The effect of creative and critical thinking based laboratory applications on creative and logical thinking abilities of prospective teachers

Under this title, the results of descriptive and inferential statistics analyses will be presented. For the analysis, total scores on the subtests of both tests were used for comparisons.

Table 3 The Result of Independent t-test for pre-test scores of the participants at each group on the logical thinking and the creative thinking test

Pre-tests	Groups	n	Mean	SD	t	p
Creative Thinking Test	Experimental	44	49.14	14.75	.66	.51
Creative Thinking Test	Control	46	47.24	12.56	.66	.51
Logical Thinking Test	Experimental	44	10.82	3.39	.56	.58
Logical Thinking Test	Control	46	11.24	3.75	.56	.58

As seen in Table 3, there is no statistically significant difference between pre-test scores of the sophomores on creative thinking and logical thinking tests (t=.66, p<0.05, t=.56, p<0.05). This result shows that the groups of the study are equivalent in terms of creative and logical thinking parameters before the implementation.

Independent Variable	Dependent Variables	Groups
Creative and Critical Thinking Based Laboratory Applications and Traditional Lab Applications (Method)	Logical Thinking Skill	Experimental
		Control
	Creative Thinking Skill	Experimental
		Control

Table 4 shows that the design of the study includes one independent variable and two dependent variables within the two groups. The normality assumption was investigated by looking at skewness and kurtosis values for each cell. The values for skewness and kurtosis range from -1 to +1. Therefore, the assumption was accepted to be provided. The assumption of equality of variances was tested by considering Levene’s Test results. The test showed that the assumption was provided with the statistically non-significant results for the equality of error variances.

Variable	F	df1	df2	p
Logical Thinking Skill	.02	1	88	.90
Creative Thinking Skill	1.21	1	88	.27

Box’s M	5.36
F	1.74
df1	3
df2	1490495
Sig.	0.16

Table 6, shows Box’s value and the significance shows it is one of the most important assumptions of the MANOVA analysis. Equality of covariance is not violated in the study (Box’s M= 5.36, p<0.05).

Table 7 The mean, standard deviation and frequency values of the participants of each group

Dependent Variables	Groups	n	Mean	SD
Creative Thinking Skill	Experimental	44	57.61	9.64
Creative Thinking Skill	Control	46	51.52	10.36
Logical Thinking Skill	Experimental	44	13.75	2.93
Logical Thinking Skill	Control	46	10.43	4.12

Table 7 presents means and standard deviations of each group on the post-test scores. The experimental group developed higher scores on the creative and logical thinking abilities tests than the control group.

Source of Variance	Multivariate Test	Value	df1	df2	F	Multivariate η²	p
Group	Wilks’ Lambda	.75	2	87	14.64	.25	.00

A one-way multivariate analysis of variance (MANOVA) was conducted to determine the effects of creative and critical thinking based laboratory applications and traditional laboratory applications on two dependent variables, the scores of the students on creative and logical thinking tests. Significant differences were found between the creative and critical thinking based laboratory applications and traditional laboratory applications on the dependent measures, Wilks’s Λ= .75, F (2, 87) =14.64, p<0.05. The multivariate η² based on Wilks’s Λ was moderately strong at .25. Table 7 contains the mean, standard deviations and frequencies on the dependent variables for each group. The mean of scores on the creative and logical thinking tests demonstrate that the creative and critical thinking based laboratory applications given to the experimental group were found to be more effective than the traditional laboratory activities in improving both the logical and creative thinking abilities.