Paper—The Impact of Using Cell Phones on the Pronunciation of English Consonant Clusters among…

The Impact of Using Cell Phones on the Pronunciation 
of English Consonant Clusters among Saudi Female 

Secondary School Students*

https://doi.org/10.3991/ijim.v15i21.26909

Shrowg Alhomaidhi()
Prince Sattam Bin Abdul-Aziz University, Riyadh, Saudi Arabia

s.alhomaidhi@psau.edu.sa

Abstract—This research attempts to find out the impact of using cellphones 
on the students’ pronunciation with an emphasis on consonant clusters. The sam-
ple of the study was 40 female secondary school students divided into two groups 
control and experimental. The study attempted to answer one question: Will the 
use of pronunciation videos on cell phones help to improve Saudi female second-
ary students’ pronunciation of English consonant clusters occurring in the onset 
position? To achieve this, the researcher conducted a pre-test and a post-test to 
test students’ pronunciation of selected vocabulary from the English Inventory of 
consonant clusters. After the pre-test, the experimental group used video to prac-
tice these sounds while the control group practiced that in traditional classes. The 
findings showed that both groups improved. However, the experimental group, 
having utilised cell phone videos, made significant improvement by 7.05% in the 
correct production of consonant clusters.

Keywords—consonant cluster, onset, traditional method, cellphones

1 Introduction

Second language (L2) learning has gone through long stages of development and 
improvement. It started with a considerable focus on the acquisition of correct grammar 
and translation. Besides, writing and listening have been given attention by scholars 
and language instructors. Unfortunately, accurate pronunciation has not been given 
enough attention and sometimes looked at as insignificant. However, much research 
has been done on pronunciation teaching and L2 learning in general. For example, 
Brodkey (1972) [3] and Stuparyk (1996) [14] investigated the importance of teaching 
pronunciation and its role in speech intelligibility. Therefore, the focus of this study 
will be on the role of cell phones in enhancing L2 students’ pronunciation, particularly 
consonant clusters occurring in the onset position.

* This publication was supported by the Deanship of Scientific Research at Prince Sattam bin Abdulaziz 
University.

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https://doi.org/10.3991/ijim.v15i21.26909
mailto:s.alhomaidhi@psau.edu.sa


Paper—The Impact of Using Cell Phones on the Pronunciation of English Consonant Clusters among…

2 Literature review

2.1 Theoretical background

Pronunciation problems can disrupt the flow of communication among non-native 
speakers, on the one hand, and between native and non-native speakers, on the other 
hand. In other words, intelligibility between speakers can be absent or weak when 
 pronunciation did not reach the threshold level. This is described by Celce-Murcia, 
Brinton, and Goodwin (1996) [4] as an essential stage towards being intelligible to other 
speakers. Intelligibility was defined by Anderson-Hsieh (1989) [1] as the point where 
a speaker reaches a degree of accuracy sufficient to be understood by other  people.  
This degree of accuracy as described by Anderson-Hsieh (ibid) can be reached by 
adopting appropriate pronunciation teaching methods which can now be possible from 
the use of new technology and the advancements in portable mobile devices, which can 
be utilized to enhance the pronunciation of consonant clusters.

Consonant clusters in English occur in one of these positions: onset, medial, or coda. 
The words ‘strong’, ‘crowd’, and ‘freak’ are examples of consonant clusters occurring 
in the onset position. The words ‘empty’, ‘tempted’, and ‘landlady’ are examples of 
medial consonant clusters. Finally, the words ‘react’, ‘words’, and ‘texts’ are exam-
ples of consonant clusters occurring in the coda position. However, it should be noted 
that digraphs, such as /ʧ/ and /dʒ/, are not considered consonant clusters because each 
digraph represents a sound made of two symbols, as in the words ‘check’ /tʃek/ and 
‘judge’ /dʒʌdʒ/ respectively (Black, 1981) [2].

2.2 Previous studies on pronunciation

In relation to pronunciation errors in consonant clusters, Na’ama (2011) [10] 
 conducted a study on Yemeni students at Hudeidah University to discover what pro-
nunciation errors in consonant clusters might occur. He reported interesting findings 
regarding these errors and gave some pedagogical propositions. Accordingly, the sub-
jects came from levels 1, 2, and 3. The selection of the subjects was random, 15 from 
each level. The findings of Na’ama’s study indicated that the subjects had noticeable 
errors with consonant clusters represented by what he called ‘epenthesis’ or ‘vowel 
insertion’. Although the researcher did not give a statistical analysis of the results, he 
emphasized the presence of such errors and attributed this problem to the students’ first 
language (Arabic) which does not allow the use of consonant clusters.

A number of experimental studies investigated the practicality of new technology in 
the teaching and enhancement of students’ pronunciation (Johnson, Dunkel, Rekart, & 
Rekart, 1991) [9]; (Schwartz, J. Markoff, & Jain, 1991) [12]. The studies focused on 
intelligibility and comprehensibility in terms of the impact of technology-based pronun-
ciation instruction on the acquisition of correct pronunciation. Therefore, the research-
ers inferred that pronunciation affects intelligibility. Derwing and Munro (2013) [5] 
defied intelligibility as “the extent to which a listener actually understands an utter-
ance” (p. 385). Johnson, Dunkel, and Rekart (1991) [9] and Schwartz, Markoff, and 
Jain (1991) [12] also gave a definition of comprehensibility as “a listener’s perception 
of how difficult it is to understand an utterance”. Intelligibility is usually assessed using 
transcription or listening comprehension drills completed by a listener (ibid, p. 385).

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The use of new technology in the enhancement of pronunciation has the potential 
of being effective in developing L2 learners’ pronunciation. Nadeem, Mohsin, Mohsin, 
and Hussain (2012) [11] conducted a study on 50 MA students of English who had been 
taught using traditional methods. After taking a pronunciation pre-test, it was found 
that the subjects had many pronunciation mistakes in some individual words and had 
improper intonation as well. The researchers used some computer programs with pro-
nunciation drills in which the students were trained and received feedback afterwards. 
The researchers noticed that students were better able to pronounce and differentiate 
between long and short vowel sounds. They were able to pronounce diphthongs and pro-
duce word stress and intonation in connected speech with better performance. Nadeem 
et al. (2012) [11] did not give a statistical discussion of the findings, but they empha-
sized the effectiveness of technology-based pronunciation learning and suggested that 
the use of new technology should be encouraged in L2 teaching and learning.

Similarly, Stenson, Downing, Smith, and Smith (1992) [13] carried out an experi-
ment using the Speech Viewer to teach pronunciation, a digital display of sound waves. 
They wanted to find out whether computer-based displays of speech were effective in 
the teaching of pronunciation in L2. The results showed that in the pre-test, the dif-
ference between the experimental and the control groups was close, with an  average 
of 1.10 points higher in favour of the experimental group. However, in the post-test, 
the difference between the experimental and control groups was higher, with an aver-
age of 3.01 points higher in favour of the experimental group. Nonetheless, both 
groups showed development in their pronunciation. The experimental group scored  
7.33 points, and the control group scored 5.42 points. The researchers thought that the 
close results of both groups are because the subjects did not have enough training on 
the Speech Viewer. Otherwise, the statistics could have shown more significant results.

As stated earlier, much research has been conducted on the use of new technology in 
language teaching. For example, Harper (2004) [8] conducted a study to investigate the 
effectiveness of Computer-Assisted Language Learning (CALL) based pronunciation 
exercises for beginning ESL learners. But to the extent of the researcher’s knowledge, 
no one has researched the impact of cell phones on the enhancement of pronunciation 
of consonant clusters occurring on the onset position. Therefore, we find this topic as 
important and genuine.

3 The study

3.1 Statement of the problem

Learners of English as a second language (ESL) or as a foreign language (EFL) often 
encounter some difficulties in word pronunciation. Saudi students are EFL learners who 
have their own problems in pronunciation, which might be attributed to first language 
interference. One of these problems is the mispronunciation of consonant clusters 
occurring in the onset position, a problem which can interfere and impede commu-
nication successfully. Hence, the researcher will investigate the impact of cell phones 
on pronouncing consonant clusters occurring on the onset position. The study will dis-
cuss the impact of cell phone pronunciation videos on a problematic issue for Ara-
bic speaking learners of English called ‘epenthesis’, which is the insertion of a vowel 

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or  consonant segment within an existing string by non-native speakers. For example,  
the word ‘next’ would be pronounced /nekəst/ instead of /nekst/ (Yip, 1987) [16].

3.2 Question of the study

The study attempts to answer the following question:

	─ Will the use of pronunciation videos on cell phones help to improve Saudi female 
secondary students’ pronunciation of English consonant clusters occurring in the 
onset position?

3.3 Hypothesis of the study

The researcher hypothesizes that in terms of consonant clusters occurring in the 
onset position, there will be an observable difference in pronunciation between students 
using cell phones and those who are taught using the traditional method.

3.4 Significance of the study

The study aims to provide teachers of English as a foreign language and EFL learn-
ers with a self-learning method through which good pronunciation can be enhanced 
in the students’ own pace. The availability and utilization of cell phones in language 
classrooms can make language learning take place anywhere and anytime.

3.5 Participants

The targeted sample in this study included two randomly selected 2nd grade classes 
in female secondary school. During that time, the participants have studied English 
for five years in Saudi Arabia and were of almost the same age. They were studying 
the same courses and were being taught by the same teacher. Each class consisted of  
20 students, so the total was 40 participants. These 40 students were chosen randomly 
with no criteria set before. The participants’ levels were expected to be varied. One of the 
classes was a control group (class B) and the other, which is the focus of this study, was 
an experimental group (class A). The experimental group was given different audio and 
video recordings to be used on the subjects’ mobile phones anywhere and at any time.

3.6 Instrument

To answer the research question, the researcher needed to have a suitable instrument. 
Therefore, a pre-test and a post-test were used to collect data and to confirm or reject 
the research hypothesis (see appendix A). The test has adopted from a previous form of 
Inventory of English Consonant Clusters. Both of them, the pre-test and the post-test, 
consist of three columns. The first one had a list of 20 words consisting of consonant 
clusters on the onset position (Blue, Bright, Clown, Crowd, Drink, Frown, Glass, 
Grass, Plug, Proud, Shrank, Skull, Scream, Square, Spleen, Spring, Trig, String, 

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Trip, Strip). The second and third columns were used to show whether each participant 
pronounced the word correctly or not. The items of the tests were derived from the 
Inventory of English Consonant Clusters with some modifications to serve the purpose 
of the study. Those modifications included replacement of some items to make the 
words list compatible with the words in the audios and videos given to the students. 
Also, the other columns for insertion, deletion, and substitution of consonant clusters in 
the original form of the Inventory of English Consonant Clusters were not used since 
the purpose of this study is to examine the effect of cell phones as a means on the pro-
nunciation of onset cluster rather than to investigate the types of errors made by Saudi 
secondary students. Nonetheless, the researcher made efforts to guarantee the validity 
of the test. The test was designed to measure onset consonant clusters and nothing else. 
Furthermore, reliability was also taken care of, and the test would hopefully give the 
same or similar results if conducted again in the same or similar circumstances.

3.7 Definition of terms

	─ Consonant: One of the speech sounds that is not a vowel and is produced by  
stopping the air from flowing easily through the mouth (Roach, 2009) [17].

	─ Consonant Cluster: two or more consonants placed adjacent to each other at the 
beginning, middle or end of a word (Roach, 2009) [17].

	─ Onset: the segment of a syllable preceding the nucleus as the [gr] in the word great 
(Roach, 2009) [17].

	─ Traditional Method: it gives the important role of the teacher as being the control-
ler of the classroom learning context. In short, the language teacher is the one who 
makes learning take place (Novak, 1998) [18].

3.8 Procedures of data collecting and data analysing

Data collection. The procedures used for collecting the data for the study involved 
per- test and post-test. On November 24th, the pre-test was conducted on both groups in 
the lab where each student sat in an individual booth supplied with a headset and a mon-
itor. After introducing herself to the participants and explaining the aim of this study, 
the researcher gave brief instructions to the subjects on what to do. Then, the words 
were displayed on the monitor one by one, and each student started reading the words 
as the researcher listened and checked the subjects’ pronunciation simultaneously on 
a checklist (see Appendix A). After that, each student in the experimental group was 
given five different audios and videos that provided examples of words with onset con-
sonant clusters pronounced by native speakers. These recordings included words such 
as blend, brown, broccoli, black, blue, cry, crap, clap, clown, grapes, green, glasses, 
gloves, frog, French, fly, drink, dressed, trained, tree, plant, playground, scooter, scarf, 
skirt, sky, sleep, slow, smile, smock, snow, snails, squares, squid, spoon, spin, stars, 
stop, sweater, swimsuit, sing, stunk, stinky. These recordings have been reformatted to 
work on different types of cell phones. The subjects received these videos on their cell 
phones to use anytime and anywhere. Furthermore, the students had the chance to listen 
to the correct pronunciation and even record themselves using similar items to those 

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in the list. On the other hand, the control group underwent the usual traditional teach-
ing method of learning the pronunciation of onset consonant clusters in the classroom 
and on the board without using any of these cell phone videos. On December 1st, the 
post-test was conducted on both groups after one week to see if there is a significant 
difference in the subjects’ pronunciation. The data was gathered from both tests and 
was entered into excel and analysed. Then, the findings were reported, and suggestions 
and recommendations were given as well.

Data analysis. The pre-test and post-test have led to some significant findings. 
There were some noticeable errors with the production of consonant clusters that 
the researcher revealed. The subjects were inclined to insert a vowel into the cluster, 
and this what Na’ama (2011) [10] referred to as ‘epenthesis’. For example, the words 
‘scream’, ‘square’, ‘spleen’, ‘spring’, ‘string’, and ‘strip’ were pronounced as /səkrɪm/, 
/səkweər/, /səplɪn/, /səprɪŋ/, /sətrɪŋ/, and /sətrɪp/ respectively. The differences between 
the control and experimental groups can be visually perceived from Figures 1 and 2.  
It is worth mentioning that the subjects who had scored 100% in the pre-test had been 
excluded from the analysis because there was no point in measuring their performance 
after the experiment. These differences will be discussed in detail below.

Fig. 1. Control group

Figure 1 shows that there was no significant change in the results and performance 
of the control group in both tests as illustrated by the blue and red columns. The per-
formance was almost stable with some insignificant improvement in pronunciation of 
some words, which could be attributed to ordinary teaching following a traditional 
method.

In the control group, the number of students who did not score 100% was 15. The 
words ‘blue’, ‘bright’, ‘crowd’, ‘drink’, ‘glass’, ‘shrank’ and ‘trip’ were pronounced 
correctly by 15, 14, 11, 15, 12, 14, and 12 subjects in both tests. The results of these 
words in both tests showed no change in performance. However, there was a difference 
in the results of the post-test in the following words: ‘clown’; ‘frown’; ‘grass’; ‘plug’; 
‘proud’; ‘skull’; ‘scream’; ‘square’; ‘spleen’; ‘spring’; ‘trig’; ‘string’; and ‘strip’. The 
cluster ‘cl’ in the word ‘clown’ was pronounced correctly by 13 subjects in the pre-test, 
and by 12 in the post-test. The cluster ‘fr’ in the word ‘frown’ was pronounced correctly 

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by seven subjects in the pre-test, and by nine in the post-test. The cluster ‘gr’ in the 
word ‘grass’ was pronounced correctly by seven subjects in the pre-test, and by nine 
in the post-test with a minor improvement. The cluster ‘pl’ in the word ‘plug’ was pro-
nounced correctly by eight subjects in the pre-test, and by ten in the post-test with also 
a minor improvement. The cluster ‘pr’ in the word ‘proud’ was pronounced correctly 
by six subjects in the pre-test, and by ten in the post-test with relative improvement. 
The cluster ‘sk’ in the word ‘skull’ was pronounced correctly by five subjects in the 
pre-test, and by six in the post-test with a minor improvement. The cluster ‘skr’ in the 
word ‘scream’ was pronounced correctly by three subjects in the pre-test, and by eight 
in the post-test with good improvement. The cluster ‘squ’ in the word ‘square’ was 
pronounced correctly by two subjects in the pre-test, and by nine in the post-test with 
a major improvement. The cluster ‘sp’ in the word ‘spleen’ was pronounced correctly 
by two subjects in the pre-test, and by six in the post-test with a relative improvement. 
The cluster ‘spr’ in the word ‘spring’ was pronounced correctly by three subjects in 
the pre-test, and by ten in the post-test with a major improvement. The cluster ‘tr’ in 
the word ‘trig’ was pronounced correctly by nine subjects in the pre-test, and by 11 
in the post-test with a minor improvement. The cluster ‘str’ in the word ‘string’ was 
pronounced correctly by six subjects in the pre-test, and by ten in the post-test with a 
relative improvement. The cluster ‘str’ in the word ‘strip’ was pronounced correctly 
by five subjects in the pre-test, and by ten in the post-test with a relative improvement. 
Therefore, the improvement was generally minor.

Figure 2 shows that there was a relatively significant improvement in pronunciation 
of the experimental group after the experiment as shown by the results of the post-test. 
In the experimental group, the number of students who did not score 100% was 12. The 
word ‘drink’ was pronounced correctly by all subjects in both tests. The red columns in 
Figure 2, which depict the post-test results, are higher in all cases except with the word 
‘drink’ simply because all the students pronounced correctly in both tests and there-
fore no change would be expected. However, the results were varied noticeably with 
these words: ‘blue’; ‘bright’; ‘clown’; ‘crowd’; ‘frown’; ‘glass’; ‘grass’; ‘plug’; ‘proud’; 
‘shrank’; ‘skull’; ‘’scream’; ‘square’; ‘spleen’; ‘spring’; ‘trig’; ‘string’; ‘trip’; and ‘strip’.

Fig. 2. Experimental group

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The clusters ‘bl’, ‘br’ and ‘cl’ in the words ‘blue’, ‘bright’ and ‘clown’ respectively 
were pronounced correctly by 11 subjects in the pre-test, and by 12 in the post-test. 
The cluster ‘cr’ in the word ‘crowd’ was pronounced correctly by nine subjects in the 
pre-test, and by all subjects in the post-test. The cluster ‘fr’ in the word ‘frown’ was 
pronounced correctly by seven subjects in the pre-test, and by all subjects in the post-
test. The clusters ‘gr’, ‘gl’ and ‘shr’ in the words ‘grass’, ‘glass’ and ‘shrank’ were 
pronounced correctly by ten subjects in the pre-test, and by all subjects in the post-test. 
The clusters ‘pl’ and ‘pr’ in the word ‘plug’ and ‘proud’ pronounced correctly by four 
subjects in the pre-test, and by all subjects in the post-test with a major improvement. 
The cluster ‘sk’ in the word ‘skull’ was pronounced correctly by seven subjects in the 
pre-test, and by ten in the post-test with a relative improvement. The cluster ‘scr’ in 
the word ‘scream’ was pronounced correctly by five subjects in the pre-test, and by 
all subjects in the post-test with a significant improvement. The cluster ‘squ’ in the  
word ‘square’ was pronounced correctly by seven subjects in the pre-test and by  
11 in the post-test with a relative improvement. The cluster ‘sp’ in the word ‘spleen’ 
was pronounced correctly by five subjects in the pre-test, and by11 in the post-test 
with a major improvement. The cluster ‘spr’ in the word ‘spring’ was pronounced cor-
rectly by eight subjects in the pre-test, and by all subjects in the post-test with a major 
improvement. The cluster ‘tr’ in the word ‘trig’ was pronounced correctly by nine sub-
jects in the pre-test, and by all subjects in the post-test with a major improvement. The 
cluster ‘str’ in the word ‘string’ was pronounced correctly by six subjects in the pre-
test, and by 11 in the post-test with a major improvement. The cluster ‘tr’ in the word 
‘trip’ was pronounced correctly by seven subjects in the pre-test, and by all subjects 
in the post-test with a major improvement. The cluster ‘str’ in the word ‘strip’ was 
pronounced correctly by five subjects in the pre-test, and by all subjects in the post-test 
with a significant improvement. Therefore, the improvement was relatively significant.

4 Discussion of the results

4.1 Results of the control group

Figure 3 shows a comparison between the results of the pre-test and post-test of 
the control group. The striped columns represent the correct pronunciation of conso-
nant clusters, while the dotted columns represent the incorrect pronunciation. It is evi-
dent from the chart that the control group have made some minor improvement in 
pronunciation. Correct forms rose by 2.25%, from 43.24% to 45.50%. On the other 
hand, incorrect forms of pronunciation decreased by 2.25% from 56.75% to 54.50%.  
However, this improvement may seem too small to be considered significant, which, as 
mentioned earlier, can only be attributed to normal language acquisition development 
through the traditional teaching method.

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Fig. 3. Control group

4.2 Results of the experimental group

Figure 4 illustrates the results of the experimental group’s performance of consonant 
clusters in the onset position. The striped columns indicate the correct pronunciation 
in the pre-test and post-test while the dotted columns indicate the incorrect pronunci-
ation in both tests. It is obvious from the chart that there is some significant change 
in the results. Correct forms of pronunciation by the experimental group increased by 
7.05% from 58.75% to 65.80% as opposed to just 2.25% by the control group, where 
traditional teaching took place. By the same token, incorrect forms of pronunciation 
decreased by 7.05% dropping from 41.25% to 34.20% after the experiment in which 
the subjects used videos and audios on their cell phones to learn the pronunciation of 
onset consonant clusters. Even though the change was not significantly high, it proved 
that using cell phones could be very effective in the long term.

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Fig. 4. Experimental group

4.3 Summary of results

Figure 5 shows clearly an upward trend for both groups in terms of correct forms 
of pronunciation, and logically, they must have a down trend in the incorrect forms. 
However, the upward trend for the experimental group is relatively more significant 
than that of the control group. Similarly, the trend for incorrect forms is relatively steep 
for the experimental group while it shows only a minor decrease for the control group.

Fig. 5. Results

The results of both groups show that cell phones could be utilized to improve stu-
dents’ pronunciation of consonant clusters in the onset position. The decline in error 

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frequency for the experimental group in the post-test demonstrates the effect of video 
and audio recordings using portable devices such as cell-phones. However, it could be 
argued that the improvement was not substantially significant, and that is absolutely 
true. The experimental group improved by 7.05% in just a one-week experiment during 
which students were encouraged to use cell phones to learn and practice pronunciation 
following native speakers as a model. The relatively small increase in correct pronunci-
ation could only be attributed to the short period allotted for the experiment. Therefore, 
a longer period should produce more significant improvement not only in the pronunci-
ation of consonant clusters but also in pronunciation in general.

5 Conclusion

The general conclusion would be that the use of new technology, namely cell 
phones, could supersede the application of traditional teaching method in teaching 
pronunciation. The results showed that traditional methods would not work with pro-
nunciation as successfully as new methods in which there was an implementation of 
hi-tech portable devices such as cell-phones. In other words, traditional methods could 
make positive changes in performance, but those changes would be extremely slow 
and not very effective. On the other hand, the use of cell phones could produce more 
effective and positive results in a relatively short time in comparison to traditional 
methods. Moreover, such modern devices are portable and useable anytime and any-
where, a feature which would make learning easily accessible and more interesting 
and motivating.

5.1 Delimitations and limitations

Because of the limited time and space, this study was delimited to consonant clusters 
occurring in the onset position. Furthermore, to the extent of the researcher’s knowl-
edge, there were no previous studies that highlighted the effects of cell phone, espe-
cially in pronunciation. Moreover, the technology used was only cell phone with some 
videos downloaded on it. The study was also confined to second-grade students in a 
secondary school in Riyadh.

Therefore, it is important to consider the limitations of this study. Since data col-
lected in this study was limited to a specific group of people, Saudi female secondary 
students, the findings cannot be generalized. Also, the researcher focused on one issue 
of pronunciation, consonant clusters occurring in the onset position and with a lim-
ited set of isolated words. However, investigation of pronunciation involves more inte-
grated elements which could contribute to the development of other important aspects 
in pronunciation as what the researcher recommended later. Furthermore, since age is 
an important factor in the acquisition of the second or foreign language as evidenced by 
distinct research in the field of L2 acquisition, the findings of the study cannot be pop-
ularized to all ages. For instance, it was proved by Fathman (1975) [7] in an empirical 
study that the younger the learner was, the better the scores were in term of their pro-
nunciation abilities. She also noted that the older they were when they started language 
learning, the more errors they had in pronunciation.

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5.2 Recommendations and suggestions

In light of the findings and limitations of this short study, the researcher gave recom-
mendations for future studies. It is recommended to examine the effect of cell phone 
in all consonant clusters initial, middle and final. In addition to this, since this study 
is confined to consonant clusters, it is also suggested to investigate the impact of cell 
phone in different issues of pronunciation. As reported in different studies, Derwing, 
Munro, and Wiebe (1998) [6] and Wennerstrom (1998) [15] suprasegmental features, 
such as intonation, can play a vital role in word pronunciation and successful commu-
nication. Furthermore, Cell phones and other types of hi-tech portable devices could be 
employed to improve L2 learners’ pronunciation of English vowels as well. Teachers 
of English as a foreign language and EFL learners should be encouraged to benefit 
from advancements in technology. Some activities should be designed to work on cell 
phones for developing certain skills in the language.

The current work tackled the potential effect of cell phones on the pronunciation of 
consonant clusters occurring in the onset position. Therefore, further research may be 
needed to deal with other portable devices such as iPods, iPads, and PDA’s.  Further 
research may be needed to investigate the effect of cell phones on other language 
skills such as reading, writing, and listening. Even more, research may be needed to 
investigate the effect of cell phones on grammar and vocabulary. Also, taking Fathman 
(1975) [7] study into account, the current study would have given more findings if the 
 participants came from different age groups.

6 References

 [1] Anderson-Hsieh, J. (1989). Approaches toward teaching pronunciation: A brief history. 
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 [2] Black, E. B. (1981). A study of the consonant situations in a primary reading vocabulary. 
Spelling Progress Bulletin.

 [3] Brodkey, D. (1972). Dictation as a measure of mutual intelligibility: A pilot study. Language 
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 [4] Celce-Murcia, M., Brinton, D. M., & Goodwin, J. M. (1996). Teaching pronunciation:  
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 [5] Derwing, T. M., & Munro, M. J. (2013). The development of L2 oral language skills in two L1 
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 [6] Derwing, T. M., Munro, M. J., & Wiebe, G. (1998). Evidence in favor of a broad framework 
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0023-8333.00047

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Paper—The Impact of Using Cell Phones on the Pronunciation of English Consonant Clusters among…

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7 Appendix A

Check list of consonant clusters occurring in the onset position

No Words
Evaluation

Correct Incorrect

1 Blue

2 Bright

3 Clown

4 Crowd

5 Drink

6 Frown

7 Glass

8 Grass

9 Plug

10 Proud

11 Shrank

12 Skull

13 Scream

14 Square

15 Spleen

16 Spring

17 Trig

18 String

19 Trip

20 Strip

Final Score

170 http://www.i-jim.org

https://doi.org/10.1017/S0272263198001016
https://doi.org/10.1017/S0272263198001016
https://doi.org/10.1007/BF00138986


Paper—The Impact of Using Cell Phones on the Pronunciation of English Consonant Clusters among…

8 Author

Shrowg Alhomaidhi, a lecturer of English at the Department of English, Prince 
Sattam Bin Abdul-Aziz University, Riyadh, Saudi Arabia. She received her BA in 
English and Translation from King Saud University in 2010. She was awarded an MA 
in applied linguistics in 2015 from the Department of English and Translation, Al-Imam 
Mohammad Ibn Saud Islamic University (IMSIU). She holds a number of certificates 
in language and other life skills. E-mail: s.alhomaidhi@psau.edu.sa

Article submitted 2021-09-15. Resubmitted 2021-10-09. Final acceptance 2021-10-09. Final version 
published as submitted by the authors.

iJIM ‒ Vol. 15, No. 21, 2021 171

mailto:s.alhomaidhi@psau.edu.sa