Investigating the Effects of Web-Based Science Material for Guided Inquiry Approach on Information and Communication Skills of Students

In parallel with the development of technology and increase in knowledge, learning-teaching environments have changed, and an understanding has taken into basis that students are active and responsible for their own learning. In accordance with this situation, inquiry-based learning approach and technology integration have come to an important point in science curricula in our country. In the study, it was aimed to investigate the effectiveness of web-based science material developed on the guided inquiry approach on students' information and communication skills. In the current study, embedded design was selected amongst mixed methods. First, web-based material was developed compatible with the guided inquiry approach for the systems in our body unit at sixth grade. Then, the developed material was applied during eight weeks by three teachers in three different classes and its effectiveness was examined. A total of 155 sixth grade students, 71 of whom were in the experimental group and 84 in the control group, participated in the study. In the study; “Information and Communication Skills Perception Scale” was used as a quantitative data collection tool and an observation form was used as the qualitative data collection tool. As a result of the study; although there was an increase in the information and communication skills perception scores of the students in the experimental group in which the web-based science material was applied according to the guided inquiry approach, it was understood that this difference was not significant [t(70)=-3.76, p>.05]. Even though there is an increase in information and communication skills, it is thought that this increase is not significant in terms of the students' perceptions of information and communication skills as these students were born into the technology age, developed high perception towards information and communication skills through their own tablets, computers, phones and other similar medium.


Introduction
In parallel with the rapidly increasing information and developing technology, training programs are updated and especially developing technologies are tried to be integrated into classroom environments. In the digital world in the present day, the position of the computer the integration of technology in the developed material with the importance of students' doing research and working together, it was decided to examine the effect of the material on information and communication skills.
Thusly the research sentence of the study is as follows: • Is there a significant difference between the information and communication skills and perceptions of the students in the control group and experimental group in which web-based science material used appropriate to the guided inquiry approach?

Inquiry-based learning
Inquiry-based learning is an active learning approach where discovery, research and investigation are used in learning experiences and learning-teaching resources and activities are designed to support the research process (Levy et al., 2008). In other words, inquiry-based learning is an approach that encourages students to produce and test their own hypotheses and allows for the use of scientific method (Green, Elliott & Cummins, 2004). Inquiry-based learning includes classroom environments consisting of student-centered and open-ended activities where the inquiry process is learned (Colburn, 2000;Maaß & Artigue, 2013).
Inquiry-based learning process also enables students to integrate the information they have learned into their daily lives and supports their learning by doing-living (Tatar & Kuru, 2006). In this process, students are empowered to become independent and free learning individuals (Gibson, 1998). In addition, inquiry-based learning supports the development of students' skills such as hypothetical and critical thinking (Agrusti, 2013), problem solving and decision-making (Friedel et al., 2008) and analytical thinking (Brayshaw & Gordon, 2008). In light of these students may comprehend how scientists work and gain the basic skills of carrying out scientific research (Kubicek, 2005). Inquiry-based learning indeed means arousing curiosity and interest in students (Spronken-Smith, Bullard, Ray, Roberts & Keiffer, 2008). In a nutshell, inquiry-based learning leads to significant improvements in students' cognitive, affective and skill dimensions.
The inquiry-based learning process continues as a cycle. The inquiry cycle is purely studentoriented and designed to support mental development (Tatar, 2006). The inquiry cycle steps proposed by Llewellyn (2014) are as follows: Inquisition, Acquisition, Supposition, Implementation, Summation and Exhibition.

Web-based inquiry-based learning
With the introduction of computer and internet to educational environments, teaching methods and techniques have been transferred to web-based environments. One of them is inquiry-based learning and it is detected that the integration of technology is possible in differing ways. As Hakverdi-Can and Sönmez (2012) stated, with the integration of computer technologies in teaching environments, there has been an increase in teachers' use of different applications including the internet. Web-supported learning is an environment where students can search for and what is more, construct their own knowledge base through the links and search features hence it is a suitable platform for constructivist learning theory to go hand-inhand with inquiry-based learning (Chumley-Jones, Dobbie & Alford, 2002).
As can be followed in Table 1, courses were conducted with web-based science material appropriate to the guided inquiry approach in the experimental group, while the control group continued the courses according to the science curriculum. In the study, three experimental and three control groups were used, and the information and communication skills perception scale were used as pre-test and post-test. In addition, observations were used as a qualitative data collection tool throughout the process.

Participants
The study was conducted in three different secondary schools in Bursa. When selecting schools, it was ensured that they were in different regions with varying socio-economic levels in Bursa. In each school, courses were conducted with three different teachers and their two classes. The teacher A in the study is a person with nearly 10 years of experience, actively using the science laboratory, teaching the courses related to active learning approaches and integrating experiments into the courses. Teacher B has nearly 20 years of experience. The teacher uses the science laboratory and conducts experiments notthat-actively in the school and makes use of computers and interactive boards. Teacher C is a person who has approximately 30 years of experience, occasionally teaches with laboratory studies and technology usage and conducts the courses in a relatively more classical school of thought. Although there were some differences in the application processes of the teachers, all of them tried to use the developed material effectively.
In the study, one of the equivalent classes of each teacher was randomly assigned as experiment and control group. 45 students from middle school A, 58 students from middle school B and 52 students from middle school C participated in the study. Whilst 71 of the students were in the experimental groups, 84 were in the control groups.

Material development process
In this study, the material was developed for the Systems in Our Bodies unit at sixth grade in science course. The unit has 14 objectives and the given duration was total of 32 teaching hours. The inquiry cycle developed by Llewellyn (2014) was used to develop material for the unit. The process is as follows: • Inquisition: A lead in to the process is realized so that students can start inquiry.
Inquiry questions can be formed by using surprising events about the topic, observation results of any research, open-ended questions or demonstration experiments by the teacher. An event related to daily life, open-ended questions or animations were used in the preparation of the materials. • Acquisition: At this stage, students try to recall their prior knowledge and use this information to solve the problem. In this process, students are expected to have group discussions or be involved in brainstorming activities. • Supposition: At this stage of the inquiry cycle, the students are asked to make predictions so as to find a solution to the question in the questioning step. • Implementation: At this stage, students design and implement experiments/ activities to solve the problem. Since the guided inquiry approach was used in the developed material, the teacher prepared the objectives and materials of the activity and presented these to the students. The students were asked to do the experiments or activities on their own. • Summation: At this stage of the cycle, the students record and analyze their observations and results during the experiment/ activities. • Exhibition: At this stage, students share their findings and new information with the whole class viz. with their teachers and peers.
After the completion of the preparations, the developed material was presented to expert opinion. For this purpose, two academicians in science education, one biologist and two science teachers examined the material. In line with the feedback from the experts, arrangements were made in the material. The experts proposed major changes in particular to the questions in the inquisition step. The experts' opinion is that the questions are usually in the form of a single answer question, and that some questions create problems in making students think. Accordingly, the questions were updated, and necessary changes were made.
Then, the pilot implementation was realized for the material. Necessary steps were followed in line with the feedback provided in implementation and technology integration and web support were integrated into the material. For this purpose, concept cartoons were transformed into animation, some changes were made in animations and worksheets were prepared for experiments and activities. In addition, the transfer of all material to the web has been completed and the material has been finalized.

Treatment
During the implementation process, first of all, teachers were given training on the method. For this purpose, some issues were emphasized e.g. the method in the material, the implementation procedures. Second, the whole process was intended to be explained through a sample course. All teachers conducted their courses in the experimental groups on the website and completed the process in accordance with the prepared material. In the control group, the courses were taught in parallel with the science curricula and textbooks.

Data collection tool
In this study, information and communication skills perception scale was used in quantitative dimension and qualitative observations were used to complement the qualitative dimension, forming the data collection tools.

Information and communication skills perception scale
In this study, "the information and communication skills perception scale" was developed by the researchers. For this purpose, the definition of the Ministry of National Education (2011) was adopted for information and communication skills. These skills are composed of 5 sub-dimensions and 22 items. Likert type scaling was used in the scale and the responses can be given as strongly agree, agree, undecided, disagree, strongly disagree. Preliminary applications of the scale were carried out in middle schools in Bursa and 654 students participated in the study. The Cronbach Alpha internal consistency coefficient of the total score of the scale was 0.88 and Spearman Brown's two half reliability coefficient was 0.82. It was concluded that reliability coefficients above 0.70 were enough for the whole scale (Büyüköztürk, 2019) and that the measurement results were reliable according to these coefficients. Then, using a statistical package program, it was examined whether the data supported the five-dimensional factor structure that was revealed in the original. Maximum Likelihood was used as the analysis method in the study. X2/sd ratio was determined to examine if the data fit well to the model. It can be said that the compatibility between the study data and the model is quite good because the X2/sd value is less than 5. Additionally, it was determined that the loads of the items ranged between 0.43 and 0.69. According to this result, it was understood that the five factors in the model were confirmed by the items. When the error loads of the items were examined, it was determined that it varied between 0.52 and 0.81. According to these results, it can be declared that the errors of the items are at an acceptable level. The developed scale was applied to all participants as a pre and post-test.

Observation form
In the study, unattended observations were conducted to investigate the effectiveness of web-based science material in accordance with the guided inquiry approach. In the observation form, items to reach the appropriate information to the aim, to present information effectively, to improve communication skills were addressed. The observation form was prepared in a semi structured fashion. In the observation form, an assessment part was placed with five options: as always, often, sometimes, rarely and never. Besides, there are sections where comments can be written for each dimension. When the applications considered, a video was recorded in eight class hours in school A and observation forms were filled in seven times. Observation forms were used 12 times in school B and nine times in school C.

Data analysis
The information and communication skills perception scale, in which the students evaluated themselves, was used to target "Is there a meaningful difference between the information and communication skills and perceptions of the students in the experimental and control group using the web-based science material appropriate to the guided inquiry approach?" question. Though the scale was a five-point Likert type, it scored 1-2-3-4-5 and was analyzed using SPSS 23 program. Mann-Whitney U test was referred to with a view to comparing and checking the pre-test and post-tests of experimental and control groups in each school/teacher. Wilcoxon's Signed Rank Test was used for the comparisons of the pre-test and post-test of each school/teacher. Also, the common pre-tests data of the three schools/teachers were subjected to independent t test, and then covariance analysis was performed for the posttests. However, for the common data of three schools/teachers, dependent t test was used for pre-test and post-test comparison. Furthermore, the observation form was analyzed to determine the information and communication skills of the students. Whereas the descriptive statistics were used in structured sections in the observation form, descriptive analysis was preferred in the explanatory sections.

Findings
In order to find a solution to the problem, the data obtained from information and communication skills perception scale and observation form were analyzed and presented separately in the findings section.

Findings from the information and communication skills (ICS) perception scale
In this study, the effect of the web-based science material, which is appropriate to the guided inquiry approach, on the students' perception of information and communication skills was firstly examined separately for each teacher and then in a collective manner for three teachers.

Findings obtained from all participants in the ICS perception scale separately
Mann-Whitney U test was preferred as the non-parametric test for the number of students belonging to A, B and C teachers who performed the implementations was less than 30 in the experimental and control groups. It was diagnosed that there was no significant difference between the experimental group students and control group students in teacher A (U=233.50, p>.05), teacher B (U=386.50, p>.05) and teacher C (U=272.00, p>.05). That is to say, it can be announced that the information and communication skills perception pre-test scores of the students in the experimental and control groups are equivalent to each other. Mann-Whitney U test results of the students of A, B and C teachers for the information and communication skills perception post-test scores are given in Table 2. When Table 2 is examined, no significant difference is spotted among the post-test scores of the control and experimental group scores of the students of teacher A (U=225.00, p>.05), teacher B (U=327.00, p>.05) and teacher C (U=324.00, p>.05) on the information and communication skills perception test. Along these lines it can be proclaimed that the information and communication skills perception post-test mean rank of the students in the experimental and control groups are similar and generally the mean rank of the students in the experimental group are higher. Wilcoxon Signed Ranks test was implemented to determine the difference between pre-test and post-test information and communication skills perception scores of the students in the experimental and control groups of teachers A, B and C and the results are given in Table 3. As it is seen in Table 3, there is a significant difference between pre and post-test information and communication skills perception scores of students in experimental group belonging to teacher A (z=-2.76, p<.05) and teacher B (z=-2.27, p<.05). Namely, the implemented material had a positive effect on improving students' perception of information and communication skills. Eta square value for this for Teacher A was .059 with 6% of the variance and for Teacher B with .450 with 45% of the variance and derived from the implemented teaching material. However, it was figured out that there was no significant difference between the information and communication skills perception scores of the students of teacher C prior to and after the implementation (z=-1.54, p>.05). Moreover, there was no significant effect on the information and communication skills perception scores of control group students of A (z=-1.85, p>.05), B (z=-1.25, p>.05) and C (z=-. 65, p>.05) teachers. That is, there was no significant increase between the pre-test and post-test scores of the students in the control group.

Common findings from all participants on the ICP perception scale
When the data obtained from the information and communication skills perception scale were examined by all participants collectively, Skewness value of the students in the experimental group was -.858 and Kurtosis value was .120, Skewness value of the students in the control group was -.835 and Kurtosis value was found to be 1.357. Here it could be reported that the experimental and control group scores fulfill the normality value. In order to be able to determine whether there is a difference between the pre-test scores of the students in the experimental and control groups, t-test was performed for the independent groups. As a result, it was noted that students' information and communication skills perception pre-test scores did not display a significant difference compared to the groups [t(132.58) =-1.28, p>.05] so the information and communication skills perception scores of the students in the experimental (93.03) and control (95.51) groups are equal. Nevertheless, it was decided to perform covariance analysis to affirm a more reliable analysis. Normality, which is among the conditions required for covariance analysis, was obtained by looking at the kurtosis and skewness values. The correlation between the dependent and common variable, which is another condition, is calculated as 0.565 and it can be underlined that there is a positive and moderate relationship. Regression trends were found to be equal (p>.05) and analyzes were performed using Bonferroni test. Students' post-test information and communication skills perception post-test scores were slightly changed when the pre-test scores controlled. It was understood that the corrected mean of the students in the experimental group was 98.45 and the corrected mean of the students in the control group was 96.37. ANCOVA results as to whether there is a significant difference between the corrected posttest scores of the groups are given in Table 4. The results of the dependent t-test for the significance of the difference between the pre-test and post-test information and communication skills perception scores of the students in the experimental and control groups are given in Table 5. It can be pointed out that there was a significant increase in information and communication skills perceptions of the students in the experimental group after the web-based science material appropriate to the guided inquiry approach applied [t(70)=-3.76, p<.05]. Experimental application seemed to cause an increase in students' perception of information and communication skills. It can be voiced that the eta square size is .168 and 17% of the observed variance is due to the applied method. When the control group considered, it is understood that the applied science curriculum does not cause a significant increase on students' information and communication skills perception scores [t(83)=-1.28, p>.05]. When the average scores considered, it can be manifested that there was an increase in the control group yet this increase was not significant. Descriptive statistics results of informatics and communication skills perception post-test scores are given in Table 6. As seen in Table 6; the average of the post-test informatics and communication skills perception scale scores of the students was calculated as 97.27 in teacher A, 98.54 in teacher B and 97.35 in teacher C. In this context, it can be said that student posttest scores are very high and close to each other.

Findings from the observation form
In the study, observations were performed in order to determine the effect of developed web-based science material on students' information and communication skills in accordance with the guided inquiry approach. The findings obtained from the structured part of teacher A observation form are given in Table 6. *"Always" and "Never" were removed from the table for not filled.
In the observations of teacher A's lessons (seven times); it is understood that 17.1% of the students found themselves frequently effective in searching, finding and selecting appropriate information. Nonetheless, it is thought that 14.3% of the students found themselves sometimes able to present information effectively, 14.3% of the students found themselves sometimes develop communication skills and 11.4% of the students found themselves sometimes develop basic computer skills. Given these 45.7% of the students frequently and 51.4% of the students sometimes use and develop information and communication skills.
Similarly the data obtained from the explanatory part of the observation form are as follows: Firstly, it was seen that the students' interest in the interactive board was very high during the process. In addition to that, it was observed that most of the students used their books and notebooks more effectively in searching and finding information. It was recognized that the students were not very effective in presenting the information part, and even if there was a material they prepared, they were not effective in its introduction and usage. This situation may stem from the fact that the communication skills of the students are not very high. Table  7 shows the findings obtained from the observations realized in teacher B's course, another teacher for which the practices are performed. *"Always" and "Never" were removed from the table for not filled.
As can be seen from Table 7, twelve observations were made and it was observed that 15.0% of the students were frequently effective in searching, finding and selecting the most appropriate information. 16.7% of the students were sometimes effective in choosing the appropriate information. However, it was found that 11.7% of the students were sometimes effective in improving communication skills and 11.7% were sometimes effective in developing basic computer skills. In general, 53.3% of the students sometimes and 31.7% of the students frequently developed their information and communication skills. Similar findings were obtained from the observation notes and it was discovered that the students were effective in searching and finding information. Notwithstanding it was understood that the students searched for information solely using their books or doing so in the first weeks and generally did not tend to use other technologies. It was observed that internet was only used effectively in research assignments given as homework. Having said that it was observed that such search was carried out on the interactive board using search engines towards the last weeks. Additionally, it was seen that the students expressed themselves well in the stage of presenting the information. In the use of computer or technology, it can be said that there was no development for students' skills in parallel with being an active teacher. It was observed that only interactive materials were used by the students. It was observed that the students later used the interactive board more effectively in the process while they were initially hesitant. Finally, the findings obtained from the observations of the lessons of teacher C are shown in Table 8. A total of nine observations were made in the lessons of teacher C and 13.3% of the students were frequently effective in finding information and selecting the appropriate one. 11.1% of the students sometimes and 8.9% of the students were frequently successful in presenting information in the most effective way. Overall it was observed that 48.9% of the students were frequently and 45.0% were sometimes able to apply information and communication skills. In the observation notes, it is realized that students used books effectively in searching and finding information and they were successful in this process. It was noticed that they were not effective in presenting information and only use verbal expressions. Throughout the process, it was observed that there was a lot of interest in the interactive board and that the students wanted to use it continuously. It was observed that the students were very active in the animations which were in the form of drag-and-drop on the interactive board and they were effective in developing both technology and communication skills too. The data obtained from the observation forms in the lessons of the all participants in which the experimental applications were made are given in Table 9. As it is seen in Table 10, it was observed that 15% of the students were frequently active in searching, finding and selecting the most frequent part. On the other hand, they were sometimes effective in finding the appropriate information with a frequency of 11.4% and in developing basic computer skills with a frequency of 10.0%. In general, it can be said that 48.6% of the students were sometimes and 40.7% of the students were sometimes effective in the use and development of information and communication skills.
When the qualitative and quantitative data collected in the study considered it was understood that the perception of information and communication skills of the students in the experiment group of teacher A was significantly increased, by way of explanation, the material had a positive effect on the students' perceptions. Withal no significant difference was found between the pre-test and post-test scores of the control group students and between the posttest scores of the experimental and control group. When the qualitative data on the reasons for the increase in the experimental group investigated, it was understood that the students were successful in reaching the information in the observations, but generally they used their notebooks and books in this process. Correspondingly it can be said that the students were partially good at presenting information and communication skills. Howbeit this situation was thought to be improved throughout the process. It was found that the students' interest was very high in interactive board, still they were hesitant to use it. In general, it can be stated that the informatics and communication skills of the students in the experimental group teacher A were improved, but this was not obvious.
In like manner it was understood that the students' perceptions of information and communication skills of the teacher B experiment group increased significantly, videlicet the material had positive effects on the students. After all, no significant difference was found between the pre-test and post-test scores of the control group students and between the posttest scores of experimental and control groups. When the data obtained from the observations were taken into account, it was understood that the students were successful in accessing the information and in this process, they started to use the books at the beginning and later on they started to use the internet. The students were sometimes good and sometimes had problems with information and communication skills. Granting all this, students' expression skills were strong and it was found that they were sometimes not successful in presenting the information. In the classroom, the interactive board was attracted great interest of the students and was used occasionally by the students. All the same, it can be said that the interactive board and technological tools are mostly used by teachers. It can be stated that the students' ICT skills and communication skills developed in the teacher B group.
It was found that there was no significant difference both between the pre-test and post-test comparisons of the students of teacher C in the experiment and control groups and the posttest comparisons of the students of teacher C in the experiment-control group. This meant there was no significant increase in information and communication skills scores of the students. Provided the observations in the experimental group considered, it can be said that the students tried to use their informatics and communication skills. However, this increase did not show up in the quantitative data collection tool. In the observations, it was found that the students generally reached the information and used the books at this stage and sometimes they were effective in presenting and communicating the information. Added to that, although the students were interested in the interactive board, it was understood that the students could not use it effectively because the technological tools were not made accessible by the teacher.
In parallel with this situation, it is thought that the information and communication skills of the students did not increase significantly.
When all the three teachers are considered, it was understood that students' perceptions about information and communication skills increased significantly in the pre-test and post-test scores of the experimental group. In parallel with this situation, it was understood that the students in the experimental group were frequently effective in reaching information, while they were sometimes effective in presenting the information, communication skills and basic computer skills in observations. However, in the study, it was found that there was no Even though there was no significant difference between the information and communication skills perception scores of the experimental and control group students, it was understood that the information and communication skills of the experimental group increased. This is supported by the findings from qualitative data. In the observations, students were found to be frequently effective in searching, in finding the appropriate information to the aim and in selecting the suitable one, while they were sometimes effective in finding relevant information, in communicating skills and developing basic computer skills. In general, it can be said that students were sometimes or frequently effective in using and improving their information and communication skills. It can be stated that there was an improvement in the information and communication skills of the students especially during the process of searching for, finding and selecting the appropriate information. It can be emphasized that this situation was akin to the fact that the inquiry process takes place in the study and the students take an active part in the process of reaching information. At this point, in the context of information and communication scores, it can be said that there was a difference between quantitative data collection tool and qualitative data collection tool. Although students' information and communication skills were not very high, it can be stated that their perceptions were very high. It was thought that this situation was a result of either the students' self-confidence or the lack of opportunities in learning environments. In this study, it can be said that both cases were valid. It was found that in some cases, such as the use of interactive whiteboards and computers, the teachers did not offer students any opportunities to use information and communication technologies. It can then be highlighted that in some cases students were not given enough opportunities. In addition, students were not very effective in presenting the results they obtained, however, in this context, it was found out that their scores were high on the perception scale. It can be underpinned that this result was reached in parallel with the higher self-confidence of the students. In the study, parallel to the findings from the qualitative and quantitative data, it was understood that although students' perception of information and communication skills was higher, their skills were slightly lower.
As a result of the study, it was found that the students' information and communication skills perception scale post-test mean scores were 97.76 in the experimental group and 96.95 in the control group. Considering that the maximum score that can be obtained was 110, it can be said that the students' average perception scores of information and communication skills were high. In the literature, Haznedar (2012) examined the ICT skill levels of university students and ICT skills of the students in the five-point Likert-type scale was found to be 4.2 that was high level of skill. In their studies, Amedeker and Yidana (2010) stated that the ICT skills of the students in the faculty of education were at the intermediate level. In addition, it was stated that most of the students' attitudes towards using ICT to learn science were good and receptive (Aladejana, 2007). Similarly, it can be said that information and communication skills were high in the studies conducted in this context. It is thought that this situation might result from students' being born in the age of technology, being intertwined with technology starting from young ages and growing in more democratic and promised families in parallel with the change in family structures. Again, it was considered that every student should be given the right to speak as much as possible in classrooms in order to solve the problems in terms of expressing themselves academically and presenting their own ideas.
When the results considered in general, it is thought that web-based inquiry-based learning did not result in a significant increase in students 'perceptions of information and communication skills due to students' perception levels' being very high at the beginning and although the results of the study increase, they did not differ significantly. In addition, it was understood that there was an increase in the information and communication skills and perceptions of the students in the groups where the material was applied, specifically there was an improvement in the information and communication skills of the students in qualitative data. This situation was thought to emerge in parallel with the interactive processing of the courses on the website, the inclusion of multimedia objects, and choosing approaches through which students were active. On the condition that the skills of students wished to be improved, it can be said that they need to be given more responsibility allowing them to express themselves, giving them opportunities to do research, and boosting their responsibility in their learning. In this way, it was thought that students' skills would develop over time. In addition to this, in the study, it was understood that the information and communication skills of the students were not very good in the qualitative data. Although students were generally good at finding information, they often used books and notebooks and could not use the internet effectively in their research. It was interesting to note that although the internet and the interactive board were an opportunity in the process, they were not used by the students. In presenting and communicating information, although some students were better, it was understood that these skills were low. However, considering the age and situation of the students, it was thought that presentation and communication skills would improve. Finally, although it was thought that the students were good at basic computer skills, they were not able to use these skills because there was not much opportunity during the implementations. In this context, it can be said that the students should be given opportunities in classrooms in order to develop and improve their skills.

Suggestions
• It was understood that interactive whiteboard or technology was used in a teacheroriented manner. In order to eliminate this situation, it is thought that the activities should be included to be performed by the students or the number of interactive materials should be augmented in the web-based materials. In order to improve the students' information and communication skills, the student's interaction with the materials should be made sure. • In this study, the effect of web-based inquiry-based learning on students' information and communication skills was investigated. However, at this point, it was understood that there were some differences between quantitative and qualitative data. It is believed that conducting a similar study and examining it in depth will be an asset for the literature. • For teachers to use information and communication technologies effectively, education should be given, and trainings should be practiced.