Crosstab 1.do personal favour for group members. Total never seldom occasion aly often Always gender of respondent male Count 37 22 49 8 21 137 Expected Count 53.9 17.8 41.0 12.9 11.3 137.0 female Count 63 11 27 16 0 117 Expected Count 46.1 15.2 35.0 11.1 9.7 117.0 Total Count 100 33 76 24 21 254 Expected Count 100.0 33.0 76.0 24.0 21.0 254.0 Chi-Square Tests Value df Asymp. Sig. (2- sided) Pearson Chi- Square 39.130(a ) 4 .000 Likelihood Ratio 47.291 4 .000 Linear-by-Linear Association 18.061 1 .000 N of Valid Cases 254 a 0 cells (.0%) have expected count less than 5. The minimum expected count is 9.67. Symmetric Measures Value Asymp. Std. Error(a) Approx. T(b) Approx. Sig. Interval by Interval Pearson's R -.267 .056 -4.401 .000(c) Ordinal by Ordinal Spearman Correlation -.257 .060 -4.222 .000(c) N of Valid Cases 254 a Not assuming the null hypothesis. b Using the asymptotic standard error assuming the null hypothesis. c Based on normal approximation. 1
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Crosstab
1.do personal favour for group members.
Totalnever seldomoccasional
y often Alwaysgender of respondent
male Count37 22 49 8 21 137
Expected Count 53.9 17.8 41.0 12.9 11.3 137.0
female Count63 11 27 16 0 117
Expected Count 46.1 15.2 35.0 11.1 9.7 117.0
Total Count100 33 76 24 21 254
Expected Count 100.0 33.0 76.0 24.0 21.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 39.130(a) 4 .000Likelihood Ratio 47.291 4 .000Linear-by-Linear Association
18.061 1 .000
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 9.67.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R -.267 .056 -4.401 .000(c)Ordinal by Ordinal Spearman
Correlation-.257 .060 -4.222 .000(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
1
Crosstab
2.make my attitudes clear to group
Totalseldom occasionally often Alwaysgender of respondent
male Count 62 14 3 58 137
Expected Count
45.8 16.2 18.3 56.6 137.0
female Count 23 16 31 47 117
Expected Count
39.2 13.8 15.7 48.4 117.0
Total Count 85 30 34 105 254
Expected Count
85.0 30.0 34.0 105.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 40.918(a) 3 .000Likelihood Ratio 45.134 3 .000Linear-by-Linear Association
7.546 1 .006
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 13.82.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .173 .061 2.783 .006(c)Ordinal by Ordinal Spearman
Correlation.146 .063 2.350 .020(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
2
Crosstab
3.do little things to make it pleasent to be member of the group
Totalnever seldomoccasiona
ly often Alwaysgender of respondent
male Count 1 12 58 39 27 137
Expected Count
.5 18.9 53.9 21.0 42.6 137.0
female Count 0 23 42 0 52 117
Expected Count
.5 16.1 46.1 18.0 36.4 117.0
Total Count 1 35 100 39 79 254
Expected Count
1.0 35.0 100.0 39.0 79.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 52.680(a) 4 .000Likelihood Ratio 68.012 4 .000Linear-by-Linear Association
.728 1 .393
N of Valid Cases254
a 2 cells (20.0%) have expected count less than 5. The minimum expected count is .46.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .054 .064 .853 .394(c)Ordinal by Ordinal Spearman
Correlation.038 .067 .599 .550(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
3
Crosstab
4.try out my new ideas with the group
Totalseldomoccasiona
lly often Alwaysgender of respondent
male Count 63 19 17 38 137
Expected Count
59.3 20.5 24.8 32.4 137.0
female Count 47 19 29 22 117
Expected Count
50.7 17.5 21.2 27.6 117.0
Total Count 110 38 46 60 254
Expected Count
110.0 38.0 46.0 60.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 8.200(a) 3 .042Likelihood Ratio 8.245 3 .041Linear-by-Linear Association
.000 1 .983
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 17.50.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .001 .062 .021 .983(c)Ordinal by Ordinal Spearman
Correlation.007 .063 .116 .908(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
4
Crosstab
6.am easy to understand.
Totalnever seldomoccasiona
ly often Alwaysgender of respondent
male Count 6 49 18 3 61 137
Expected Count
3.2 47.5 16.7 16.2 53.4 137.0
female Count 0 39 13 27 38 117
Expected Count
2.8 40.5 14.3 13.8 45.6 117.0
Total Count 6 88 31 30 99 254
Expected Count
6.0 88.0 31.0 30.0 99.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 31.104(a) 4 .000Likelihood Ratio 36.167 4 .000Linear-by-Linear Association
.215 1 .643
N of Valid Cases254
a 2 cells (20.0%) have expected count less than 5. The minimum expected count is 2.76.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .029 .062 .463 .644(c)Ordinal by Ordinal Spearman
Correlation.007 .063 .118 .906(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
5
Crosstab
7.rule with an iron hand.
Totalnever seldomoccasiona
ly often Alwaysgender of respondent
male Count 36 10 33 7 51 137
Expected Count
34.0 17.8 26.4 24.3 34.5 137.0
female Count 27 23 16 38 13 117
Expected Count
29.0 15.2 22.6 20.7 29.5 117.0
Total Count 63 33 49 45 64 254
Expected Count
63.0 33.0 49.0 45.0 64.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 54.989(a) 4 .000Likelihood Ratio 58.602 4 .000Linear-by-Linear Association
2.591 1 .107
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 15.20.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R -.101 .061 -1.615 .108(c)Ordinal by Ordinal Spearman
Correlation-.110 .063 -1.763 .079(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
6
Crosstab
8.find time to listen to gruop member.
Totalseldomoccasiona
ly often Alwaysgender of respondent
male Count 61 3 15 58 137
Expected Count
45.3 7.6 23.2 60.9 137.0
female Count 23 11 28 55 117
Expected Count
38.7 6.4 19.8 52.1 117.0
Total Count 84 14 43 113 254
Expected Count
84.0 14.0 43.0 113.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 24.348(a) 3 .000Likelihood Ratio 25.186 3 .000Linear-by-Linear Association
8.005 1 .005
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 6.45.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .178 .060 2.869 .004(c)Ordinal by Ordinal Spearman
Correlation.152 .062 2.441 .015(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
7
Crosstab
9.criticize poor work.
Totalnever seldomoccasion
aly often Alwaysgender of respondent
male Count 20 24 40 40 13 137
Expected Count
23.7 21.6 27.5 57.2 7.0 137.0
female Count 24 16 11 66 0 117
Expected Count
20.3 18.4 23.5 48.8 6.0 117.0
Total Count 44 40 51 106 13 254
Expected Count
44.0 40.0 51.0 106.0 13.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 36.483(a) 4 .000Likelihood Ratio 42.382 4 .000Linear-by-Linear Association
.000 1 .987
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 5.99.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .001 .063 .016 .987(c)Ordinal by Ordinal Spearman
Correlation.034 .064 .548 .584(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
8
Crosstab
11.speak in manner not to be questioned
Totalnever seldomoccasion
aly often Alwaysgender of respondent
male Count 8 25 23 29 52 137
Expected Count
10.2 25.9 12.4 43.7 44.8 137.0
female Count 11 23 0 52 31 117
Expected Count
8.8 22.1 10.6 37.3 38.2 117.0
Total Count 19 48 23 81 83 254
Expected Count
19.0 48.0 23.0 81.0 83.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 34.037(a) 4 .000Likelihood Ratio 42.860 4 .000Linear-by-Linear Association
.246 1 .620
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 8.75.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R -.031 .063 -.495 .621(c)Ordinal by Ordinal Spearman
Correlation-.044 .063 -.698 .486(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
9
Crosstab
12.keep to myself.
TotalAlways oftenoccasiona
ly seldom nevergender of respondent
male Count 44 38 36 10 9 137
Expected Count
53.9 20.5 25.4 17.8 19.4 137.0
female Count 56 0 11 23 27 117
Expected Count
46.1 17.5 21.6 15.2 16.6 117.0
Total Count 100 38 47 33 36 254
Expected Count
100.0 38.0 47.0 33.0 36.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 65.692(a) 4 .000Likelihood Ratio 81.236 4 .000Linear-by-Linear Association
5.071 1 .024
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 15.20.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .142 .063 2.270 .024(c)Ordinal by Ordinal Spearman
Correlation.081 .068 1.292 .198(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
10
Crosstab
13.look out for the personal welfare of individual group member.
Totalnever seldomoccasion
aly often Alwaysgender of respondent
male Count 17 51 8 23 38 137
Expected Count
21.6 36.1 12.9 32.9 33.4 137.0
female Count 23 16 16 38 24 117
Expected Count
18.4 30.9 11.1 28.1 28.6 117.0
Total Count40 67 24 61 62 254
Expected Count 40.0 67.0 24.0 61.0 62.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 27.294(a) 4 .000Likelihood Ratio 28.183 4 .000Linear-by-Linear Association
.319 1 .572
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 11.06.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .036 .063 .564 .573(c)Ordinal by Ordinal Spearman
Correlation.019 .064 .299 .766(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
11
Crosstab
14.assign group member to paticular tasks.
Totalseldomoccasiona
ly often Alwaysgender of respondent
male Count 59 20 9 49 137
Expected Count
38.3 37.8 21.6 39.4 137.0
female Count 12 50 31 24 117
Expected Count
32.7 32.2 18.4 33.6 117.0
Total Count 71 70 40 73 254
Expected Count
71.0 70.0 40.0 73.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 63.450(a) 3 .000Likelihood Ratio 67.156 3 .000Linear-by-Linear Association
2.248 1 .134
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 18.43.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .094 .061 1.503 .134(c)Ordinal by Ordinal Spearman
Correlation.120 .065 1.926 .055(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
12
Crosstab
16.schedule the work to be done.
Totalseldomoccasiona
ly often Alwaysgender of respondent
male Count 74 2 4 57 137
Expected Count
60.9 1.1 16.2 58.8 137.0
female Count 39 0 26 52 117
Expected Count
52.1 .9 13.8 50.2 117.0
Total Count 113 2 30 109 254
Expected Count
113.0 2.0 30.0 109.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 27.801(a) 3 .000Likelihood Ratio 30.475 3 .000Linear-by-Linear Association
6.562 1 .010
N of Valid Cases254
a 2 cells (25.0%) have expected count less than 5. The minimum expected count is .92.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .161 .061 2.590 .010(c)Ordinal by Ordinal Spearman
Correlation.130 .062 2.078 .039(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
13
Crosstab
17.maintain definite standards of performance.
Totalseldomoccasion
aly often Alwaysgender of respondent
male Count 58 16 11 52 137
Expected Count
43.7 8.6 27.0 57.7 137.0
female Count 23 0 39 55 117
Expected Count
37.3 7.4 23.0 49.3 117.0
Total Count 81 16 50 107 254
Expected Count
81.0 16.0 50.0 107.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 45.595(a) 3 .000Likelihood Ratio 52.946 3 .000Linear-by-Linear Association
16.324 1 .000
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 7.37.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .254 .059 4.169 .000(c)Ordinal by Ordinal Spearman
Correlation.213 .061 3.457 .001(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
14
Crosstab
18.refuse to explain my action.
TotalAlway
s oftenoccasio
nalyseldo
m nevergender of respondent
male Count 49 9 26 31 22 137
Expected Count
26.4 10.8 29.1 23.2 47.5 137.0
female Count 0 11 28 12 66 117
Expected Count
22.6 9.2 24.9 19.8 40.5 117.0
Total Count 49 20 54 43 88 254
Expected Count
49.0 20.0 54.0 43.0 88.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 78.582(a) 4 .000Likelihood Ratio 98.342 4 .000Linear-by-Linear Association
52.521 1 .000
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 9.21.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .456 .047 8.125 .000(c)Ordinal by Ordinal Spearman
Correlation.453 .052 8.073 .000(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
15
Crosstab
20.act without consulting the group.
TotalAlwaysoccasion
aly seldom nevergender of respondent
male Count 64 32 7 34 137
Expected Count
62.6 25.4 3.8 45.3 137.0
female Count 52 15 0 50 117
Expected Count
53.4 21.6 3.2 38.7 117.0
Total Count 116 47 7 84 254
Expected Count
116.0 47.0 7.0 84.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 15.962(a) 3 .001Likelihood Ratio 18.728 3 .000Linear-by-Linear Association
2.500 1 .114
N of Valid Cases254
a 2 cells (25.0%) have expected count less than 5. The minimum expected count is 3.22.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .099 .063 1.586 .114(c)Ordinal by Ordinal Spearman
Correlation.099 .063 1.572 .117(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
16
Crosstab
21back up the members in their action.
Totalseldomoccasion
aly often Alwaysgender of respondent
male Count 65 15 7 50 137
Expected Count
62.0 16.2 10.2 48.5 137.0
female Count 50 15 12 40 117
Expected Count
53.0 13.8 8.8 41.5 117.0
Total Count 115 30 19 90 254
Expected Count
115.0 30.0 19.0 90.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 2.826(a) 3 .419Likelihood Ratio 2.830 3 .419Linear-by-Linear Association
.094 1 .759
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 8.75.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .019 .063 .306 .760(c)Ordinal by Ordinal Spearman
Correlation.021 .063 .332 .740(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
17
Crosstab
22.emphasize yhe meeting of deadlines.
Totalneverseldo
moccasio
naly oftenAlway
sgender of respondent
male Count 10 66 20 32 9 137
Expected Count
12.4 43.7 25.4 36.1 19.4 137.0
female Count 13 15 27 35 27 117
Expected Count
10.6 37.3 21.6 30.9 16.6 117.0
Total Count23 81 47 67 36 254
Expected Count 23.0 81.0 47.0 67.0 36.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 41.361(a) 4 .000Likelihood Ratio 44.080 4 .000Linear-by-Linear Association
18.861 1 .000
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 10.59.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .273 .061 4.506 .000(c)Ordinal by Ordinal Spearman
Correlation.280 .061 4.622 .000(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
18
Crosstab
23.treat all group members as my equals.
Totalneverseldo
moccasio
naly often Alwaysgender of respondent
male Count 20 71 6 8 32 137
Expected Count
10.8 52.9 3.2 30.7 39.4 137.0
female Count 0 27 0 49 41 117
Expected Count
9.2 45.1 2.8 26.3 33.6 117.0
Total Count 20 98 6 57 73 254
Expected Count
20.0 98.0 6.0 57.0 73.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 75.248(a) 4 .000Likelihood Ratio 88.839 4 .000Linear-by-Linear Association
43.085 1 .000
N of Valid Cases254
a 2 cells (20.0%) have expected count less than 5. The minimum expected count is 2.76.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .413 .055 7.192 .000(c)Ordinal by Ordinal Spearman
Correlation.384 .057 6.600 .000(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
19
Crosstab
24encourage the use of uniform procedures
Totalseldo
moccasio
naly oftenAlway
sgender of respondent
male Count 51 29 25 32 137
Expected Count
44.8 40.5 21.6 30.2 137.0
female Count 32 46 15 24 117
Expected Count
38.2 34.5 18.4 25.8 117.0
Total Count 83 75 40 56 254
Expected Count
83.0 75.0 40.0 56.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 10.335(a) 3 .016Likelihood Ratio 10.372 3 .016Linear-by-Linear Association
.007 1 .931
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 18.43.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R -.005 .062 -.086 .931(c)Ordinal by Ordinal Spearman
Correlation.012 .063 .189 .851(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
20
Crosstab
26.am willing to make changes
Totalseldo
moccasio
naly oftenAlway
sgender of respondent
male Count 56 17 36 28 137
Expected Count
30.2 35.6 40.5 30.7 137.0
female Count 0 49 39 29 117
Expected Count
25.8 30.4 34.5 26.3 117.0
Total Count56 66 75 57 254
Expected Count
56.0 66.0 75.0 57.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 70.515(a) 3 .000Likelihood Ratio 92.382 3 .000Linear-by-Linear Association
17.694 1 .000
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 25.80.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .264 .056 4.353 .000(c)Ordinal by Ordinal Spearman
Correlation.252 .060 4.134 .000(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
21
Crosstab
27.make sure that my part in organizational is understood by group
members.
Totalseldomoccasio
naly often Alwaysgender of respondent
male Count 63 13 4 57 137
Expected Count
55.0 7.0 23.2 51.8 137.0
female Count 39 0 39 39 117
Expected Count
47.0 6.0 19.8 44.2 117.0
Total Count 102 13 43 96 254
Expected Count
102.0 13.0 43.0 96.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 49.241(a) 3 .000Likelihood Ratio 58.536 3 .000Linear-by-Linear Association
2.445 1 .118
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 5.99.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .098 .062 1.568 .118(c)Ordinal by Ordinal Spearman
Correlation.056 .063 .892 .373(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
22
Crosstab
28.am friendly and approachable
Totalseldomoccasion
aly often Alwaysgender of respondent
male Count 55 21 5 56 137
Expected Count
50.7 11.3 23.2 51.8 137.0
female Count 39 0 38 40 117
Expected Count
43.3 9.7 19.8 44.2 117.0
Total Count 94 21 43 96 254
Expected Count
94.0 21.0 43.0 96.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 50.454(a) 3 .000Likelihood Ratio 61.650 3 .000Linear-by-Linear Association
1.788 1 .181
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 9.67.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .084 .062 1.339 .182(c)Ordinal by Ordinal Spearman
Correlation.046 .063 .728 .467(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
23
Crosstab
29.ask that group members follow standard rules and regulations.
Totalseldomoccasio
naly often Alwaysgender of respondent
male Count 48 28 29 32 137
Expected Count
25.9 36.1 34.0 41.0 137.0
female Count 0 39 34 44 117
Expected Count
22.1 30.9 29.0 35.0 117.0
Total Count 48 67 63 76 254
Expected Count
48.0 67.0 63.0 76.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 50.838(a) 3 .000Likelihood Ratio 69.080 3 .000Linear-by-Linear Association
26.689 1 .000
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 22.11.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .325 .054 5.451 .000(c)Ordinal by Ordinal Spearman
Correlation.313 .057 5.228 .000(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
24
Crosstab
31.make group members feel at ease when talking with
them.
Totalseldomoccasion
aly Alwaysgender of respondent
male Count 46 29 62 137
Expected Count
45.8 15.6 75.5 137.0
female Count 39 0 78 117
Expected Count
39.2 13.4 64.5 117.0
Total Count 85 29 140 254
Expected Count
85.0 29.0 140.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 30.016(a) 2 .000Likelihood Ratio 41.036 2 .000Linear-by-Linear Association
5.978 1 .014
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 13.36.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .154 .063 2.470 .014(c)Ordinal by Ordinal Spearman
Correlation.139 .063 2.230 .027(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
25
Crosstab
32.let group memgers know what is expected of them.
Totalseldomoccasion
aly often Alwaysgender of respondent
male Count 60 13 23 41 137
Expected Count
53.4 14.0 24.8 44.8 137.0
female Count 39 13 23 42 117
Expected Count
45.6 12.0 21.2 38.2 117.0
Total Count 99 26 46 83 254
Expected Count
99.0 26.0 46.0 83.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 2.910(a) 3 .406Likelihood Ratio 2.924 3 .403Linear-by-Linear Association
2.390 1 .122
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 11.98.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .097 .062 1.550 .122(c)Ordinal by Ordinal Spearman
Correlation.097 .062 1.552 .122(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
26
Crosstab
34.put suggestions made by the group into operation.
Totalseldomoccasio
naly often Alwaysgender of respondent
male Count 45 25 48 19 137
Expected Count
36.7 50.2 39.9 10.2 137.0
female Count 23 68 26 0 117
Expected Count
31.3 42.8 34.1 8.8 117.0
Total Count 68 93 74 19 254
Expected Count
68.0 93.0 74.0 19.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 51.283(a) 3 .000Likelihood Ratio 59.310 3 .000Linear-by-Linear Association
5.682 1 .017
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 8.75.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R -.150 .058 -2.406 .017(c)Ordinal by Ordinal Spearman
Correlation-.129 .064 -2.070 .039(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
27
Crosstab
35.see to it that group members are working up to capacity.
Totalseldomoccasio
naly often Alwaysgender of respondent
male Count 74 1 7 55 137
Expected Count
60.9 .5 30.7 44.8 137.0
female Count 39 0 50 28 117
Expected Count
52.1 .5 26.3 38.2 117.0
Total Count 113 1 57 83 254
Expected Count
113.0 1.0 57.0 83.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 51.809(a) 3 .000Likelihood Ratio 56.332 3 .000Linear-by-Linear Association
2.353 1 .125
N of Valid Cases254
a 2 cells (25.0%) have expected count less than 5. The minimum expected count is .46.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .096 .062 1.538 .125(c)Ordinal by Ordinal Spearman
Correlation.049 .065 .772 .441(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
28
Crosstab
38.get group approval in important matters before going ahead.
Totalseldo
moccasio
naly oftenAlway
sgender of respondent
male Count 54 35 26 22 137
Expected Count
41.5 25.9 43.1 26.4 137.0
female Count 23 13 54 27 117
Expected Count
35.5 22.1 36.9 22.6 117.0
Total Count77 48 80 49 254
Expected Count
77.0 48.0 80.0 49.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 31.495(a) 3 .000Likelihood Ratio 32.257 3 .000Linear-by-Linear Association
18.972 1 .000
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 22.11.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .274 .060 4.520 .000(c)Ordinal by Ordinal Spearman
Correlation.274 .060 4.517 .000(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
29
Crosstab
39.see to it that the work of group members is coordinated.
Totalseldomoccasion
aly often Alwaysgender of respondent
male Count 60 16 17 44 137
Expected Count
53.4 8.6 9.2 65.8 137.0
female Count 39 0 0 78 117
Expected Count
45.6 7.4 7.8 56.2 117.0
Total Count 99 16 17 122 254
Expected Count
99.0 16.0 17.0 122.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 45.638(a) 3 .000Likelihood Ratio 58.262 3 .000Linear-by-Linear Association
14.380 1 .000
N of Valid Cases254
a 0 cells (.0%) have expected count less than 5. The minimum expected count is 7.37.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .238 .061 3.897 .000(c)Ordinal by Ordinal Spearman
Correlation.251 .062 4.123 .000(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.
30
Crosstab
40.keep the group working together as a team.
Total1.00 2.00 3.00 4.00gender of respondent
male Count94 1 2 40 137
Expected Count
71.7 .5 7.0 57.7 137.0
female Count39 0 11 67 117
Expected Count
61.3 .5 6.0 49.3 117.0
Total Count133 1 13 107 254
Expected Count 133.0 1.0 13.0 107.0 254.0
Chi-Square Tests
Value dfAsymp. Sig.
(2-sided)Pearson Chi-Square 35.433(a) 3 .000Likelihood Ratio 36.998 3 .000Linear-by-Linear Association
29.230 1 .000
N of Valid Cases254
a 2 cells (25.0%) have expected count less than 5. The minimum expected count is .46.
Symmetric Measures
Value
Asymp. Std.
Error(a)Approx.
T(b) Approx. Sig.Interval by Interval Pearson's R .340 .059 5.737 .000(c)Ordinal by Ordinal Spearman
Correlation.331 .059 5.562 .000(c)
N of Valid Cases 254
a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.