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Age of respondent

1. Do personal favour for group members.

1.do personal favour for group members.Tonever seldom occasionaly often Always

age ofrespondent

20-30 Count 3 0 13 0 0

ExpectedCount

6.3 2.1 4.8 1.5 1.3

31-40 Count 37 0 16 3 0

ExpectedCount

22.0 7.3 16.8 5.3 4.6

41-50 Count 17 32 27 20 7

ExpectedCount

40.6 13.4 30.8 9.7 8.5

above 50 Count 43 1 20 1 14

Expected

Count31.1 10.3 23.6 7.5 6.5

Total Count 100 33 76 24 21

ExpectedCount

100.0 33.0 76.0 24.0 21.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 122.570(a) 12 .000

Likelihood Ratio 133.958 12 .000Linear-by-LinearAssociation

1.075 1 .300

N of Valid Cases254

a 5 cells (25.0%) have expected count less than 5. The minimum expectedcount is 1.32.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. SInterval by Interval Pearson's R .065 .060 1.037 .301

Ordinal by Ordinal SpearmanCorrelation

.035 .066 .562 .574

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.

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2.make my attitudes clear to group

2.make my attitudes clear to group

Totalseldom occasionally often Alwaysage ofrespondent

20-30 Count 2 0 0 14

ExpectedCount

5.4 1.9 2.1 6.6 16

31-40 Count 21 3 29 3 5

ExpectedCount

18.7 6.6 7.5 23.1 56

41-50 Count 38 26 3 36 10

ExpectedCount

34.5 12.2 13.8 42.6 103

above 50 Count 24 1 2 52

ExpectedCount

26.4 9.3 10.6 32.7 79

Total Count85 30 34 105 25

ExpectedCount

85.0 30.0 34.0 105.0 254

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 147.478(a) 9 .000

Likelihood Ratio 141.584 9 .000

Linear-by-LinearAssociation

1.356 1 .244

N of Valid Cases

254

a 2 cells (12.5%) have expected count less than 5. The minimum expected count is 1.89.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R .073 .065 1.165 .245(c)

Ordinal by Ordinal SpearmanCorrelation

.151 .066 2.427 .016(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.

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3.do little things to make it pleasent to be member of the group

3.do little things to make it pleasent to be member of the group

Tonever seldom occasionaly often Always

age ofrespondent

20-30 Count 0 2 0 13 1

ExpectedCount

.1 2.2 6.3 2.5 5.0

31-40 Count 0 21 29 2 4

ExpectedCount

.2 7.7 22.0 8.6 17.4

41-50 Count 0 2 37 24 40

ExpectedCount

.4 14.2 40.6 15.8 32.0

above 50 Count 1 10 34 0 34

ExpectedCount .3 10.9 31.1 12.1 24.6

Total Count 1 35 100 39 79

ExpectedCount

1.0 35.0 100.0 39.0 79.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 130.510(a) 12 .000

Likelihood Ratio 132.009 12 .000

Linear-by-Linear

Association 9.459 1 .002N of Valid Cases

254

a 7 cells (35.0%) have expected count less than 5. The minimum expectedcount is .06.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. S

Interval by Interval Pearson's R .193 .060 3.128 .002

Ordinal by Ordinal SpearmanCorrelation .203 .065 3.295 .001

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.

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4.try out my new ideas with the group

4.try out my new ideas with the groupTotalseldom occasionally often Always

age ofrespondent

20-30 Count 3 0 0 13 16

ExpectedCount

6.9 2.4 2.9 3.8 16.0

31-40 Count 22 14 15 5 56

ExpectedCount

24.3 8.4 10.1 13.2 56.0

41-50 Count 57 15 16 15 103

ExpectedCount

44.6 15.4 18.7 24.3 103.0

above 50 Count 28 9 15 27 79

Expected

Count34.2 11.8 14.3 18.7 79.0

Total Count 110 38 46 60 254

ExpectedCount

110.0 38.0 46.0 60.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 54.411(a) 9 .000

Likelihood Ratio 52.158 9 .000Linear-by-Linear

Association.120 1 .729

N of Valid Cases254

a 3 cells (18.8%) have expected count less than 5. The minimum expectedcount is 2.39.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx.

Interval by Interval Pearson's R -.022 .070 -.346 .7

Ordinal by Ordinal SpearmanCorrelation

.023 .068 .371 .7

N of Valid Cases 254

a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.

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c Based on normal approximation.

6.am easy to understand.

6.am easy to understand.

Tonever seldom occasionaly often Always

age ofrespondent

20-30 Count 0 2 1 0 13

ExpectedCount

.4 5.5 2.0 1.9 6.2

31-40 Count 0 35 1 15 5

ExpectedCount

1.3 19.4 6.8 6.6 21.8

41-50 Count 6 40 3 0 54

ExpectedCount

2.4 35.7 12.6 12.2 40.1

above 50 Count 0 11 26 15 27

ExpectedCount

1.9 27.4 9.6 9.3 30.8

Total Count 6 88 31 30 99

ExpectedCount

6.0 88.0 31.0 30.0 99.0

Chi-Square Tests

Value df

Asymp. Sig.

(2-sided)Pearson Chi-Square 128.089(a) 12 .000

Likelihood Ratio 143.028 12 .000

Linear-by-LinearAssociation

1.619 1 .203

N of Valid Cases254

a 6 cells (30.0%) have expected count less than 5. The minimum expectedcount is .38.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) ApproInterval by Interval Pearson's R .080 .059 1.274

Ordinal by Ordinal SpearmanCorrelation

.133 .058 2.131

N of Valid Cases 254

a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.

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c Based on normal approximation.

7.rule with an iron hand.

7.rule with an iron hand.

Tonever seldom occasionaly often Always

age ofrespondent

20-30 Count 0 0 13 2 1

ExpectedCount

4.0 2.1 3.1 2.8 4.0

31-40 Count 14 0 5 36 1

ExpectedCount

13.9 7.3 10.8 9.9 14.1

41-50 Count 36 0 23 2 42

ExpectedCount

25.5 13.4 19.9 18.2 26.0

above 50 Count 13 33 8 5 20

ExpectedCount

19.6 10.3 15.2 14.0 19.9

Total Count 63 33 49 45 64

ExpectedCount

63.0 33.0 49.0 45.0 64.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 235.884(a) 12 .000

Likelihood Ratio 222.236 12 .000

Linear-by-LinearAssociation

2.160 1 .142

N of Valid Cases254

a 5 cells (25.0%) have expected count less than 5. The minimum expectedcount is 2.08.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx

Interval by Interval Pearson's R -.092 .050 -1.473 .1

Ordinal by Ordinal SpearmanCorrelation

-.075 .057 -1.190 .2

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.

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8.find time to listen to gruop member.

8.find time to listen to gruop member.

Totalseldom occasionaly often Always

age ofrespondent

20-30 Count 2 0 0 14 16

ExpectedCount

5.3 .9 2.7 7.1 16.0

31-40 Count 21 0 14 21 56

ExpectedCount

18.5 3.1 9.5 24.9 56.0

41-50 Count 37 1 16 49 103

Expected

Count

34.1 5.7 17.4 45.8 103.0

above 50 Count 24 13 13 29 79

ExpectedCount

26.1 4.4 13.4 35.1 79.0

Total Count 84 14 43 113 254

ExpectedCount

84.0 14.0 43.0 113.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 41.349(a) 9 .000

Likelihood Ratio 43.009 9 .000Linear-by-Linear

Association3.206 1 .073

N of Valid Cases254

a 4 cells (25.0%) have expected count less than 5. The minimum expectedcount is .88.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b)

Interval by Interval Pearson's R -.113 .060 -1.798

Ordinal by Ordinal SpearmanCorrelation

-.094 .062 -1.495

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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.criticize poor work.

9.criticize poor work.

Tonever seldom occasionaly often Always

age ofrespondent

20-30 Count 1 0 13 2 0

ExpectedCount

2.8 2.5 3.2 6.7 .8

31-40 Count 1 3 2 50 0

ExpectedCount

9.7 8.8 11.2 23.4 2.9

41-50 Count 22 35 22 24 0

ExpectedCount

17.8 16.2 20.7 43.0 5.3

above 50 Count 20 2 14 30 13

ExpectedCount

13.7 12.4 15.9 33.0 4.0

Total Count 44 40 51 106 13

ExpectedCount

44.0 40.0 51.0 106.0 13.0

Chi-Square Tests

Value df

Asymp. Sig.

(2-sided)Pearson Chi-Square 158.474(a) 12 .000

Likelihood Ratio 154.490 12 .000

Linear-by-LinearAssociation

3.243 1 .072

N of Valid Cases254

a 6 cells (30.0%) have expected count less than 5. The minimum expectedcount is .82.

Symmetric Measures

Value

Asymp.

Std.Error(a)

Approx.T(b) Approx. Sig.

Interval by Interval Pearson's R -.113 .058 -1.809 .072(c)

Ordinal by Ordinal SpearmanCorrelation

-.088 .067 -1.396 .164(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.

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11.speak in manner not to be questioned

11.speak in manner not to be questioned

Tonever seldom occasionaly often Always

age ofrespondent

20-30 Count 0 2 0 1 13

ExpectedCount

1.2 3.0 1.4 5.1 5.2

31-40 Count 0 21 0 15 20

ExpectedCount

4.2 10.6 5.1 17.9 18.3

41-50 Count 19 15 10 25 34

ExpectedCount

7.7 19.5 9.3 32.8 33.7

above 50 Count 0 10 13 40 16

ExpectedCount

5.9 14.9 7.2 25.2 25.8

Total Count 19 48 23 81 83

ExpectedCount

19.0 48.0 23.0 81.0 83.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 82.232(a) 12 .000

Likelihood Ratio 89.985 12 .000

Linear-by-LinearAssociation

.777 1 .378

N of Valid Cases254

a 4 cells (20.0%) have expected count less than 5. The minimum expected count is1.20.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.Interval by Interval Pearson's R -.055 .056 -.881 .379(c)

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Ordinal by Ordinal SpearmanCorrelation

-.085 .061 -1.360 .175(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.keep to myself.

12.keep to myself.

To Always often occasionaly seldom never

age ofrespondent

20-30 Count 1 13 0 2 0

ExpectedCount

6.3 2.4 3.0 2.1 2.3

31-40 Count 30 2 0 21 3

ExpectedCount

22.0 8.4 10.4 7.3 7.9

41-50 Count 26 9 34 8 26 ExpectedCount

40.6 15.4 19.1 13.4 14.6

above 50 Count 43 14 13 2 7

ExpectedCount

31.1 11.8 14.6 10.3 11.2

Total Count 100 38 47 33 36

ExpectedCount

100.0 38.0 47.0 33.0 36.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 147.760(a) 12 .000

Likelihood Ratio 136.373 12 .000

Linear-by-LinearAssociation

1.793 1 .181

N of Valid Cases254

a 4 cells (20.0%) have expected count less than 5. The minimum expected count is 2.08.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx.

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Interval by Interval Pearson's R -.084 .055 -1.341 .1

Ordinal by Ordinal SpearmanCorrelation

-.121 .060 -1.927 .0

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.look out for the personal welfare of individual group member.

13.look out for the personal welfare of individual group member.

Tonever seldom occasionaly often Alwaysage ofrespondent

20-30 Count 2 0 0 13 1

ExpectedCount

2.5 4.2 1.5 3.8 3.9

31-40 Count 21 14 3 17 1

ExpectedCount

8.8 14.8 5.3 13.4 13.7

41-50 Count2 51 13 3 34

ExpectedCount

16.2 27.2 9.7 24.7 25.1

above 50 Count 15 2 8 28 26

ExpectedCount

12.4 20.8 7.5 19.0 19.3

Total Count 40 67 24 61 62

ExpectedCount

40.0 67.0 24.0 61.0 62.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 141.281(a) 12 .000

Likelihood Ratio 168.247 12 .000

Linear-by-LinearAssociation

9.942 1 .002

N of Valid Cases254

a 5 cells (25.0%) have expected count less than 5. The minimum expectedcount is 1.51.

Symmetric Measures

Value

Asymp.Std.Error(a)

Approx.T(b) Approx. S

Interval by Interval Pearson's R .198 .061 3.211 .001

Ordinal by Ordinal SpearmanCorrelation

.240 .060 3.919 .000

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.

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14.assign group member to paticular tasks.

14.assign group member to paticular tasks.

Totalseldom occasionaly often Alwaysage ofrespondent

20-30 Count 0 2 0 14 1

ExpectedCount

4.5 4.4 2.5 4.6 16

31-40 Count 0 24 29 3 5

Expected

Count15.7 15.4 8.8 16.1 56

41-50 Count 36 28 9 30 10

ExpectedCount

28.8 28.4 16.2 29.6 103

above 50 Count 35 16 2 26 7

ExpectedCount

22.1 21.8 12.4 22.7 79

Total Count 71 70 40 73 25

ExpectedCount

71.0 70.0 40.0 73.0 254

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 128.132(a) 9 .000

Likelihood Ratio 135.806 9 .000

Linear-by-LinearAssociation

16.742 1 .000

N of Valid Cases254

a 4 cells (25.0%) have expected count less than 5. The minimum expected count is 2.52.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. S

Interval by Interval Pearson's R -.257 .059 -4.226 .000

Ordinal by Ordinal SpearmanCorrelation

-.244 .061 -3.989 .000

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.

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16. Schedule the work to be done.

16.schedule the work to be done.

Totalseldom occasionaly often Alwaysage ofrespondent

20-30 Count 2 0 0 14 16

ExpectedCount

7.1 .1 1.9 6.9 16.0

31-40 Count 35 0 15 6 56ExpectedCount

24.9 .4 6.6 24.0 56.0

41-50 Count 52 2 0 49 103

ExpectedCount

45.8 .8 12.2 44.2 103.0

above 50 Count 24 0 15 40 79

ExpectedCount

35.1 .6 9.3 33.9 79.0

Total Count 113 2 30 109 254

ExpectedCount

113.0 2.0 30.0 109.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 65.755(a) 9 .000

Likelihood Ratio 82.611 9 .000

Linear-by-LinearAssociation

2.536 1 .111

N of Valid Cases254

a 5 cells (31.3%) have expected count less than 5. The minimum expectedcount is .13.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. S

Interval by Interval Pearson's R .100 .063 1.597 .111

Ordinal by Ordinal SpearmanCorrelation

.145 .061 2.334 .020

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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.maintain definite standards of performance.

17.maintain definite standards of performance.

Totalseldom occasionaly often Always

age ofrespondent

20-30 Count 2 0 0 14 16

ExpectedCount

5.1 1.0 3.1 6.7 16.0

31-40 Count 21 0 3 32 56

ExpectedCount

17.9 3.5 11.0 23.6 56.0

41-50 Count 42 8 20 33 103

ExpectedCount

32.8 6.5 20.3 43.4 103.0

above 50 Count 16 8 27 28 79

ExpectedCount

25.2 5.0 15.6 33.3 79.0

Total Count 81 16 50 107 254

ExpectedCount

81.0 16.0 50.0 107.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 46.634(a) 9 .000

Likelihood Ratio 53.807 9 .000Linear-by-Linear

Association1.792 1 .181

N of Valid Cases254

a 4 cells (25.0%) have expected count less than 5. The minimum expectedcount is 1.01.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. SInterval by Interval Pearson's R -.084 .061 -1.341 .181

Ordinal by Ordinal SpearmanCorrelation

-.098 .064 -1.562 .119

N of Valid Cases 254

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a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.

18.refuse to explain my action.

18.refuse to explain my action.

To Always often occasionaly seldom neverage ofrespondent

20-30 Count 0 0 1 13 2

ExpectedCount

3.1 1.3 3.4 2.7 5.5

31-40 Count 0 0 16 2 38

ExpectedCount

10.8 4.4 11.9 9.5 19.4

41-50 Count 20 7 16 15 45

ExpectedCount

19.9 8.1 21.9 17.4 35.7

above 50 Count 29 13 21 13 3

ExpectedCount

15.2 6.2 16.8 13.4 27.4

Total Count 49 20 54 43 88

ExpectedCount

49.0 20.0 54.0 43.0 88.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 134.847(a) 12 .000

Likelihood Ratio 144.956 12 .000

Linear-by-LinearAssociation

57.408 1 .000

N of Valid Cases254

a 5 cells (25.0%) have expected count less than 5. The minimumexpected count is 1.26.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) ApproInterval by Interval Pearson's R -.476 .036 -8.600

Ordinal by Ordinal SpearmanCorrelation

-.499 .039 -9.140

N of Valid Cases 254

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a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.

20.act without consulting the group.

20.act without consulting the group.

Total Always occasionaly seldom never

age ofrespondent

20-30 Count 3 13 0 0 16

ExpectedCount

7.3 3.0 .4 5.3 16.0

31-40 Count 36 17 0 3 56

ExpectedCount

25.6 10.4 1.5 18.5 56.0

41-50 Count 41 2 7 53 103

ExpectedCount

47.0 19.1 2.8 34.1 103.0

above 50 Count 36 15 0 28 79

ExpectedCount

36.1 14.6 2.2 26.1 79.0

Total Count 116 47 7 84 254

ExpectedCount

116.0 47.0 7.0 84.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 100.359(a) 9 .000

Likelihood Ratio 107.362 9 .000

Linear-by-LinearAssociation

5.768 1 .016

N of Valid Cases254

a 5 cells (31.3%) have expected count less than 5. The minimum expected count is .44.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R .151 .051 2.425 .016(c)

Ordinal by Ordinal SpearmanCorrelation

.144 .057 2.318 .021(c)

N of Valid Cases 254

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a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.

21back up the members in their action.

21back up the members in their action.

Totalseldom occasionaly often Alwaysage ofrespondent

20-30 Count 2 0 0 14 16

ExpectedCount

7.2 1.9 1.2 5.7 16.0

31-40 Count 35 15 0 6 56

ExpectedCount

25.4 6.6 4.2 19.8 56.0

41-50 Count 41 13 6 43 103

ExpectedCount

46.6 12.2 7.7 36.5 103.0

above 50 Count 37 2 13 27 79

ExpectedCount

35.8 9.3 5.9 28.0 79.0

Total Count 115 30 19 90 254

ExpectedCount

115.0 30.0 19.0 90.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 63.891(a) 9 .000

Likelihood Ratio 70.109 9 .000

Linear-by-LinearAssociation

.043 1 .835

N of Valid Cases254

a 3 cells (18.8%) have expected count less than 5. The minimum expectedcount is 1.20.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) ApproInterval by Interval Pearson's R .013 .066 .207

Ordinal by Ordinal SpearmanCorrelation

.029 .064 .460

N of Valid Cases 254

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a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.

22.emphasize yhe meeting of deadlines.

22.emphasize yhe meeting of deadlines.

never seldom occasionaly often Always

age ofrespondent

20-30 Count 1 0 13 2 0

ExpectedCount

1.4 5.1 3.0 4.2 2.3

31-40 Count 1 15 5 21 14

Expected

Count

5.1 17.9 10.4 14.8 7.9

41-50 Count 8 42 15 22 16

ExpectedCount

9.3 32.8 19.1 27.2 14.6

above 50 Count 13 24 14 22 6

ExpectedCount

7.2 25.2 14.6 20.8 11.2

Total Count 23 81 47 67 36

ExpectedCount

23.0 81.0 47.0 67.0 36.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 68.538(a) 12 .000

Likelihood Ratio 61.189 12 .000

Linear-by-LinearAssociation

7.517 1 .006

N of Valid Cases254

a 4 cells (20.0%) have expected count less than 5. The minimumexpected count is 1.45.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx.

Interval by Interval Pearson's R -.172 .054 -2.778 .00

Ordinal by Ordinal SpearmanCorrelation

-.187 .058 -3.016 .00

N of Valid Cases 254

a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.

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c Based on normal approximation.

23.treat all group members as my equals.

23.treat all group members as my equals.

never seldom occasionaly often Alwa

age ofrespondent

20-30 Count 0 13 0 2

ExpectedCount

1.3 6.2 .4 3.6

31-40 Count 0 16 0 36 ExpectedCount

4.4 21.6 1.3 12.6

41-50 Count 20 34 6 15

ExpectedCount

8.1 39.7 2.4 23.1

above 50 Count 0 35 0 4

ExpectedCount

6.2 30.5 1.9 17.7

Total Count 20 98 6 57

ExpectedCount

20.0 98.0 6.0 57.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 131.665(a) 12 .000

Likelihood Ratio 132.308 12 .000Linear-by-Linear

Association4.256 1 .039

N of Valid Cases254

a 8 cells (40.0%) have expected count less than 5. The minimum expectedcount is .38.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) ApproInterval by Interval Pearson's R .130 .055 2.077

Ordinal by Ordinal SpearmanCorrelation

.160 .058 2.575

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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.

24encourage the use of uniform procedures

24encourage the use of uniform procedures

Totalseldom occasionaly often Always

age ofrespondent

20-30 Count 0 2 13 1 1

ExpectedCount

5.2 4.7 2.5 3.5 16

31-40 Count 17 21 17 1 5

ExpectedCount

18.3 16.5 8.8 12.3 56

41-50 Count 44 23 8 28 10

ExpectedCount

33.7 30.4 16.2 22.7 103

above 50 Count 22 29 2 26 7

ExpectedCount

25.8 23.3 12.4 17.4 79

Total Count 83 75 40 56 25

ExpectedCount

83.0 75.0 40.0 56.0 254

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 96.836(a) 9 .000

Likelihood Ratio 91.784 9 .000

Linear-by-LinearAssociation

.023 1 .879

N of Valid Cases254

a 3 cells (18.8%) have expected count less than 5. The minimumexpected count is 2.52.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) ApproxInterval by Interval Pearson's R .010 .056 .152 .8

Ordinal by Ordinal SpearmanCorrelation

.015 .060 .234 .8

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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.am willing to make changes

26.am willing to make changes

Totalseldom occasionaly often Always

age ofrespondent

20-30 Count 0 2 0 14 16

ExpectedCount

3.5 4.2 4.7 3.6 16.0

31-40 Count 0 36 3 17 56ExpectedCount

12.3 14.6 16.5 12.6 56.0

41-50 Count 34 17 45 7 103

ExpectedCount

22.7 26.8 30.4 23.1 103.0

above 50 Count 22 11 27 19 79

ExpectedCount

17.4 20.5 23.3 17.7 79.0

Total Count 56 66 75 57 254

ExpectedCount

56.0 66.0 75.0 57.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 129.860(a) 9 .000

Likelihood Ratio 138.060 9 .000

Linear-by-LinearAssociation

9.026 1 .003

N of Valid Cases254

a 4 cells (25.0%) have expected count less than 5. The minimum expectedcount is 3.53.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R -.189 .063 -3.053 .003(c)

Ordinal by Ordinal SpearmanCorrelation

-.135 .067 -2.167 .031(c)

8/8/2019 Age of Respondent

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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.make sure that my part in organizational is understood by groupmembers.

27.make sure that my part in organizational isunderstood by group members.

Totalseldom occasionaly often Always

age ofrespondent 20-30 Count 2 0 0 14 1ExpectedCount

6.4 .8 2.7 6.0 16

31-40 Count 35 0 3 18 5

ExpectedCount

22.5 2.9 9.5 21.2 56

41-50 Count 41 13 13 36 10

ExpectedCount

41.4 5.3 17.4 38.9 103

above 50 Count 24 0 27 28 7

ExpectedCount

31.7 4.0 13.4 29.9 79

Total Count 102 13 43 96 25

ExpectedCount

102.0 13.0 43.0 96.0 254

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 64.369(a) 9 .000

Likelihood Ratio 67.490 9 .000Linear-by-Linear

Association.165 1 .685

N of Valid Cases254

a 4 cells (25.0%) have expected count less than 5. The minimum expected count is .82.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R .026 .065 .405 .686(c)

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Ordinal by Ordinal SpearmanCorrelation

.037 .066 .587 .558(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.am friendly and approachable

28.am friendly and approachable

Totalseldom occasionaly often Always

age of

respondent

20-30 Count 2 0 0 14 16

ExpectedCount

5.9 1.3 2.7 6.0 16.0

31-40 Count 35 0 15 6 56

ExpectedCount

20.7 4.6 9.5 21.2 56.0

41-50 Count 33 21 0 49 103

ExpectedCount

38.1 8.5 17.4 38.9 103.0

above 50 Count 24 0 28 27 79

ExpectedCount

29.2 6.5 13.4 29.9 79.0

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 108.400(a) 9 .000

Likelihood Ratio 131.895 9 .000

Linear-by-LinearAssociation

1.038 1 .308

N of Valid Cases254

a 3 cells (18.8%) have expected count less than 5. The minimum expected count is 1.32.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R .064 .064 1.019 .309(c)

Ordinal by Ordinal Spearman .089 .063 1.413 .159(c)

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Correlation

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.ask that group members follow standard rules and regulations.

29.ask that group members follow standard rules andregulations.

Totalseldom occasionaly often Alwaysage ofrespondent

20-30 Count 0 2 13 1 16

ExpectedCount

3.0 4.2 4.0 4.8 16.0

31-40 Count 0 35 2 19 56

ExpectedCount

10.6 14.8 13.9 16.8 56.0

41-50 Count 27 27 15 34 103

ExpectedCount

19.5 27.2 25.5 30.8 103.0

above 50 Count 21 3 33 22 79

ExpectedCount

14.9 20.8 19.6 23.6 79.0

Total Count 48 67 63 76 254ExpectedCount

48.0 67.0 63.0 76.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 111.129(a) 9 .000

Likelihood Ratio 124.124 9 .000

Linear-by-LinearAssociation

.273 1 .602

N of Valid Cases 254

a 4 cells (25.0%) have expected count less than 5. The minimum expected count is 3.02.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

8/8/2019 Age of Respondent

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Interval by Interval Pearson's R -.033 .053 -.521 .603(c)

Ordinal by Ordinal SpearmanCorrelation

-.010 .059 -.159 .874(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.

31.make group members feel at ease when talking with them.

31.make group members feel at easewhen talking with them.

Totalseldom occasionaly Alwaysage ofrespondent

20-30 Count 2 0 14 16

ExpectedCount

5.4 1.8 8.8 16.0

31-40 Count 35 0 21 56

ExpectedCount

18.7 6.4 30.9 56.0

41-50 Count 25 28 50 103

ExpectedCount

34.5 11.8 56.8 103.0

above 50 Count 23 1 55 79

ExpectedCount

26.4 9.0 43.5 79.0

Total Count 85 29 140 254

ExpectedCount

85.0 29.0 140.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 67.055(a) 6 .000

Likelihood Ratio 71.262 6 .000

Linear-by-LinearAssociation

3.133 1 .077

N of Valid Cases254

a 1 cells (8.3%) have expected count less than 5. The minimum expected count is 1.83.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx.

8/8/2019 Age of Respondent

26/63

Interval by Interval Pearson's R .111 .065 1.778 .07

Ordinal by Ordinal SpearmanCorrelation

.151 .065 2.421 .01

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.

32.let group memgers know what is expected of them.

Crosstab

32.let group memgers know what is expected ofthem.

Totalseldom occasionaly often Alwaysage ofrespondent

20-30 Count 2 1 0 13 16

ExpectedCount

6.2 1.6 2.9 5.2 16.0

31-40 Count 35 1 0 20 56

ExpectedCount

21.8 5.7 10.1 18.3 56.0

41-50 Count 47 9 13 34 103

ExpectedCount

40.1 10.5 18.7 33.7 103.0

above 50 Count 15 15 33 16 79

ExpectedCount

30.8 8.1 14.3 25.8 79.0

Total Count 99 26 46 83 254

ExpectedCount

99.0 26.0 46.0 83.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 85.010(a) 9 .000

Likelihood Ratio 91.345 9 .000

Linear-by-LinearAssociation

.003 1 .956

N of Valid Cases254

a 2 cells (12.5%) have expected count less than 5. The minimum expected count is 1.64.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

8/8/2019 Age of Respondent

27/63

Interval by Interval Pearson's R .003 .063 .055 .956(c)

Ordinal by Ordinal SpearmanCorrelation

.027 .066 .434 .665(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.

34.put suggestions made by the group into operation.

34.put suggestions made by the group into operation.

Totalseldom occasionaly often Alwaysage ofrespondent

20-30 Count 0 3 13 0 16

ExpectedCount

4.3 5.9 4.7 1.2 16.0

31-40 Count 0 39 17 0 56

ExpectedCount

15.0 20.5 16.3 4.2 56.0

41-50 Count 27 28 35 13 103

ExpectedCount

27.6 37.7 30.0 7.7 103.0

above 50 Count 41 23 9 6 79

ExpectedCount

21.1 28.9 23.0 5.9 79.0

Total Count 68 93 74 19 254ExpectedCount

68.0 93.0 74.0 19.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 93.050(a) 9 .000

Likelihood Ratio 107.776 9 .000

Linear-by-LinearAssociation

22.850 1 .000

N of Valid Cases254

a 4 cells (25.0%) have expected count less than 5. The minimum expected count is 1.20.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

8/8/2019 Age of Respondent

28/63

Interval by Interval Pearson's R -.301 .051 -5.002 .000(c)

Ordinal by Ordinal SpearmanCorrelation

-.334 .054 -5.627 .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.

35.see to it that group members are working up to capacity.

35.see to it that group members are working up tocapacity.

Totalseldom occasionaly often Alwaysage ofrespondent

20-30 Count 2 0 0 14 16

ExpectedCount

7.1 .1 3.6 5.2 16.0

31-40 Count 35 0 3 18 56

ExpectedCount

24.9 .2 12.6 18.3 56.0

41-50 Count 53 0 27 23 103

ExpectedCount

45.8 .4 23.1 33.7 103.0

above 50 Count 23 1 27 28 79

ExpectedCount

35.1 .3 17.7 25.8 79.0

Total Count 113 1 57 83 254

ExpectedCount

113.0 1.0 57.0 83.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 49.957(a) 9 .000

Likelihood Ratio 53.507 9 .000

Linear-by-LinearAssociation

.175 1 .676

N of Valid Cases254

a 5 cells (31.3%) have expected count less than 5. The minimum expectedcount is .06.

Symmetric Measures

8/8/2019 Age of Respondent

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Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R .026 .066 .417 .677(c)

Ordinal by Ordinal SpearmanCorrelation

.046 .068 .732 .465(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.

38.get group approval in important matters before going ahead.

38.get group approval in important matters beforegoing ahead.

Totalseldom occasionaly often Alwaysage ofrespondent

20-30 Count 2 14 0 0 16

ExpectedCount

4.9 3.0 5.0 3.1 16.0

31-40 Count 21 3 29 3 56

ExpectedCount

17.0 10.6 17.6 10.8 56.0

41-50 Count 31 17 16 39 103

ExpectedCount

31.2 19.5 32.4 19.9 103.0

above 50 Count 23 14 35 7 79

ExpectedCount

23.9 14.9 24.9 15.2 79.0

Total Count 77 48 80 49 254

ExpectedCount

77.0 48.0 80.0 49.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 104.719(a) 9 .000

Likelihood Ratio 96.156 9 .000Linear-by-Linear

Association1.560 1 .212

N of Valid Cases254

a 3 cells (18.8%) have expected count less than 5. The minimum expected count is 3.02.

Symmetric Measures

8/8/2019 Age of Respondent

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Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R .079 .050 1.251 .212(c)

Ordinal by Ordinal SpearmanCorrelation

.058 .054 .926 .355(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.

39.see to it that the work of group members is coordinated.

39.see to it that the work of group members iscoordinated.

Totalseldom occasionaly often Always

age ofrespondent

20-30 Count 2 0 13 1 16

ExpectedCount

6.2 1.0 1.1 7.7 16.0

31-40 Count 35 0 2 19 56

ExpectedCount

21.8 3.5 3.7 26.9 56.0

41-50 Count 40 14 2 47 103

ExpectedCount

40.1 6.5 6.9 49.5 103.0

above 50 Count 22 2 0 55 79

ExpectedCount

30.8 5.0 5.3 37.9 79.0

Total Count 99 16 17 122 254

ExpectedCount

99.0 16.0 17.0 122.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 186.738(a) 9 .000

Likelihood Ratio 107.482 9 .000Linear-by-Linear

Association10.011 1 .002

N of Valid Cases254

a 5 cells (31.3%) have expected count less than 5. The minimum expected count is 1.01.

Symmetric Measures

8/8/2019 Age of Respondent

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Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R .199 .056 3.222 .001(c)

Ordinal by Ordinal SpearmanCorrelation

.258 .058 4.246 .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.

40.keep the group working together as a team.

Crosstab

40.keep the group working together as a team.

Total1.00 2.00 3.00 4.00

age ofrespondent

20-30 Count 2 0 0 14 16

ExpectedCount

8.4 .1 .8 6.7 16.0

31-40 Count 35 0 0 21 56

ExpectedCount

29.3 .2 2.9 23.6 56.0

41-50 Count 59 1 0 43 103

ExpectedCount

53.9 .4 5.3 43.4 103.0

above 50 Count 37 0 13 29 79

ExpectedCount 41.4 .3 4.0 33.3 79.0

Total Count 133 1 13 107 254

ExpectedCount

133.0 1.0 13.0 107.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 45.813(a) 9 .000

Likelihood Ratio 47.993 9 .000

Linear-by-Linear

Association 1.109 1 .292N of Valid Cases

254

a 7 cells (43.8%) have expected count less than 5. The minimum expectedcount is .06.

Symmetric Measures

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Value

Asymp.Std.

Error(a)Approx.

T(b) Appro

Interval by Interval Pearson's R -.066 .063 -1.053

Ordinal by Ordinal SpearmanCorrelation

-.046 .063 -.739

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.

Experience of respondent

1. Do personal favour for group members.

Crosstab

1.do personal favour for group members.

Totnever seldom occasionaly often Always

experience ofrespondent

0-10 Count 44 13 42 0 0

ExpectedCount

39.0 12.9 29.6 9.4 8.2

11-20 Count 0 0 0 7 0

ExpectedCount 2.8 .9 2.1 .7 .6

21-30 Count 56 20 34 17 21

ExpectedCount

58.3 19.2 44.3 14.0 12.2 1

Total Count 100 33 76 24 21

ExpectedCount

100.0 33.0 76.0 24.0 21.0 2

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 99.878(a) 8 .000

Likelihood Ratio 81.788 8 .000Linear-by-Linear

Association8.956 1 .003

N of Valid Cases254

a 5 cells (33.3%) have expected count less than 5. The minimum expectedcount is .58.

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Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.Interval by Interval Pearson's R .188 .053 3.041 .003(c)

Ordinal by Ordinal SpearmanCorrelation

.150 .059 2.401 .017(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.make my attitudes clear to group

2.make my attitudes clear to group

Totalseldom occasionally often Alwaysexperience ofrespondent

0-10 Count 35 0 34 30 99

ExpectedCount

33.1 11.7 13.3 40.9 99.0

11-20 Count 7 0 0 0 7

ExpectedCount

2.3 .8 .9 2.9 7.0

21-30 Count 43 30 0 75 148ExpectedCount

49.5 17.5 19.8 61.2 148.0

Total Count 85 30 34 105 254

ExpectedCount

85.0 30.0 34.0 105.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 93.876(a) 6 .000

Likelihood Ratio 115.407 6 .000Linear-by-Linear

Association.728 1 .394

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expectedcount is .83.

Symmetric Measures

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Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. S

Interval by Interval Pearson's R .054 .061 .853 .395

Ordinal by Ordinal SpearmanCorrelation

.106 .062 1.698 .091

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.do little things to make it pleasent to be member of the group

3.do little things to make it pleasent to be member of the group

Totnever seldom occasionaly often Always

experience ofrespondent

0-10 Count 0 27 35 24 13

ExpectedCount

.4 13.6 39.0 15.2 30.8

11-20 Count 0 0 7 0 0

ExpectedCount

.0 1.0 2.8 1.1 2.2

21-30 Count 1 8 58 15 66 ExpectedCount

.6 20.4 58.3 22.7 46.0 1

Total Count 1 35 100 39 79

ExpectedCount

1.0 35.0 100.0 39.0 79.0 2

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 59.150(a) 8 .000

Likelihood Ratio 62.561 8 .000Linear-by-Linear

Association25.104 1 .000

N of Valid Cases254

a 7 cells (46.7%) have expected count less than 5. The minimum expectedcount is .03.

Symmetric Measures

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Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R .315 .057 5.269 .000(c)

Ordinal by Ordinal SpearmanCorrelation

.317 .058 5.299 .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.

4.try out my new ideas with the group

4.try out my new ideas with the group

Totalseldom occasionally often Always

experience ofrespondent

0-10 Count 48 17 17 17 99

ExpectedCount

42.9 14.8 17.9 23.4 99.0

11-20 Count 0 7 0 0 7

Expected

Count 3.0 1.0 1.3 1.7 7.021-30 Count 62 14 29 43 148

ExpectedCount

64.1 22.1 26.8 35.0 148.0

Total Count 110 38 46 60 254

ExpectedCount

110.0 38.0 46.0 60.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 47.609(a) 6 .000Likelihood Ratio 34.886 6 .000Linear-by-Linear

Association4.265 1 .039

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expectedcount is 1.05.

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Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) ApproInterval by Interval Pearson's R .130 .062 2.079

Ordinal by Ordinal Spearman

Correlation .119 .062 1.904 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.am easy to understand.

6.am easy to understand.

Totnever seldom occasionaly often Always

experience ofrespondent

0-10 Count 0 51 1 17 30

ExpectedCount

2.3 34.3 12.1 11.7 38.6

11-20 Count 0 7 0 0 0

ExpectedCount

.2 2.4 .9 .8 2.7

21-30 Count 6 30 30 13 69

ExpectedCount

3.5 51.3 18.1 17.5 57.7 1

Total Count 6 88 31 30 99

ExpectedCount

6.0 88.0 31.0 30.0 99.0 2

Chi-Square Tests

Value df

Asymp. Sig.

(2-sided)Pearson Chi-Square 60.037(a) 8 .000

Likelihood Ratio 69.720 8 .000

Linear-by-LinearAssociation

7.647 1 .006

N of Valid Cases254

a 7 cells (46.7%) have expected count less than 5. The minimum expectedcount is .17.

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Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.Interval by Interval Pearson's R .174 .062 2.803 .005(c)

Ordinal by Ordinal SpearmanCorrelation

.201 .062 3.263 .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.

7.rule with an iron hand.

7.rule with an iron hand.

Totnever seldom occasionaly often Always

experience ofrespondent

0-10 Count 31 0 17 44 7

ExpectedCount

24.6 12.9 19.1 17.5 24.9

11-20 Count 0 0 0 0 7 ExpectedCount

1.7 .9 1.4 1.2 1.8

21-30 Count 32 33 32 1 50

ExpectedCount

36.7 19.2 28.6 26.2 37.3 1

Total Count 63 33 49 45 64

ExpectedCount

63.0 33.0 49.0 45.0 64.0 2

Chi-Square Tests

Value df Asymp. Sig.(2-sided)Pearson Chi-Square 127.868(a) 8 .000

Likelihood Ratio 149.892 8 .000

Linear-by-LinearAssociation

.051 1 .821

N of Valid Cases254

a 5 cells (33.3%) have expected count less than 5. The minimum expectedcount is .91.

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Symmetric Measures

a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.

8.find time to listen to gruop member.

8.find time to listen to gruop member.

Totalseldom occasionaly often Always

experience ofrespondent

0-10 Count 35 0 17 47 99

Expected

Count32.7 5.5 16.8 44.0 99.0

11-20 Count 0 0 7 0 7

ExpectedCount

2.3 .4 1.2 3.1 7.0

21-30 Count 49 14 19 66 148

ExpectedCount

48.9 8.2 25.1 65.8 148.0

Total Count 84 14 43 113 254

ExpectedCount

84.0 14.0 43.0 113.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 45.812(a) 6 .000

Likelihood Ratio 41.166 6 .000

Linear-by-LinearAssociation

.225 1 .635

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expected

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R .014 .061 .226 .822(c)

Ordinal by Ordinal SpearmanCorrelation

.026 .064 .413 .680(c)

N of Valid Cases 254

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count is .39.

Symmetric Measures

Value

Asymp.Std.

Error(a)

Approx.

T(b) ApproxInterval by Interval Pearson's R -.030 .064 -.474 .6

Ordinal by Ordinal SpearmanCorrelation

-.021 .064 -.339 .7

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.criticize poor work.

9.criticize poor work.

Totnever seldom occasionaly often Always

experience of

respondent

0-10 Count 20 1 17 61 0

ExpectedCount

17.1 15.6 19.9 41.3 5.1

11-20 Count 0 7 0 0 0

ExpectedCount

1.2 1.1 1.4 2.9 .4

21-30 Count 24 32 34 45 13

ExpectedCount

25.6 23.3 29.7 61.8 7.6 1

Total Count 44 40 51 106 13

ExpectedCount

44.0 40.0 51.0 106.0 13.0 2

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 78.841(a) 8 .000

Likelihood Ratio 80.574 8 .000Linear-by-Linear

Association2.525 1 .112

N of Valid Cases254

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a 5 cells (33.3%) have expected count less than 5. The minimum expectedcount is .36.

Symmetric Measures

Value

Asymp.

Std.Error(a) Approx.T(b) Approx.

Interval by Interval Pearson's R -.100 .063 -1.594 .11

Ordinal by Ordinal SpearmanCorrelation

-.116 .064 -1.855 .06

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.speak in manner not to be questioned

Crosstab

11.speak in manner not to be questioned

Totnever seldom occasionaly often Always

experience ofrespondent 0-10 Count 13 34 1 17 34 ExpectedCount

7.4 18.7 9.0 31.6 32.4

11-20 Count 0 0 0 7 0

ExpectedCount

.5 1.3 .6 2.2 2.3

21-30 Count 6 14 22 57 49

ExpectedCount

11.1 28.0 13.4 47.2 48.4 1

Total Count 19 48 23 81 83

ExpectedCount

19.0 48.0 23.0 81.0 83.0 2

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 62.421(a) 8 .000

Likelihood Ratio 67.082 8 .000

Linear-by-LinearAssociation

13.028 1 .000

8/8/2019 Age of Respondent

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N of Valid Cases254

a 5 cells (33.3%) have expected count less than 5. The minimum expectedcount is .52.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.Interval by Interval Pearson's R .227 .064 3.699 .000(c)

Ordinal by Ordinal SpearmanCorrelation

.167 .067 2.693 .008(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.keep to myself.

12.keep to myself.

Tot Always often occasionaly seldom never

experience ofrespondent

0-10 Count 35 17 7 27 13

ExpectedCount

39.0 14.8 18.3 12.9 14.0

11-20 Count 7 0 0 0 0

ExpectedCount

2.8 1.0 1.3 .9 1.0

21-30 Count 58 21 40 6 23

ExpectedCount

58.3 22.1 27.4 19.2 21.0 1

Total Count 100 38 47 33 36

ExpectedCount

100.0 38.0 47.0 33.0 36.0 2

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 49.285(a) 8 .000

8/8/2019 Age of Respondent

42/63

Likelihood Ratio 52.606 8 .000Linear-by-Linear

Association1.254 1 .263

N of Valid Cases254

a 5 cells (33.3%) have expected count less than 5. The minimum expectedcount is .91.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R -.070 .063 -1.121 .264(c)

Ordinal by Ordinal SpearmanCorrelation

-.060 .064 -.952 .342(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.look out for the personal welfare of individual group member.

13.look out for the personal welfare of individual group member.

Totnever seldom occasionaly often Always

experience ofrespondent

0-10 Count 27 25 0 34 13

ExpectedCount

15.6 26.1 9.4 23.8 24.2

11-20 Count 0 7 0 0 0

ExpectedCount

1.1 1.8 .7 1.7 1.7

21-30 Count 13 35 24 27 49

ExpectedCount

23.3 39.0 14.0 35.5 36.1 1

Total Count 40 67 24 61 62

ExpectedCount

40.0 67.0 24.0 61.0 62.0 2

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 65.635(a) 8 .000

8/8/2019 Age of Respondent

43/63

Likelihood Ratio 72.464 8 .000Linear-by-Linear

Association11.499 1 .001

N of Valid Cases254

a 5 cells (33.3%) have expected count less than 5. The minimum expected count is .66.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig

Interval by Interval Pearson's R .213 .061 3.464 .001(c

Ordinal by Ordinal SpearmanCorrelation

.231 .061 3.766 .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.

14.assign group member to paticular tasks.

14.assign group member to paticular tasks.

Totalseldom occasionaly often Always

experience ofrespondent

0-10 Count 8 27 34 30 99

ExpectedCount

27.7 27.3 15.6 28.5 99.0

11-20 Count 7 0 0 0 7

ExpectedCount

2.0 1.9 1.1 2.0 7.0

21-30 Count 56 43 6 43 148

ExpectedCount

41.4 40.8 23.3 42.5 148.0

Total Count 71 70 40 73 254

ExpectedCount

71.0 70.0 40.0 73.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 72.004(a) 6 .000

Likelihood Ratio 76.727 6 .000

8/8/2019 Age of Respondent

44/63

Linear-by-LinearAssociation

15.814 1 .000

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expected count is 1.10.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b)

Interval by Interval Pearson's R -.250 .057 -4.099

Ordinal by Ordinal SpearmanCorrelation

-.252 .058 -4.134

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.schedule the work to be done.

16.schedule the work to be done.

Totalseldom occasionaly often Alwaysexperience ofrespondent

0-10 Count 52 0 17 30 99

ExpectedCount

44.0 .8 11.7 42.5 99.0

11-20 Count 7 0 0 0 7

ExpectedCount

3.1 .1 .8 3.0 7.0

21-30 Count 54 2 13 79 148

ExpectedCount

65.8 1.2 17.5 63.5 148.0

Total Count 113 2 30 109 254

ExpectedCount 113.0 2.0 30.0 109.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 24.682(a) 6 .000

Likelihood Ratio 27.984 6 .000

8/8/2019 Age of Respondent

45/63

Linear-by-LinearAssociation

9.134 1 .003

N of Valid Cases254

a 6 cells (50.0%) have expected count less than 5. The minimum expected count is .06.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Appro

Interval by Interval Pearson's R .190 .061 3.072

Ordinal by Ordinal SpearmanCorrelation

.211 .061 3.422

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.maintain definite standards of performance.

17.maintain definite standards of performance.

Totalseldom occasionaly often Alwaysexperience ofrespondent

0-10 Count 34 0 1 64 99

ExpectedCount

31.6 6.2 19.5 41.7 99.0

11-20 Count 7 0 0 0 7

ExpectedCount

2.2 .4 1.4 2.9 7.0

21-30 Count 40 16 49 43 148

ExpectedCount

47.2 9.3 29.1 62.3 148.0

Total Count 81 16 50 107 254

ExpectedCount 81.0 16.0 50.0 107.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 76.262(a) 6 .000

Likelihood Ratio 92.970 6 .000

8/8/2019 Age of Respondent

46/63

Linear-by-LinearAssociation

3.108 1 .078

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expectedcount is .44.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R -.111 .064 -1.770 .078(c)

Ordinal by Ordinal SpearmanCorrelation

-.165 .067 -2.653 .008(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.refuse to explain my action.

18.refuse to explain my action.

Tot Always often occasionaly seldom never

experience ofrespondent

0-10 Count 0 0 17 17 65

ExpectedCount

19.1 7.8 21.0 16.8 34.3

11-20 Count 7 0 0 0 0

ExpectedCount

1.4 .6 1.5 1.2 2.4

21-30 Count 42 20 37 26 23

ExpectedCount

28.6 11.7 31.5 25.1 51.3 1

Total Count 49 20 54 43 88

ExpectedCount

49.0 20.0 54.0 43.0 88.0 2

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 113.356(a) 8 .000

8/8/2019 Age of Respondent

47/63

Likelihood Ratio 130.429 8 .000Linear-by-Linear

Association73.504 1 .000

N of Valid Cases254

a 5 cells (33.3%) have expected count less than 5. The minimum expected count is .55.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. SigInterval by Interval Pearson's R -.539 .040 -10.158 .000(c

Ordinal by Ordinal SpearmanCorrelation

-.543 .045 -10.266 .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.

20.act without consulting the group.

20.act without consulting the group.

Total Always occasionaly seldom never

experience ofrespondent

0-10 Count 44 34 1 20 99

ExpectedCount

45.2 18.3 2.7 32.7 99.0

11-20 Count 7 0 0 0 7

ExpectedCount

3.2 1.3 .2 2.3 7.0

21-30 Count 65 13 6 64 148

ExpectedCount

67.6 27.4 4.1 48.9 148.0

Total Count116 47 7 84 254Expected

Count116.0 47.0 7.0 84.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 41.028(a) 6 .000

8/8/2019 Age of Respondent

48/63

Likelihood Ratio 43.418 6 .000Linear-by-Linear

Association5.154 1 .023

N of Valid Cases254

a 6 cells (50.0%) have expected count less than 5. The minimum expected count is .19.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Interval by Interval Pearson's R .143 .059 2.289 .02

Ordinal by Ordinal SpearmanCorrelation

.138 .061 2.217 .02

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.

21back up the members in their action.

21back up the members in their action.

Totalseldom occasionaly often Always

experience ofrespondent

0-10 Count 52 17 0 30 99

ExpectedCount

44.8 11.7 7.4 35.1 99.0

11-20 Count 0 7 0 0 7

ExpectedCount

3.2 .8 .5 2.5 7.0

21-30 Count 63 6 19 60 148

ExpectedCount

67.0 17.5 11.1 52.4 148.0

Total Count115 30 19 90 254Expected

Count115.0 30.0 19.0 90.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 78.514(a) 6 .000

8/8/2019 Age of Respondent

49/63

Likelihood Ratio 64.773 6 .000Linear-by-Linear

Association6.129 1 .013

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expectedcount is .52.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig.

Interval by Interval Pearson's R .156 .062 2.501 .013(c)

Ordinal by Ordinal SpearmanCorrelation

.130 .063 2.087 .038(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.emphasizey the meeting of deadlines.

22.emphasize yhe meeting of deadlines.

Totnever seldom occasionaly often Always

experience ofrespondent

0-10 Count 0 25 17 27 30

ExpectedCount

9.0 31.6 18.3 26.1 14.0

11-20 Count 0 7 0 0 0

ExpectedCount

.6 2.2 1.3 1.8 1.0

21-30 Count 23 49 30 40 6

Expected

Count

13.4 47.2 27.4 39.0 21.0 1

Total Count 23 81 47 67 36

ExpectedCount

23.0 81.0 47.0 67.0 36.0 2

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

8/8/2019 Age of Respondent

50/63

Pearson Chi-Square 61.490(a) 8 .000

Likelihood Ratio 70.102 8 .000

Linear-by-LinearAssociation

31.989 1 .000

N of Valid Cases254

a 5 cells (33.3%) have expected count less than 5. The minimum expectedcount is .63.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx.

Interval by Interval Pearson's R -.356 .054 -6.039 .00

Ordinal by Ordinal SpearmanCorrelation

-.341 .056 -5.755 .00

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.treat all group members as my equals.

Crosstab

23.treat all group members as my equals.

Totnever seldom occasionaly often Always

experience ofrespondent

0-10 Count 7 35 0 57 0

ExpectedCount

7.8 38.2 2.3 22.2 28.5

11-20 Count 7 0 0 0 0

ExpectedCount

.6 2.7 .2 1.6 2.0

21-30 Count 6 63 6 0 73

ExpectedCount 11.7 57.1 3.5 33.2 42.5 1

Total Count 20 98 6 57 73

ExpectedCount

20.0 98.0 6.0 57.0 73.0 2

Chi-Square Tests

8/8/2019 Age of Respondent

51/63

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 227.676(a) 8 .000

Likelihood Ratio 225.128 8 .000

Linear-by-LinearAssociation

5.314 1 .021

N of Valid Cases 254

a 7 cells (46.7%) have expected count less than 5. The minimum expectedcount is .17.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig

Interval by Interval Pearson's R .145 .056 2.325 .021(c

Ordinal by Ordinal SpearmanCorrelation

.219 .060 3.564 .000(c

N of Valid Cases 254a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.

24encourage the use of uniform procedures

24encourage the use of uniform procedures

Totalseldom occasionaly often Alwaysexperience ofrespondent

0-10 Count 25 27 34 13 99

ExpectedCount

32.4 29.2 15.6 21.8 99.0

11-20 Count 7 0 0 0 7

Expected

Count

2.3 2.1 1.1 1.5 7.0

21-30 Count 51 48 6 43 148

ExpectedCount

48.4 43.7 23.3 32.6 148.0

Total Count 83 75 40 56 254

ExpectedCount

83.0 75.0 40.0 56.0 254.0

Chi-Square Tests

8/8/2019 Age of Respondent

52/63

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 58.284(a) 6 .000

Likelihood Ratio 59.903 6 .000

Linear-by-Linear

Association

.173 1 .677

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expectedcount is 1.10.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig

Interval by Interval Pearson's R -.026 .060 -.416 .678(c

Ordinal by Ordinal Spearman

Correlation-.041 .062 -.646 .519(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.am willing to make changes

26.am willing to make changes

Totalseldom occasionaly often Alwaysexperience ofrespondent

0-10 Count 7 58 0 34 99

ExpectedCount

21.8 25.7 29.2 22.2 99.0

11-20 Count 0 0 7 0 7

ExpectedCount 1.5 1.8 2.1 1.6 7.0

21-30 Count 49 8 68 23 148

ExpectedCount

32.6 38.5 43.7 33.2 148.0

Total Count 56 66 75 57 254

ExpectedCount

56.0 66.0 75.0 57.0 254.0

8/8/2019 Age of Respondent

53/63

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 151.741(a) 6 .000

Likelihood Ratio 182.354 6 .000

Linear-by-LinearAssociation 1.726 1 .189

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expected count is 1.54.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx.

Interval by Interval Pearson's R -.083 .061 -1.316 .18

Ordinal by Ordinal Spearman

Correlation-.067 .067 -1.071 .28

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.make sure that my part in organizational is understood by groupmembers.

27.make sure that my part in organizational isunderstood by group members.

Totalseldom occasionaly often Alwaysexperience ofrespondent

0-10 Count 52 0 0 47 99

ExpectedCount

39.8 5.1 16.8 37.4 99.0

11-20 Count 0 7 0 0 7ExpectedCount

2.8 .4 1.2 2.6 7.0

21-30 Count 50 6 43 49 148

ExpectedCount

59.4 7.6 25.1 55.9 148.0

Total Count 102 13 43 96 254

ExpectedCount

102.0 13.0 43.0 96.0 254.0

8/8/2019 Age of Respondent

54/63

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 173.358(a) 6 .000

Likelihood Ratio 104.364 6 .000Linear-by-LinearAssociation

1.263 1 .261

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expected count is .36.

Symmetric Measures

a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.

28.am friendly and approachable

28.am friendly and approachable

Totalseldom occasionaly often Alwaysexperience ofrespondent

0-10 Count 51 1 17 30 99

ExpectedCount

36.6 8.2 16.8 37.4 99.0

11-20 Count7 0 0 0 7

ExpectedCount

2.6 .6 1.2 2.6 7.0

21-30 Count 36 20 26 66 148

ExpectedCount

54.8 12.2 25.1 55.9 148.0

Total Count 94 21 43 96 254

ExpectedCount

94.0 21.0 43.0 96.0 254.0

Value

Asymp.Std.

Error(a)Approx.

T(b) AppInterval by Interval Pearson's R .071 .066 1.125

Ordinal by Ordinal SpearmanCorrelation .037 .068 .594

N of Valid Cases 254

8/8/2019 Age of Respondent

55/63

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 38.531(a) 6 .000

Likelihood Ratio 43.875 6 .000Linear-by-LinearAssociation

11.387 1 .001

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expectedcount is .58.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx

Interval by Interval Pearson's R.212 .061 3.446 .0

Ordinal by Ordinal SpearmanCorrelation

.224 .062 3.644 .0

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.ask that group members follow standard rules and regulations.

29.ask that group members follow standard rules andregulations.

Totalseldom occasionaly often Always

experience ofrespondent

0-10 Count 7 45 30 17 99

ExpectedCount

18.7 26.1 24.6 29.6 99.0

11-20 Count 0 7 0 0 7

ExpectedCount

1.3 1.8 1.7 2.1 7.0

21-30 Count 41 15 33 59 148

ExpectedCount

28.0 39.0 36.7 44.3 148.0

Total Count 48 67 63 76 254

8/8/2019 Age of Respondent

56/63

ExpectedCount

48.0 67.0 63.0 76.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 73.249(a) 6 .000

Likelihood Ratio 76.503 6 .000

Linear-by-LinearAssociation

1.507 1 .220

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expected count is 1.32.

Symmetric Measures

Value

Asymp.

Std.Error(a) Approx.T(b) Approx

Interval by Interval Pearson's R .077 .059 1.229 .2

Ordinal by Ordinal SpearmanCorrelation

.099 .063 1.574 .1

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.

31.make group members feel at ease when talking with them.

31.make group members feel at easewhen talking with them.

Totalseldom occasionaly Alwaysexperience of

respondent

0-10 Count 44 7 48 99

ExpectedCount

33.1 11.3 54.6 99.0

11-20 Count 0 7 0 7

ExpectedCount

2.3 .8 3.9 7.0

21-30 Count 41 15 92 148

ExpectedCount

49.5 16.9 81.6 148.0

Total Count 85 29 140 254

8/8/2019 Age of Respondent

57/63

ExpectedCount

85.0 29.0 140.0 254.0

Chi-Square Tests

Value df

Asymp. Sig.

(2-sided)Pearson Chi-Square 63.319(a) 4 .000

Likelihood Ratio 39.394 4 .000Linear-by-Linear

Association6.128 1 .013

N of Valid Cases254

a 3 cells (33.3%) have expected count less than 5. The minimum expectedcount is .80.

Symmetric Measures

Value

Asymp.Std.Error(a)

Approx.T(b) Appro

Interval by Interval Pearson's R .156 .063 2.501

Ordinal by Ordinal SpearmanCorrelation

.160 .063 2.580

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.

32.let group memgers know what is expected of them.

32.let group memgers know what is expected ofthem.

Totalseldom occasionaly often Always

experience ofrespondent 0-10 Count 51 1 0 47 99ExpectedCount

38.6 10.1 17.9 32.4 99.0

11-20 Count 7 0 0 0 7

ExpectedCount

2.7 .7 1.3 2.3 7.0

21-30 Count 41 25 46 36 148

ExpectedCount

57.7 15.1 26.8 48.4 148.0

8/8/2019 Age of Respondent

58/63

Total Count 99 26 46 83 254

ExpectedCount

99.0 26.0 46.0 83.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 75.889(a) 6 .000

Likelihood Ratio 97.605 6 .000

Linear-by-LinearAssociation

.372 1 .542

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expectedcount is .72.

Symmetric Measures

a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.

34.put suggestions made by the group into operation.

34.put suggestions made by the group into operation.

Totalseldom occasionaly often Always

experience ofrespondent

0-10 Count 0 51 48 0 99

ExpectedCount

26.5 36.2 28.8 7.4 99.0

11-20 Count 0 0 7 0 7

ExpectedCount

1.9 2.6 2.0 .5 7.0

21-30 Count 68 42 19 19 148

ExpectedCount

39.6 54.2 43.1 11.1 148.0

Total Count 68 93 74 19 254

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx

Interval by Interval Pearson's R .038 .066 .609 .5

Ordinal by Ordinal SpearmanCorrelation

.032 .070 .504 .6

N of Valid Cases 254

8/8/2019 Age of Respondent

59/63

ExpectedCount

68.0 93.0 74.0 19.0 254.0

Chi-Square Tests

Value df

Asymp. Sig.

(2-sided)Pearson Chi-Square 111.901(a) 6 .000

Likelihood Ratio 142.427 6 .000Linear-by-Linear

Association23.058 1 .000

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expected count is .52.

Symmetric Measures

Value

Asymp.

Std.Error(a) Approx.T(b) Approx.

Interval by Interval Pearson's R -.302 .056 -5.027 .00

Ordinal by Ordinal SpearmanCorrelation

-.357 .056 -6.066 .00

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.

35.see to it that group members are working up to capacity.

35.see to it that group members are working up tocapacity.

Totalseldom occasionaly often Always

experience ofrespondent

0-10 Count 51 0 14 34 99

ExpectedCount

44.0 .4 22.2 32.4 99.0

11-20 Count 7 0 0 0 7

ExpectedCount

3.1 .0 1.6 2.3 7.0

21-30 Count 55 1 43 49 148

ExpectedCount

65.8 .6 33.2 48.4 148.0

8/8/2019 Age of Respondent

60/63

Total Count 113 1 57 83 254

ExpectedCount

113.0 1.0 57.0 83.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 18.323(a) 6 .005

Likelihood Ratio 21.533 6 .001Linear-by-Linear

Association2.675 1 .102

N of Valid Cases254

a 6 cells (50.0%) have expected count less than 5. The minimum expectedcount is .03.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. SInterval by Interval Pearson's R .103 .063 1.641 .102

Ordinal by Ordinal SpearmanCorrelation

.091 .064 1.452 .148

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.

38.get group approval in important matters before going ahead.

38.get group approval in important matters beforegoing ahead.

Totalseldom occasionaly often Always

experience ofrespondent

0-10 Count 34 18 34 13 99

ExpectedCount

30.0 18.7 31.2 19.1 99.0

11-20 Count 0 0 7 0 7

ExpectedCount

2.1 1.3 2.2 1.4 7.0

21-30 Count 43 30 39 36 148

Expected 44.9 28.0 46.6 28.6 148.0

8/8/2019 Age of Respondent

61/63

Count

Total Count 77 48 80 49 254

ExpectedCount

77.0 48.0 80.0 49.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)Pearson Chi-Square 21.396(a) 6 .002

Likelihood Ratio 22.487 6 .001Linear-by-Linear

Association1.726 1 .189

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expected count is 1.32.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx.

Interval by Interval Pearson's R .083 .062 1.316 .18

Ordinal by Ordinal SpearmanCorrelation

.080 .062 1.274 .20

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.

39.see to it that the work of group members is coordinated.

39.see to it that the work of group members iscoordinated.

Totalseldom occasionaly often Always

experience ofrespondent

0-10 Count 51 1 17 30 99

ExpectedCount

38.6 6.2 6.6 47.6 99.0

11-20 Count 0 7 0 0 7

ExpectedCount

2.7 .4 .5 3.4 7.0

21-30 Count 48 8 0 92 148

8/8/2019 Age of Respondent

62/63

ExpectedCount

57.7 9.3 9.9 71.1 148.0

Total Count 99 16 17 122 254

ExpectedCount

99.0 16.0 17.0 122.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 153.107(a) 6 .000

Likelihood Ratio 95.253 6 .000

Linear-by-LinearAssociation

13.191 1 .000

N of Valid Cases254

a 4 cells (33.3%) have expected count less than 5. The minimum expectedcount is .44.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Sig

Interval by Interval Pearson's R .228 .061 3.723 .000(c

Ordinal by Ordinal SpearmanCorrelation

.260 .061 4.273 .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.

40. Keep the group working together as a team.

40.keep the group working together as a team.

Total1.00 2.00 3.00 4.00experience ofrespondent

0-10 Count 51 1 0 47 99

ExpectedCount

51.8 .4 5.1 41.7 99.0

8/8/2019 Age of Respondent

63/63

11-20 Count 7 0 0 0 7

ExpectedCount

3.7 .0 .4 2.9 7.0

21-30 Count 75 0 13 60 148

ExpectedCount

77.5 .6 7.6 62.3 148.0

Total Count 133 1 13 107 254ExpectedCount

133.0 1.0 13.0 107.0 254.0

Chi-Square Tests

Value dfAsymp. Sig.

(2-sided)

Pearson Chi-Square 17.714(a) 6 .007

Likelihood Ratio 25.044 6 .000Linear-by-Linear

Association.019 1 .889

N of Valid Cases

254

a 6 cells (50.0%) have expected count less than 5. The minimum expectedcount is .03.

Symmetric Measures

Value

Asymp.Std.

Error(a)Approx.

T(b) Approx. Interval by Interval Pearson's R -.009 .063 -.139 .89

Ordinal by Ordinal SpearmanCorrelation

-.016 .064 -.247 .80

N of Valid Cases254

a Not assuming the null hypothesis.b Using the asymptotic standard error assuming the null hypothesis.c Based on normal approximation.