755<:>)49#''$ 230

KIK &'2'R! )40K #I* CONTEXT; LS Means (Spreadsheet13 in results.stw) Current effect: F(4, 12)=35.986, p=.00000 Effective hypothesis decomposition CONTEXT DV_1 DV_1 DV_1 DV_1 N Cell No. Mean Std.Err. -95.00% +95.00% 1 2 3 4 5 1 0.099500 0.015188 0.051165 0.147835 4 2 0.143208 0.026282 0.059567 0.226849 4 3 0.188458 0.026544 0.103984 0.272933 4 4 0.159917 0.019537 0.097741 0.222093 4 5 0.159896 0.015779 0.109679 0.210113 4 KIL '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw) Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00036, df = 12.000 CONTEXT {1} {2} {3} {4} {5} Cell No..09950.14321.18846.15992.15990 1 1 0.000925 0.000152 0.000181 0.000181 2 2 0.000925 0.000708 0.254812 0.255800 3 3 0.000152 0.000708 0.020712 0.020617 4 4 0.000181 0.254812 0.020712 1.000000 5 5 0.000181 0.255800 0.020617 1.000000 KIM Cell No. 1 2 5 4 3 '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw Homogenous Groups, alpha =.05000 Error: Within MSE =.00036, df = 12.000 CONTEXT DV_1 1 2 3 Mean 1 0.099500 **** 2 0.143208 **** 5 0.159896 **** 4 0.159917 **** 3 0.188458 **** :;<:8=755<:>)49#''$ 231

KIN DV_1 KIO 0.26 0.24 0.22 0.20 0.18 0.16 0.14 0.12 0.10 0.08 0.06 0.04 0.02 Cell No. 1 2 3 &R! POS; LS Means Current effect: F(2, 6)=5.4271, p=.04512 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 1 2 3 POS &R! )40K #I* POS; LS Means (Spreadsheet13 in results.stw) Current effect: F(2, 6)=5.4271, p=.04512 Effective hypothesis decomposition POS DV_1 DV_1 DV_1 DV_1 N Mean Std.Err. -95.00% +95.00% 1 0.162708 0.022722 0.090397 0.235020 4 2 0.144829 0.029098 0.052227 0.237431 4 3 0.143050 0.027485 0.055580 0.230520 4 KIP Cell No. 1 2 3 '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00044, df = 6.0000 POS {1} {2} {3}.16271.14483.14305 1 0.078438 0.055993 2 0.078438 0.961089 3 0.055993 0.961089 KIQ Cell No. 3 2 1 '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw Homogenous Groups, alpha =.05000 Error: Within MSE =.00044, df = 6.0000 POS DV_1 1 Mean 3 0.143050 **** 2 0.144829 **** 1 0.162708 **** :;<:8=755<:>)49#''$ 232

L LI0 +! #F 6 9 )40K #I* Repeated Measures Analysis of Variance (Spreadsheet13 in results.stw) Sigma-restricted parameterization Effective hypothesis decomposition Effect Intercept Error CONTEXT Error POS Error CONTEXT*POS Error SS Degr. of Freedom MS F p 0.254554 1 0.254554 42.00586 0.007456 0.018180 3 0.006060 0.000704 2 0.000352 2.12186 0.200946 0.000995 6 0.000166 0.001339 2 0.000669 7.50552 0.023287 0.000535 6 0.000089 0.000117 4 0.000029 1.19143 0.363751 0.000295 12 0.000025 dependent variables: i(c_c)(isolation) i(c_c)(object) i(c_c)(subject) i(c_l)(isolation) i(c_l)(object) i(c_l)(subject) i(c_n)(isolation) i(c_n)(object) i(c_n)(subject) LIJ DV_1 0.18 0.16 0.14 0.12 0.10 0.08 0.06 0.04 0.02 0.00-0.02-0.04 &R! POS; LS Means Current effect: F(2, 6)=7.5055, p=.02329 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 1 2 3 POS :;<:8=755<:>)49#''$ 233

LIK &R! )40K #I* POS; LS Means (Spreadsheet13 in results.stw) Current effect: F(2, 6)=7.5055, p=.02329 Effective hypothesis decomposition POS DV_1 DV_1 DV_1 DV_1 N Cell No. Mean Std.Err. -95.00% +95.00% 1 2 3 1 0.092058 0.019215 0.030908 0.153209 4 2 0.082958 0.023002 0.009756 0.156160 4 3 0.077250 0.025715-0.004588 0.159088 4 LIL Cell No. 1 2 3 '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00009, df = 6.0000 POS {1} {2} {3}.09206.08296.07725 1 0.122116 0.020131 2 0.122116 0.363636 3 0.020131 0.363636 LIM Cell No. 3 2 1 '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw Homogenous Groups, alpha =.05000 Error: Within MSE =.00009, df = 6.0000 POS DV_1 1 2 Mean 3 0.077250 **** 2 0.082958 **** **** 1 0.092058 **** :;<:8=755<:>)49#''$ 234

M MI0 +! #F 6 9 )40K #I* Repeated Measures Analysis of Variance (Spreadsheet13 in results.stw Sigma-restricted parameterization Effective hypothesis decomposition SS Degr. of MS F p Freedom Effect Intercept Error CONTEXT Error POS Error CONTEXT*POS Error dependent varia ii(cg_c)(isolation ii(cg_c)(object) ii(cg_c)(subject) ii(c_c)(isolation) ii(c_c)(object) ii(c_c)(subject) ii(c_l)(isolation) ii(c_l)(object) ii(c_l)(subject) ii(c_n)(isolation ii(c_n)(object) ii(c_n)(subject) ii(c_nc)(isolation ii(c_nc)(object) ii(c_nc)(subject) 1.946521 1 1.946521 144.7154 0.001236 0.040352 3 0.013451 0.013281 4 0.003320 5.8093 0.007732 0.006858 12 0.000572 0.026497 2 0.013248 5.5119 0.043781 0.014422 6 0.002404 0.004137 8 0.000517 2.3939 0.046887 0.005185 24 0.000216 MIJ 0.35 &'2'R! CONTEXT; LS Means Current effect: F(4, 12)=5.8093, p=.00773 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 0.30 0.25 DV_1 0.20 0.15 0.10 0.05 0.00 1 2 3 4 5 CONTEXT :;<:8=755<:>)49#''$ 235

MIK &'2'R! )40K #I* CONTEXT; LS Means (Spreadsheet13 in results.stw) Current effect: F(4, 12)=5.8093, p=.00773 Effective hypothesis decomposition CONTEXT DV_1 DV_1 DV_1 DV_1 N Cell No. Mean Std.Err. -95.00% +95.00% 1 2 3 4 5 1 0.159125 0.021201 0.091655 0.226595 4 2 0.176583 0.017117 0.122111 0.231056 4 3 0.197333 0.031537 0.096967 0.297700 4 4 0.170917 0.035870 0.056761 0.285072 4 5 0.196625 0.030174 0.100599 0.292651 4 MIL '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw) Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00057, df = 12.000 CONTEXT {1} {2} {3} {4} {5} Cell No..15913.17658.19733.17092.19662 1 1 0.422372 0.014468 0.747200 0.016372 2 2 0.422372 0.270861 0.975545 0.299667 3 3 0.014468 0.270861 0.111465 0.999993 4 4 0.747200 0.975545 0.111465 0.125332 5 5 0.016372 0.299667 0.999993 0.125332 MIM '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw) Homogenous Groups, alpha =.05000 Error: Within MSE =.00057, df = 12.000 CONTEXT DV_1 1 2 Cell No. Mean 1 1 0.159125 **** 4 2 5 3 4 0.170917 **** **** 2 0.176583 **** **** 5 0.196625 **** 3 0.197333 **** :;<:8=755<:>)49#''$ 236

MIN &R! POS; LS Means Current effect: F(2, 6)=5.5119, p=.04378 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 0.40 0.35 0.30 0.25 DV_1 0.20 0.15 0.10 0.05 0.00 MIO -0.05 Cell No. 1 2 3 1 2 3 POS &R! )40K #I* POS; LS Means (Spreadsheet13 in results.stw) Current effect: F(2, 6)=5.5119, p=.04378 Effective hypothesis decomposition POS DV_1 DV_1 DV_1 DV_1 N Mean Std.Err. -95.00% +95.00% 1 0.205862 0.012410 0.166370 0.245355 4 2 0.180100 0.044130 0.039658 0.320542 4 3 0.154388 0.049629-0.003553 0.312328 4 MIP '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw) Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00240, df = 6.0000 POS {1} {2} {3} Cell No..20586.18010.15439 1 1 0.293526 0.036926 2 2 0.293526 0.294670 3 3 0.036926 0.294670 MIQ Cell No. 3 2 1 '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw Homogenous Groups, alpha =.05000 Error: Within MSE =.00240, df = 6.0000 POS DV_1 1 2 Mean 3 0.154388 **** 2 0.180100 **** **** 1 0.205862 **** :;<:8=755<:>)49#''$ 237

MI01 &'2'S&R! CONTEXT*POS; LS Means Current effect: F(8, 24)=2.3939, p=.04689 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 0.35 0.30 0.25 0.20 DV_1 0.15 0.10 MI00 0.05 0.00-0.05 Cell No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 1 2 3 4 5 CONTEXT POS 1 POS 2 POS 3 &'2'S&R! )40K #I* CONTEXT*POS; LS Means (Spreadsheet13 in results.stw) Current effect: F(8, 24)=2.3939, p=.04689 Effective hypothesis decomposition CONTEXT POS DV_1 DV_1 DV_1 DV_1 N Mean Std.Err. -95.00% +95.00% 1 1 0.167750 0.003983 0.155074 0.180426 4 1 2 0.164063 0.015573 0.114503 0.213622 4 1 3 0.145563 0.018910 0.085382 0.205743 4 2 1 0.205375 0.009017 0.176679 0.234071 4 2 2 0.179000 0.009480 0.148830 0.209170 4 2 3 0.145375 0.012650 0.105118 0.185632 4 3 1 0.237750 0.008400 0.211017 0.264483 4 3 2 0.183500 0.023376 0.109109 0.257891 4 3 3 0.170750 0.026731 0.085679 0.255821 4 4 1 0.199750 0.005879 0.181040 0.218460 4 4 2 0.175750 0.028135 0.086213 0.265287 4 4 3 0.137250 0.035271 0.025001 0.249499 4 5 1 0.218687 0.011021 0.183612 0.253763 4 5 2 0.198188 0.024348 0.120700 0.275675 4 5 3 0.173000 0.022468 0.101495 0.244505 4 :;<:8=755<:>)49#''$ 238

MI0J '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw) Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00022, df = 24.000 CONTEXT POS {1} {2} {3} {4} {5} {6} {7} {8} Cell No..16775.16406.14556.20537.17900.14538.23775.1835 1 1 1 1.000000 0.702408 0.067427 0.998072 0.691461 0.000176 0.9614 2 1 2 1.000000 0.884420 0.031404 0.974422 0.877183 0.000156 0.8457 3 1 3 0.702408 0.884420 0.000588 0.150340 1.000000 0.000145 0.0633 4 2 1 0.067427 0.031404 0.000588 0.452137 0.000569 0.181534 0.7204 5 2 2 0.998072 0.974422 0.150340 0.452137 0.145320 0.000714 1.0000 6 2 3 0.691461 0.877183 1.000000 0.000569 0.145320 0.000145 0.0609 7 3 1 0.000176 0.000156 0.000145 0.181534 0.000714 0.000145 0.0018 8 3 2 0.961400 0.845760 0.063314 0.720410 1.000000 0.060952 0.001802 9 3 3 1.000000 0.999995 0.521993 0.120848 0.999936 0.510802 0.000221 0.9934 10 4 1 0.193701 0.098731 0.001827 0.999999 0.782086 0.001754 0.062517 0.9513 11 4 2 0.999955 0.997165 0.261587 0.285723 1.000000 0.253870 0.000407 0.9999 12 4 3 0.248816 0.427408 0.999930 0.000204 0.028609 0.999946 0.000145 0.0106 13 5 1 0.003751 0.001662 0.000158 0.990354 0.044209 0.000157 0.861951 0.1086 14 5 2 0.251334 0.132612 0.002571 0.999988 0.856660 0.002467 0.045373 0.9776 15 5 3 1.000000 0.999838 0.393194 0.181534 0.999999 0.383213 0.000275 0.9990 MI0K '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw) Homogenous Groups, alpha =.05000 (Non-Exhaustive Search) Error: Within MSE =.00022, df = 24.000 CONTEXT POS DV_1 1 2 3 4 5 6 Cell No. Mean 12 4 3 0.137250 **** 6 2 3 0.145375 **** **** 3 1 3 0.145563 **** **** 2 1 2 0.164063 **** **** **** 1 1 1 0.167750 **** **** **** **** 9 3 3 0.170750 **** **** **** **** 15 5 3 0.173000 **** **** **** **** 11 4 2 0.175750 **** **** **** **** 5 2 2 0.179000 **** **** **** 8 3 2 0.183500 **** **** **** **** 14 5 2 0.198188 **** **** **** 10 4 1 0.199750 **** **** **** **** 4 2 1 0.205375 **** **** **** 13 5 1 0.218687 **** **** 7 3 1 0.237750 **** :;<:8=755<:>)49#''$ 239

N NI0 +! #F 6 9 )40K #I* Repeated Measures Analysis of Variance (Spreadsheet13 in results.stw) Sigma-restricted parameterization Effective hypothesis decomposition Effect Intercept Error CONTEXT Error POS Error CONTEXT*POS Error dependent variabo(c_c)(isolation) o(c_c)(object) o(c_c)(subject) o(c_l)(isolation) o(c_l)(object) o(c_l)(subject) o(c_n)(isolation) o(c_n)(object) o(c_n)(subject) SS Degr. of Freedom MS F p 0.392062 1 0.392062 36.43472 0.009117 0.032282 3 0.010761 0.001403 2 0.000701 4.91858 0.054378 0.000856 6 0.000143 0.000727 2 0.000363 2.26178 0.185339 0.000964 6 0.000161 0.000456 4 0.000114 2.18448 0.132446 0.000626 12 0.000052 NIJ &'2'R! CONTEXT; LS Means Current effect: F(2, 6)=4.9186, p=.05438 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 0.30 0.25 0.20 DV_1 0.15 0.10 0.05 0.00-0.05 1 2 3 CONTEXT :;<:8=755<:>)49#''$ 240

NIK &'2'R! )40K #I* CONTEXT; LS Means (Spreadsheet13 in results.stw) Current effect: F(2, 6)=4.9186, p=.05438 Effective hypothesis decomposition CONTEXT DV_1 DV_1 DV_1 DV_1 N Cell No. Mean Std.Err. -95.00% +95.00% 1 2 3 1 0.095824 0.026025 0.013002 0.178646 4 2 0.106667 0.027359 0.019599 0.193734 4 3 0.110583 0.036547-0.005726 0.226892 4 NIL Cell No. 1 2 3 '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00014, df = 6.0000 CONTEXT {1} {2} {3}.09582.10667.11058 1 0.145320 0.052715 2 0.145320 0.714914 3 0.052715 0.714914 NIM '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw) Homogenous Groups, alpha =.05000 Error: Within MSE =.00014, df = 6.0000 CONTEXT DV_1 1 Cell No. Mean 1 2 3 1 0.095824 **** 2 0.106667 **** 3 0.110583 **** :;<:8=755<:>)49#''$ 241

O OI0 +! #F 6 9 )40K #I* Repeated Measures Analysis of Variance (Spreadsheet13 in results.stw) Sigma-restricted parameterization Effective hypothesis decomposition Effect Intercept Error CONTEXT Error POS Error CONTEXT*POS Error SS Degr. of Freedom MS F p 0.260866 1 0.260866 42.12411 0.007426 0.018578 3 0.006193 0.001862 2 0.000931 5.28526 0.047473 0.001057 6 0.000176 0.000667 2 0.000334 10.18048 0.011792 0.000197 6 0.000033 0.000055 4 0.000014 1.00507 0.442586 0.000165 12 0.000014 dependent variables: u(c_c)(isolation) u(c_c)(object) u(c_c)(subject) u(c_l)(isolation) u(c_l)(object) u(c_l)(subject) u(c_n)(isolation) u(c_n)(object) u(c_n)(subject) OIJ DV_1 0.20 0.18 0.16 0.14 0.12 0.10 0.08 0.06 0.04 0.02 0.00-0.02-0.04 &'2'R! CONTEXT; LS Means Current effect: F(2, 6)=5.2853, p=.04747 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 1 2 3 CONTEXT :;<:8=755<:>)49#''$ 242

OIK &'2'R! )40K #I* CONTEXT; LS Means (Spreadsheet13 in results.stw) Current effect: F(2, 6)=5.2853, p=.04747 Effective hypothesis decomposition CONTEXT DV_1 DV_1 DV_1 DV_1 N Cell No. Mean Std.Err. -95.00% +95.00% 1 2 3 1 0.081500 0.026977-0.004352 0.167352 4 2 0.078708 0.015476 0.029457 0.127960 4 3 0.095167 0.025865 0.012852 0.177481 4 OIL Cell No. 1 2 3 '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00018, df = 6.0000 CONTEXT {1} {2} {3}.08150.07871.09517 1 0.867004 0.099346 2 0.867004 0.052044 3 0.099346 0.052044 OIM Cell No. 2 1 3 '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw Homogenous Groups, alpha =.05000 Error: Within MSE =.00018, df = 6.0000 CONTEXT DV_1 1 Mean 2 0.078708 **** 1 0.081500 **** 3 0.095167 **** OIN &R! POS; LS Means Current effect: F(2, 6)=10.180, p=.01179 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 0.18 0.16 0.14 0.12 0.10 DV_1 0.08 0.06 0.04 0.02 0.00-0.02 1 2 3 POS :;<:8=755<:>)49#''$ 243

OIO &R! )40K #I* POS; LS Means (Spreadsheet13 in results.stw) Current effect: F(2, 6)=10.180, p=.01179 Effective hypothesis decomposition POS DV_1 DV_1 DV_1 DV_1 N Cell No. Mean Std.Err. -95.00% +95.00% 1 2 3 1 0.088465 0.021243 0.020862 0.156069 4 2 0.087862 0.021666 0.018912 0.156811 4 3 0.079048 0.025376-0.001709 0.159804 4 OIP '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw) Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00003, df = 6.0000 POS {1} {2} {3} Cell No..08847.08786.07905 1 1 0.964193 0.016304 2 2 0.964193 0.021766 3 3 0.016304 0.021766 OIQ Cell No. 3 2 1 '"F? R,# 9H0 )40K #I* Tukey HSD test; variable DV_1 (Spreadsheet13 in results.stw Homogenous Groups, alpha =.05000 Error: Within MSE =.00003, df = 6.0000 POS DV_1 1 2 Mean 3 0.079048 **** 2 0.087862 **** 1 0.088465 **** :;<:8=755<:>)49#''$ 244

P PI0 +! #F 6 9 ) #I* Repeated Measures Analysis of Variance (aa oo uu in results.stw) Sigma-restricted parameterization Effective hypothesis decomposition SS Degr. of MS F p Effect Freedom Intercept Error 1.927314 0.034262 1 1.927314 168.7547 0.000985 3 0.011421 CONTEXT Error POS Error CONTEXT*POS Error 0.014720 0.002851 0.011146 0.006742 0.002807 0.001865 4 0.003680 12 0.000238 2 0.005573 6 0.001124 8 0.000351 24 0.000078 15.4911 0.000110 4.9595 0.053543 4.5144 0.001890 dependent variables: aa(cg_c)(isolation) aa(cg_c)(object) aa(cg_c)(subject) aa(c_c)(isolation) aa(c_c)(object) aa(c_c)(subject) aa(c_l)(isolation) aa(c_l)(object) aa(c_l)(subject) aa(c_n)(isolation) aa(c_n)(object) aa(c_n)(subject) aa(c_nc)(isolation) aa(c_nc)(object) aa(c_nc)(subject) PIJ 0.35 &'2'R! CONTEXT; LS Means Current effect: F(4, 12)=15.491, p=.00011 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 0.30 0.25 DV_1 0.20 0.15 0.10 0.05 1 2 3 4 5 CONTEXT :;<:8=755<:>)49#''$ 245

PIK Cell No. 1 2 3 4 5 &'2'R! ) #I* CONTEXT; LS Means (aa oo uu in results.stw) Current effect: F(4, 12)=15.491, p=.00011 Effective hypothesis decomposition CONTEXT DV_1 DV_1 DV_1 DV_1 Mean Std.Err. -95.00% +95.00% 1 0.151958 0.024728 0.073263 0.230654 4 2 0.172063 0.021189 0.104630 0.239495 4 3 0.195583 0.028683 0.104302 0.286865 4 4 0.188958 0.021816 0.119529 0.258387 4 5 0.187567 0.027086 0.101366 0.273767 4 N PIL '"F? R,# 9H0 ) #I* Tukey HSD test; variable DV_1 (aa oo uu in results.stw) Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00024, df = 12.000 CONTEXT {1} {2} {3} {4} {5} Cell No..15196.17206.19558.18896.18757 1 1 0.049448 0.000262 0.000702 0.000950 2 2 0.049448 0.019557 0.115413 0.163887 3 3 0.000262 0.019557 0.826321 0.710923 4 4 0.000702 0.115413 0.826321 0.999420 5 5 0.000950 0.163887 0.710923 0.999420 PIM Cell No. 1 2 5 4 3 '"F? R,# 9H0 ) #I* Tukey HSD test; variable DV_1 (aa oo uu in results.stw) Homogenous Groups, alpha =.05000 Error: Within MSE =.00024, df = 12.000 CONTEXT DV_1 1 2 3 Mean 1 0.151958 **** 2 0.172063 **** 5 0.187567 **** **** 4 0.188958 **** **** 3 0.195583 **** :;<:8=755<:>)49#''$ 246

PIN DV_1 PIO 0.28 0.26 0.24 0.22 0.20 0.18 0.16 0.14 0.12 0.10 0.08 0.06 0.04 Cell No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 &'2'S&R! CONTEXT*POS; LS Means Current effect: F(8, 24)=4.5144, p=.00189 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 1 2 3 4 5 CONTEXT &'2'S&R! ) #I* CONTEXT*POS; LS Means (aa oo uu in results.stw) Current effect: F(8, 24)=4.5144, p=.00189 Effective hypothesis decomposition CONTEXT POS DV_1 DV_1 DV_1 DV_1 POS 1 POS 2 POS 3 Mean Std.Err. -95.00% +95.00% 1 1 0.168250 0.010136 0.135994 0.200506 4 1 2 0.154625 0.016321 0.102683 0.206567 4 1 3 0.133000 0.019615 0.070576 0.195424 4 2 1 0.189437 0.008580 0.162134 0.216741 4 2 2 0.167625 0.013908 0.123362 0.211888 4 2 3 0.159125 0.015421 0.110050 0.208200 4 3 1 0.222500 0.008488 0.195488 0.249512 4 3 2 0.173750 0.023691 0.098354 0.249146 4 3 3 0.190500 0.020832 0.124204 0.256796 4 4 1 0.198125 0.012587 0.158068 0.238182 4 4 2 0.189625 0.013328 0.147209 0.232041 4 4 3 0.179125 0.015401 0.130113 0.228137 4 5 1 0.212200 0.008930 0.183780 0.240620 4 5 2 0.180200 0.019386 0.118505 0.241895 4 5 3 0.170300 0.021337 0.102396 0.238204 4 N :;<:8=755<:>)49#''$ 247

PIP Cell No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 '"F? R,# 9H0 ) #I* Tukey HSD test; variable DV_1 (aa oo uu in results.stw) Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00008, df = 24.000 CONTEXT POS {1} {2} {3} {4} {5} {6} {7} {8.16825.15463.13300.18944.16763.15912.22250.17 1 1 0.671374 0.000712 0.105931 1.000000 0.970449 0.000145 0.99 1 2 0.671374 0.092008 0.000819 0.731878 0.999979 0.000145 0.19 1 3 0.000712 0.092008 0.000145 0.000871 0.019366 0.000145 0.00 2 1 0.105931 0.000819 0.000145 0.086570 0.004102 0.001496 0.46 2 2 1.000000 0.731878 0.000871 0.086570 0.983405 0.000145 0.99 2 3 0.970449 0.999979 0.019366 0.004102 0.983405 0.000145 0.57 3 1 0.000145 0.000145 0.000145 0.001496 0.000145 0.000145 0.00 3 2 0.999784 0.197590 0.000206 0.464889 0.999298 0.570607 0.000146 3 3 0.074973 0.000589 0.000145 1.000000 0.060818 0.002761 0.002193 0.36 4 1 0.004837 0.000161 0.000145 0.980097 0.003826 0.000267 0.036237 0.03 4 2 0.099730 0.000771 0.000145 1.000000 0.081418 0.003826 0.001599 0.44 4 3 0.897949 0.034678 0.000149 0.927778 0.857316 0.152927 0.000161 0.99 5 1 0.000158 0.000145 0.000145 0.063175 0.000154 0.000145 0.928367 0.00 5 2 0.823436 0.023625 0.000147 0.967493 0.770775 0.109776 0.000172 0.99 5 3 1.000000 0.466094 0.000396 0.196887 1.000000 0.879416 0.000145 0.99 PIQ Cell No. 3 2 6 5 1 15 8 12 14 4 11 9 10 13 7 '"F? R,# 9H0 ) #I* Tukey HSD test; variable DV_1 (aa oo uu in results.stw) Homogenous Groups, alpha =.05000 (Non-Exhaustive Search) Error: Within MSE =.00008, df = 24.000 CONTEXT POS DV_1 1 2 3 4 5 6 7 Mean 1 3 0.133000 **** 1 2 0.154625 **** **** 2 3 0.159125 **** **** 2 2 0.167625 **** **** **** 1 1 0.168250 **** **** **** 5 3 0.170300 **** **** **** 3 2 0.173750 **** **** **** 4 3 0.179125 **** **** **** 5 2 0.180200 **** **** **** 2 1 0.189437 **** **** **** 4 2 0.189625 **** **** **** 3 3 0.190500 **** **** **** 4 1 0.198125 **** **** 5 1 0.212200 **** **** 3 1 0.222500 **** :;<:8=755<:>)49#''$ 248

Q QI0 +! #F 6 9 ) #I* Repeated Measures Analysis of Variance (aa oo uu in results.stw) Sigma-restricted parameterization Effective hypothesis decomposition SS Degr. of MS F p Effect Freedom Intercept Error 1.321208 0.031406 1 1.321208 126.2049 0.001512 3 0.010469 CONTEXT Error POS Error CONTEXT*POS Error 0.009794 0.010276 0.010742 0.001585 0.002079 0.003582 3 0.003265 9 0.001142 2 0.005371 6 0.000264 6 0.000347 18 0.000199 2.8592 0.096771 20.3263 0.002127 1.7411 0.168706 dependent variables: oo(cg_c)(isolation oo(cg_c)(object) oo(cg_c)(subject) oo(c_c)(isolation oo(c_c)(object) oo(c_c)(subject) oo(c_l)(isolation oo(c_l)(object) oo(c_l)(subject) oo(c_nc)(isolation oo(c_nc)(object) oo(c_nc)(subject) QIJ 0.30 &R! POS; LS Means Current effect: F(2, 6)=20.326, p=.00213 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 0.25 0.20 DV_1 0.15 0.10 0.05 0.00 1 2 3 POS :;<:8=755<:>)49#''$ 249

QIK Cell No. 1 2 3 &R! ) #I* POS; LS Means (aa oo uu in results.stw) Current effect: F(2, 6)=20.326, p=.00213 Effective hypothesis decomposition POS DV_1 DV_1 DV_1 DV_1 Mean Std.Err. -95.00% +95.00% 1 0.186607 0.026822 0.101248 0.271966 4 2 0.151771 0.030436 0.054911 0.248631 4 3 0.159344 0.033220 0.053623 0.265065 4 N QIL Cell No. 1 2 3 '"F? R,# 9H0 ) #I* Tukey HSD test; variable DV_1 (aa oo uu in results.stw) Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00026, df = 6.0000 POS {1} {2} {3}.18661.15177.15934 1 0.002386 0.007731 2 0.002386 0.437015 3 0.007731 0.437015 QIM Cell No. 2 3 1 '"F? R,# 9H0 ) #I* Tukey HSD test; variable DV_1 (aa oo uu in results.stw) Homogenous Groups, alpha =.05000 Error: Within MSE =.00026, df = 6.0000 POS DV_1 1 2 Mean 2 0.151771 **** 3 0.159344 **** 1 0.186607 **** :;<:8=755<:>)49#''$ 250

01 01I0 +! #F 6 9 ) #I* Repeated Measures Analysis of Variance (aa oo uu in results.stw) Sigma-restricted parameterization Effective hypothesis decomposition SS Degr. of MS F p Effect Intercept Error CONTEXT Error POS Error CONTEXT*POS Error Freedom 1.178530 1 1.178530 95.90459 0.002263 0.036866 3 0.012289 0.002068 3 0.000689 4.27311 0.039104 0.001452 9 0.000161 0.008011 2 0.004006 3.50036 0.098299 0.006866 6 0.001144 0.001616 6 0.000269 1.41060 0.264282 0.003436 18 0.000191 dependent variables: uu(c_c)(isolation uu(c_c)(object) uu(c_c)(subject) uu(c_l)(isolation uu(c_l)(object) uu(c_l)(subject) uu(c_n)(isolation uu(c_n)(object) uu(c_n)(subject) uu(c_nc)(isolation uu(c_nc)(object) uu(c_nc)(subject) 01IJ 0.30 &'2'R! CONTEXT; LS Means Current effect: F(3, 9)=4.2731, p=.03910 Effective hypothesis decomposition Vertical bars denote 0.95 confidence intervals 0.25 0.20 DV_1 0.15 0.10 0.05 0.00 1 2 3 4 CONTEXT :;<:8=755<:>)49#''$ 251

01IK Cell No. 1 2 3 4 &'2'R! ) #I* CONTEXT; LS Means (aa oo uu in results.stw) Current effect: F(3, 9)=4.2731, p=.03910 Effective hypothesis decomposition CONTEXT DV_1 DV_1 DV_1 DV_1 Mean Std.Err. -95.00% +95.00% 1 0.146717 0.033341 0.040612 0.252821 4 2 0.155917 0.027910 0.067095 0.244739 4 3 0.164750 0.028931 0.072678 0.256822 4 4 0.159389 0.021576 0.090723 0.228055 4 N 01IL Cell No. 1 2 3 4 '"F? R,# 9H0 ) #I* Tukey HSD test; variable DV_1 (aa oo uu in results.stw) Approximate Probabilities for Post Hoc Tests Error: Within MSE =.00016, df = 9.0000 CONTEXT {1} {2} {3} {4}.14672.15592.16475.15939 1 0.344306 0.029393 0.137455 2 0.344306 0.375712 0.905993 3 0.029393 0.375712 0.734996 4 0.137455 0.905993 0.734996 01IM Cell No. 1 2 4 3 '"F? R,# 9H0 ) #I* Tukey HSD test; variable DV_1 (aa oo uu in results.stw) Homogenous Groups, alpha =.05000 Error: Within MSE =.00016, df = 9.0000 CONTEXT DV_1 1 2 Mean 1 0.146717 **** 2 0.155917 **** **** 4 0.159389 **** **** 3 0.164750 **** :;<:8=755<:>)49#''$ 252

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0 0 0I0 T0)J* 35 Histogram (Spreadsheet2 11v*65c) 32, 49%?$6H% 30 25 23, 35% No of obs 20 15 10 10, 15% 5 0 1 2 3 0IJ TJ)K* ANSW-Pg1 50 Histogram (Spreadsheet2 11v*65c) 45 45, 69% 40 35 30 No of obs 25 20 15 13, 20% 10 7, 11% 5 0 1 2 3 ANSW-Pg2 :;<:8=755<:>)49#''$ 265

0IK 50 45 TK)L* Histogram (Spreadsheet2 11v*65c) 45, 69% 40 35 30 No of obs 25 20 15 10 9, 14% 11, 17% 5 0 1 2 3 0IL TL)M* ANSW-Pg3 40 Histogram (Spreadsheet2 11v*65c) 37, 57% 35 30 25 No of obs 20 15 15, 23% 13, 20% 10 5 0 1 2 3 ANSW-Pg4 :;<:8=755<:>)49#''$ 266

0IM 40 35 TM)N* Histogram (Spreadsheet2 11v*65c) 36, 55% 30 25 23, 35% No of obs 20 15 10 5 6, 9% 0 1 2 3 0IN TN)O* ANSW-Pg5 50 Histogram (Spreadsheet2 11v*65c) 48, 74% 40 30 No of obs 20 10 12, 18% 5, 8% 0 1 2 3 ANSW-Pg6 :;<:8=755<:>)49#''$ 267

0IO 60 TO)P* Histogram (Spreadsheet2 11v*65c) 57, 88% 50 40 No of obs 30 20 10 8, 12% 0 1 2 0IP TP)Q* ANSW-Pg7 60 Histogram (Spreadsheet2 11v*65c) 52, 80% 50 40 No of obs 30 20 10 9, 14% 4, 6% 0 1 2 3 ANSW-Pg8 :;<:8=755<:>)49#''$ 268

0IQ 60 TQ)01* Histogram (Spreadsheet2 11v*65c) 50 51, 78% 40 No of obs 30 20 12, 18% 10 2, 3% 0 1 2 3 0I01 T01)00* ANSW-Pg9 45 Histogram (Spreadsheet2 11v*65c) 42, 65% 40 35 30 No of obs 25 20 15 10 13, 20% 10, 15% 5 0 1 2 3 ANSW-Pg10 :;<:8=755<:>)49#''$ 269

J 0 JI0 T00 35 30 Histogram (Spreadsheet3 11v*65c) 31, 48% 25 24, 37% No of obs 20 15 10 10, 15% 5 0 1 2 3 JIJ T0J ANSW-Pg11 60 Histogram (Spreadsheet3 11v*65c) 55, 85% 50 40 No of obs 30 20 10 7, 11% 3, 5% 0 1 2 3 ANSW-Pg12 :;<:8=755<:>)49#''$ 270

JIK 50 45 T0K Histogram (Spreadsheet3 11v*65c) 45, 69% 40 35 30 No of obs 25 20 15 15, 23% 10 5 5, 8% 0 1 2 3 JIL T0L ANSW-Pg13 60 Histogram (Spreadsheet3 11v*65c) 50 50, 77% 40 No of obs 30 20 10 10, 15% 5, 8% 0 1 2 3 ANSW-Pg14 :;<:8=755<:>)49#''$ 271

JIM 70 60 T0M Histogram (Spreadsheet3 11v*65c) 62, 95% 50 No of obs 40 30 20 10 0 2, 3% 1, 2% 1 2 3 JIN T0N ANSW-Pg15 50 45 Histogram (Spreadsheet3 11v*65c) 46, 71% 40 35 30 No of obs 25 20 15 10 5 11, 17% 8, 12% 0 1 2 3 ANSW-Pg16 :;<:8=755<:>)49#''$ 272

JIO 40 35 T0O Histogram (Spreadsheet3 11v*65c) 36, 55% 30 25 23, 35% No of obs 20 15 10 5 6, 9% 0 1 2 3 JIP T0P ANSW-Pg17 60 Histogram (Spreadsheet3 11v*65c) 52, 80% 50 40 No of obs 30 20 10 8, 12% 5, 8% 0 1 2 3 ANSW-Pg18 :;<:8=755<:>)49#''$ 273

JIQ 70 T0Q Histogram (Spreadsheet3 11v*65c) 60 59, 91% 50 No of obs 40 30 20 10 3, 5% 3, 5% 0 1 2 3 JI01 TJ1 ANSW-Pg19 28 26 Histogram (Spreadsheet3 11v*65c) 26, 40% 24 No of obs 22 20 18 16 14 12 10 8 6 4 2 20, 31% 19, 29% 0 1 2 3 ANSW-Pg20 :;<:8=755<:>)49#''$ 274

K 0 KI0 TJ0 70 Histogram (Spreadsheet4 11v*65c) 60 59, 91% 50 No of obs 40 30 20 10 0 4, 6% 2, 3% 1 2 3 KIJ TJJ ANSW-Pg21 26 24 Histogram (Spreadsheet4 11v*65c) 24, 37% 22 20 18 16 21, 32% 20, 31% No of obs 14 12 10 8 6 4 2 0 1 2 3 ANSW-Pg22 :;<:8=755<:>)49#''$ 275

KIK 60 TJK Histogram (Spreadsheet4 11v*65c) 57, 88% 50 40 No of obs 30 20 10 8, 12% 0 1 2 KIL TJL ANSW-Pg23 60 Histogram (Spreadsheet4 11v*65c) 53, 82% 50 40 No of obs 30 20 10 9, 14% 3, 5% 0 1 2 3 ANSW-Pg24 :;<:8=755<:>)49#''$ 276

KIM 45 40 TJM Histogram (Spreadsheet4 11v*65c) 41, 63% 35 30 No of obs 25 20 15 10 11, 17% 13, 20% 5 0 1 2 3 KIN TJN ANSW-Pg25 60 Histogram (Spreadsheet4 11v*65c) 57, 88% 50 40 No of obs 30 20 10 5, 8% 3, 5% 0 1 2 3 ANSW-Pg26 :;<:8=755<:>)49#''$ 277

KIO 35 30 TJO Histogram (Spreadsheet4 11v*65c) 31, 48% 25 25, 38% No of obs 20 15 10 9, 14% 5 0 1 2 3 KIP TJP ANSW-Pg27 30 Histogram (Spreadsheet4 11v*65c) 28 26 27, 42% 24 22 23, 35% 20 18 No of obs 16 14 12 15, 23% 10 8 6 4 2 0 1 2 3 ANSW-Pg28 :;<:8=755<:>)49#''$ 278

KIQ 70 60 TJQ Histogram (Spreadsheet4 11v*65c) 64, 98% 50 No of obs 40 30 20 10 0 1, 2% 1 2 KI01 TK1 ANSW-Pg29 50 Histogram (Spreadsheet4 11v*65c) 45 44, 68% 40 35 30 No of obs 25 20 19, 29% 15 10 5 2, 3% 0 1 2 3 ANSW-Pg30 :;<:8=755<:>)49#''$ 279

L 0& LI0 TK0 45 Histogram (Spreadsheet5 11v*65c) 40 39, 60% 35 30 No of obs 25 20 20, 31% 15 10 5 6, 9% 0 1 2 3 LIJ TKJ ANSW-Pg31 60 Histogram (Spreadsheet5 11v*65c) 56, 86% 50 40 No of obs 30 20 10 7, 11% 2, 3% 0 1 2 3 ANSW-Pg32 :;<:8=755<:>)49#''$ 280

LIK 50 TKK Histogram (Spreadsheet5 11v*65c) 48, 74% 40 30 No of obs 20 10 10, 15% 7, 11% 0 1 2 3 LIL TKL ANSW-Pg33 35 Histogram (Spreadsheet5 11v*65c) 33, 51% 30 25 22, 34% No of obs 20 15 10 10, 15% 5 0 1 2 3 ANSW-Pg34 :;<:8=755<:>)49#''$ 281

LIM 60 TKM Histogram (Spreadsheet5 11v*65c) 56, 86% 50 40 No of obs 30 20 10 9, 14% 0 1 2 LIN TKN ANSW-Pg35 60 Histogram (Spreadsheet5 11v*65c) 56, 86% 50 40 No of obs 30 20 10 5, 8% 4, 6% 0 1 2 3 ANSW-Pg36 :;<:8=755<:>)49#''$ 282

LIO 70 TKO Histogram (Spreadsheet5 11v*65c) 60 60, 92% 50 No of obs 40 30 20 10 0 4, 6% 1, 2% 1 2 3 LIP TKP ANSW-Pg37 45 Histogram (Spreadsheet5 11v*65c) 42, 65% 40 35 30 No of obs 25 20 15 15, 23% 10 8, 12% 5 0 1 2 3 ANSW-Pg38 :;<:8=755<:>)49#''$ 283

LIQ 70 60 TKQ Histogram (Spreadsheet5 11v*65c) 64, 98% 50 No of obs 40 30 20 10 0 1, 2% 2 3 LI01 TL1 ANSW-Pg39 60 Histogram (Spreadsheet5 11v*65c) 52, 80% 50 40 No of obs 30 20 10 5, 8% 8, 12% 0 1 2 3 ANSW-Pg40 :;<:8=755<:>)49#''$ 284

M 0 MI0 TL0 70 Histogram (Spreadsheet6 11v*65c) 60 61, 94% 50 No of obs 40 30 20 10 0 3, 5% 1, 2% 1 2 3 MIJ TLJ ANSW-Pg41 60 Histogram (Spreadsheet6 11v*65c) 50 51, 78% 40 No of obs 30 20 10 8, 12% 6, 9% 0 1 2 3 ANSW-Pg42 :;<:8=755<:>)49#''$ 285

MIK 45 40 TLK Histogram (Spreadsheet6 11v*65c) 43, 66% 35 30 No of obs 25 20 15 15, 23% 10 7, 11% 5 0 1 2 3 MIL TLL ANSW-Pg43 45 Histogram (Spreadsheet6 11v*65c) 43, 66% 40 35 30 No of obs 25 20 15 18, 28% 10 5 4, 6% 0 1 2 3 ANSW-Pg44 :;<:8=755<:>)49#''$ 286

MIM 60 TLM Histogram (Spreadsheet6 11v*65c) 55, 85% 50 40 No of obs 30 20 10 8, 12% 2, 3% 0 1 2 3 MIN TLN ANSW-Pg45 60 Histogram (Spreadsheet6 11v*65c) 54, 83% 50 40 No of obs 30 20 10 8, 12% 3, 5% 0 1 2 3 ANSW-Pg46 :;<:8=755<:>)49#''$ 287

MIO 40 TLO Histogram (Spreadsheet6 11v*65c) 35 35, 54% 30 25 No of obs 20 17, 26% 15 13, 20% 10 5 0 1 2 3 MIP TLP ANSW-Pg47 60 Histogram (Spreadsheet6 11v*65c) 52, 80% 50 40 No of obs 30 20 10 11, 17% 2, 3% 0 1 2 3 ANSW-Pg48 :;<:8=755<:>)49#''$ 288

MIQ 70 TLQ Histogram (Spreadsheet6 11v*65c) 60 59, 91% 50 No of obs 40 30 20 10 0 4, 6% 2, 3% 1 2 3 MI01 TM1 ANSW-Pg49 50 Histogram (Spreadsheet6 11v*65c) 45 45, 69% 40 35 30 No of obs 25 20 15 10 11, 17% 9, 14% 5 0 1 2 3 ANSW-Pg50 :;<:8=755<:>)49#''$ 289

N J NI0 TM0 40 Histogram (Spreadsheet7 10v*65c) 35 34, 52% 30 27, 42% 25 No of obs 20 15 10 5 4, 6% 0 1 2 3 NIJ TMJ ANSW-Pg51 40 Histogram (Spreadsheet7 10v*65c) 37, 57% 35 30 25 24, 37% No of obs 20 15 10 5 4, 6% 0 1 2 3 ANSW-Pg52 :;<:8=755<:>)49#''$ 290

NIK 40 TMK Histogram (Spreadsheet7 10v*65c) 38, 58% 35 30 25 25, 38% No of obs 20 15 10 5 2, 3% 0 1 2 3 NIL TML ANSW-Pg53 45 Histogram (Spreadsheet7 10v*65c) 40 39, 60% 35 30 No of obs 25 20 15 10 14, 22% 12, 18% 5 0 1 2 3 ANSW-Pg54 :;<:8=755<:>)49#''$ 291

NIM 40 35 TMN Histogram (Spreadsheet7 10v*65c) 37, 57% 30 25 26, 40% No of obs 20 15 10 5 2, 3% 0 1 2 3 NIN TMO ANSW-Pg56 45 Histogram (Spreadsheet7 10v*65c) 42, 65% 40 35 30 No of obs 25 20 21, 32% 15 10 5 2, 3% 0 1 2 3 ANSW-Pg57 :;<:8=755<:>)49#''$ 292

NIO 40 TMP Histogram (Spreadsheet7 10v*65c) 35 34, 52% 30 28, 43% 25 No of obs 20 15 10 5 3, 5% 0 1 2 3 NIP TMQ ANSW-Pg58 60 Histogram (Spreadsheet7 10v*65c) 50 49, 75% 40 No of obs 30 20 15, 23% 10 0 1, 2% 1 2 3 ANSW-Pg59 :;<:8=755<:>)49#''$ 293

NIQ 60 50 TN1 Histogram (Spreadsheet7 10v*65c) 54, 83% 40 No of obs 30 20 10 11, 17% 0 O K OI0 TN0 45 40 1 2 ANSW-Pg60 Histogram (Spreadsheet8 11v*65c) 43, 66% 35 30 No of obs 25 20 15 14, 22% 10 8, 12% 5 0 1 2 3 ANSW-Pg61 :;<:8=755<:>)49#''$ 294

OIJ 60 50 TNJ Histogram (Spreadsheet8 11v*65c) 54, 83% 40 No of obs 30 20 10 8, 12% 3, 5% 0 1 2 3 OIK TNK ANSW-Pg62 60 Histogram (Spreadsheet8 11v*65c) 50 50, 77% 40 No of obs 30 20 15, 23% 10 0 1 2 ANSW-Pg63 :;<:8=755<:>)49#''$ 295

OIL 60 TNL Histogram (Spreadsheet8 11v*65c) 50 52, 80% 40 No of obs 30 20 10 7, 11% 6, 9% 0 1 2 3 OIM TNM ANSW-Pg64 60 Histogram (Spreadsheet8 11v*65c) 57, 88% 50 40 No of obs 30 20 10 7, 11% 0 1, 2% 1 2 3 ANSW-Pg65 :;<:8=755<:>)49#''$ 296

OIN 60 TNN Histogram (Spreadsheet8 11v*65c) 55, 85% 50 40 No of obs 30 20 10 10, 15% 0 1 2 OIO TNO ANSW-Pg66 60 Histogram (Spreadsheet8 11v*65c) 57, 88% 50 40 No of obs 30 20 10 6, 9% 2, 3% 0 1 2 3 ANSW-Pg67 :;<:8=755<:>)49#''$ 297

OIP 60 TNP Histogram (Spreadsheet8 11v*65c) 55, 85% 50 40 No of obs 30 20 10 9, 14% 0 1, 2% 1 2 3 OIQ TNQ ANSW-Pg68 60 Histogram (Spreadsheet8 11v*65c) 54, 83% 50 40 No of obs 30 20 10 10, 15% 0 1, 2% 1 2 3 ANSW-Pg69 :;<:8=755<:>)49#''$ 298

OI01 60 TO1 Histogram (Spreadsheet8 11v*65c) 57, 88% 50 40 No of obs 30 20 10 8, 12% 0 1 2 ANSW-Pg70 :;<:8=755<:>)49#''$ 299

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