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This is an open access article under CC-BY-SA license.  

 Journal of Science and Education (JSE) 
Vol. 3, No. 1, 2022, 40-50 

DOI: 10.56003/jse.v3i1.144 

ISSN: 2745-5351 

 Effect of Eng-Hau medium of instruction on Upper-Basic 

students’ achievement in Algebra 

John Tyavbee Ajai1, Solomon A. O. Iyekekpolor2, Herbert R. Hanawa3 
1,2,3 Department of Science Education, Taraba State University, Jalingo, Nigeria 

E-mail: ajai.j@tsuniversity.edu.ng  

Received: 8 August 2022 Accepted: 22 September 2022 Published: 30 September 2022 

 

Abstract: This study investigated the effect of Eng-Hau medium of instruction on Upper-Basic students’ achievement 

in Algebra. Eng-Hau is a term for the fusion of English and Hausa languages. The study involved 244 students in the 

Upper Basic School II class from the Jalingo metropolis in Taraba state, Nigeria. Three research questions and 

hypotheses served as the study's guiding principles, and it employed a quasi-experimental design with a non-equivalent 

group, pretest and posttest treatment, and factorial designs. Data was collected using the Algebra Achievement Test, 

which has a reliability coefficient of 0.74 calculated using the KR-20 formula. The children were instructed using 

methodology instructional packages, which included algebraic topics translated into Hausa. The ANCOVA was used to 

test the hypotheses. One of the conclusions was that students who were taught in Eng-Hau performed better than those 

who were taught in English alone. There was no gender disparity among students taught in Eng-Hau. Indicating that 

achievement in mathematics is not based on gender but rather on the medium of instruction, the interaction effec t of 

gender and medium of instruction on achievement was shown to be insignificant. 

Keywords: Eng-Hau, English language only, Hausa language, students’ achievement, gender difference, interaction 

effect. 

How to cite: Ajai, J.T., Iyekekpolor, S.A.O., & Hanawa, H.R. (2022). Effect of Eng-Hau medium of 

instruction on Upper-Basic students’ achievement in Algebra. Journal of Science and 

Education (JSE), 3(1): 40-50. https://doi.org/10.56003/jse.v3i1.144  

 

INTRODUCTION 

Parents, the government, and other stakeholders in the education sector are concerned about the annual 

failure rate of students in mathematics. There is no denying that both mathematics educators and students are 

working to raise standards of performance at all levels. As a result, teachers are making an effort to adopt the 

many teaching techniques they believe might improve the situation. Despite these, it doesn't seem as though 

the degree of students' bad mathematics proficiency is improving. The results of the students in mathematics 

on the Senior School Certificate Examination, often known as the SSCE conducted by the West African 

Examination Council (WAEC), for the past 20 years are highly alarming. According to the results, just 

27.31% of candidates who took the WAEC-administered SSCE between 1991 and 2016 passed, while 

72.69% failed (Zalmon, & Wonu, 2017). These kinds of outcomes surely cannot be said to satisfy the 

nation's ambitions. 

The reasons behind these students' appalling performance are varied. Failures or poor performance are 

sometimes attributed to the calibre of teachers, while on other hand, others blame the subject matter's 

complexity. Success or failure in mathematics could therefore depend on a variety of variables in addition to 

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 Ajai, Iyekekpolor, & Hanawa – Effect of Eng-Hau medium of instruction … 41 

just having a basic understanding of the topic. There hasn't yet been found a single component that is known 

to be completely to blame for poor math performance. Therefore, teachers must overcome the difficulties of 

providing effective instruction that will improve students' performance on both internal and external exams. 

According to the research by Setati, Chitera, & Essien (2009), learning mathematics in a language other 

than the learner's native tongue is more challenging for the student to understand. Language guidelines that 

are universally or globally recognised and accepted serve as a guide for learning mathematics, particularly at 

the secondary level. This will make it possible for students to enroll in advanced mathematics courses (Percy 

& Andrew, 2014). The language of instruction must enable students to understand the literature or subject 

matter they are supposed to learn. As a result, effective teaching and learning depend on the learners 

understanding the language that is being used. 

The choice of instruction language poses a risk to the development of high-quality education. The 

international lingua franca is thought to be the most effective for teaching any subject to any student, 

however, some teachers prefer teaching in students' mother tongues or in a bilingual setting. An instrument 

for fostering national development is educating in the language of the immediate community. This is best 

illustrated by the fact that countries like China and Japan have made technological advancements as a result 

of teaching in their native tongues. 

The lack of use of the local language as a medium of teaching in schools may be responsible for 

Nigerian students' poor math performance. According to Azurin (2010), the countries where their mother 

tongue was employed as a medium of instruction for the teaching and learning of mathematics produced 

students with the highest scores in an international mathematics competition. Similar to what Arzadon (2010) 

said, teaching mathematics to students in their home tongue fosters their awareness, knowledge, competence, 

self-esteem, and confidence in their ability to solve mathematical problems. Students learn, retain 

knowledge, and comprehend, according to Ekwue & Umukoro (2011), when what they are taught is 

appropriately and meaningfully connected to their experiences and when real-life examples are used. The use 

of the mother tongue successfully has improved the understanding of mathematical concepts, particularly at 

the lower primary levels of education, according to Feza-piyose (2012). 

The difficulty faced when using a foreign language to learn mathematical concepts is the ability to 

effectively communicate mathematical ideas, particularly whenever the teacher and learner may not share a 

first language (Orton, 2012). It becomes challenging when students don't get what is being taught and the 

teacher is unable to express complex ideas in terms that the students might easily understand. Children learn 

mathematics more effectively when they are taught in their mother tongue, according to Israel & Thomas 

(2013). It makes sense that every child should be taught in their mother tongue or the language of their 

immediate community, as stated in section 1 item 8g of the National Policy on Education (FRN, 2013). This 

may be the rationale Abubakar, Umari, & Musawa (2015) blamed the country's incapacity to employ the 

mother tongue for instruction in schools and to design an educational curriculum for the worrisome decrease 



42    Journal of Science and Education (JSE), Vol. 3, No. 1, September 2022, pp. 40-50 

in the education system. Further emphasis was placed on the fact that nations like China and Japan can make 

enormous advances in science and technology by adopting their native tongues. 

Studies such as Dorgu & Igbojinwaekwu (2016), Wushishi, Ashafa, & Sadiq (2016), Bala & Apagu 

(2017), including others have shown that students who are taught in their local language are more likely to 

perform well than those who are taught in a foreign language. Thus, it will not be out of place to say that 

language of instruction is a very significant and pivotal factor in teaching and learning. Nigeria is a 

multilingual community, and also has the English language as the official language. Therefore, the English 

language is taught at all levels of education as a second language (Adah, & Sule, 2019) and is also used to 

teach all other subjects. Because everyone speaks it, Hausa is the language of the immediate surroundings in 

Northern Nigeria. The second official language is Hausa. The language of instruction for students in this 

region of the country is English, which is not the local tongue (Hausa). 

It is also worthy of note that before enrolling in school, the students have acquired and are very fluent in 

the language of their immediate community (Hausa). As a result, the majority of students struggle with the 

English language used to teach mathematics. This is because they hardly speak the English language at home 

or even in school. This makes it difficult for them to articulate their learning, discuss ideas and understand 

concepts that are communicated to them in the English language. This becomes more critical in mathematics 

lessons, where the concepts are known to be more abstract. This study investigated the impact of using Eng-

Hau on students' algebra achievement within the context of the aforementioned observations, as well as 

additional observations about the language issue. The term "Eng-Hau" refers to the usage of both English 

and Hausa in the study's method of teaching mathematics. The problem of this study is therefore stated as 

“what is the effect of Eng-Hau medium of instruction on Upper-Basic students’ achievement in Algebra? To 

resolve this question, the following research hypotheses and research questions served as the study's 

compass: 

Research question one 

What are the achievement scores of students at the Upper Basic School II level in the Jalingo metropolis 

who are taught algebra in English-Hau compared to those who are simply taught in English? 

Research question two 

What are the achievement scores of male and female students at the Upper Basic School II level in the 

Jalingo metropolis who are being taught algebra using the Eng-Hau method? 

Research question three 

What is the interaction between gender and language of instruction on students' mathematics 

achievement at the Upper Basic School II level in the Jalingo metropolis? 

METHOD  

The study used a quasi-experimental factorial design with non-equivalent pre- and post-test groups. The 

study explored the simultaneous effects of two independent factors (instruction medium and gender) on 

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 Ajai, Iyekekpolor, & Hanawa – Effect of Eng-Hau medium of instruction … 43 

achievement, hence a factorial design was chosen. The independent and dependent variables were crossed to 

provide the basis for 2×1×2 factorial analyses. This means that the medium of instruction was used in two 

major groups (control; English language only and experimental; Eng-Hau) concerning achievement 

(dependent variable) in both gender (second independent variable) in two groups (male and female). The 

factorial analysis explains whether variations in a given set of scores can be attributed to a single source of 

variation or they represent the working of several underlying dimensions (Aggarwal, 2004). In essence, it 

made it possible to assess how gender and the type of training had an impact on the achievement of students 

in algebra. Since, complete randomization of the research subjects was almost impossible, where existing 

classes were used, this made the factorial design a quasi-type.   

A pre-test and follow-up test were given on the dependent variable (achievement). In addition to this, 

since the study used intact (existing) classes, the equivalence of the groups could not be guaranteed, hence 

the non-equivalent group design. However, the pre-test was used for determining an equivalent group among 

the students.  The post-test was used to obtain gain scores after treatment. According to Sambo (2005), 

quasi-experimental design is relatively more reliably carried out because it lends itself to the use of 

measurement processes and materials, which yield precision and objectivity. The students in their intact 

classes were assigned into groups namely the control group (C) and the experimental group (E). The study's 

sample consists of 244 Upper Basic School two (JSS II) students, that were selected from 5 schools in the 

Jalingo metropolis of Taraba State, Nigeria. The selection of schools and assigning them to groups (control 

and experiment) was through a method of random sampling. The groups were taught using a specially 

prepared methodology instructional Package (MIP).  

The MIP are lesson plans, where that of the control groups was in English language only. The MIP for 

the experimental groups had a translated version in Hausa, for teaching Algebra using Eng-Hau (both 

English and Hausa Languages). Data on achievement was obtained through Algebra Achievement Test 

(AAT). The AAT consists of 55 multiple-choice items drawn from topics in algebra using the mathematics 

curriculum for JSS IIIn the areas of mathematics education, educational measurement and evaluation, and 

the Hausa language, three experts completed the face and content validation of the MIP and AAT. The 

validation was followed by item analysis, of AAT, where a reliability index of 0.74 was obtained using the 

KR-20 formula. To make sure that the initial group differences are taken into account during data analysis, 

an analysis of covariance (ANCOVA) was performed. 

RESULTS AND DISCUSSION 

Result 

Research question one 

What are the achievement scores of students at the Upper Basic School II level in the Jalingo metropolis 

who are taught algebra in English-Hau compared to those who are simply taught in English? 

 



44    Journal of Science and Education (JSE), Vol. 3, No. 1, September 2022, pp. 40-50 

Table 1. Average test results for the experimental and control groups 

Group 
Number 

of student 

Pretest scores Posttest score Mean 

gain Mean Std. dev Mean Std. dev 

Eng-Hau group 124 28.64 9.12 39.47 15.95 10.83 

Conventional group 120 23.61 11.55 32.00 14.42 8.39 

Mean difference  5.03  7.47  2.44 

Eng-Hau = students taught using a combination of English language and Hausa language  

Conventional Grp = students taught using English language only  

According to Table 1, the experimental group received instruction in Eng-Hau, and their pretest mean 

score was 28.64 with a standard deviation of 9.12, while the control group received instruction in English 

only, and their pretest mean score was 23.61 with a standard deviation of 11.55. The experimental group's 

pretest results differ from those of the control group by 5.03 points. The two groups' standard deviation 

scores differed by 2.43, indicating that the two groups’ mean scores are equally distributed.  Following 

statistical removal of the impact of the pretest, the posttest mean score of the students taught using Eng-Hau 

stands at 39.47, while that of their counterparts taught using English Language only is 32.00. The posttest 

standard deviation scores of the two indicate that the posttest scores of the groups are both homogeneous 

within the groups. The group that was taught algebra using Eng-Hau had a 7.47-point advantage over the 

other group on the posttest mean score. The mean gain (i.e., the difference between the pretest and post-test 

mean scores) for students who were taught in Eng-Hau was 10.83, compared to 8.39 for students who were 

solely taught in English. The experimental group outperformed the control group by 2.44 in terms of mean 

gain. This implies that students taught using Eng-Hau have higher achievement mean scores than their 

counterparts taught using the English language only. 

Research question two 

What are the achievement scores of male and female students at the Upper Basic School II level in the 

Jalingo metropolis who are being taught algebra using the Eng-Hau method? 

According to Table 2's findings, male students had a mean achievement score on the pretest of 27.63 

with an 8.79 standard deviation, while female students had a mean score of 29.61 with a 9.39 standard 

deviation. The experimental group's pretest achievement results differ 1.98 points from those of the control 

group. Following statistical removal of the impact of the pretest, the posttest mean achievement score of 

male students stands at 41.22, while that of their female counterparts is 37.72. The achievement post-test 

mean score difference between male and female students is 3.50, favouring the male students.  

Table 2. Average test scores for the Eng-Hau group's students, both male and female 

Gender 
Number 

of student 

Pretest scores Posttest score Mean 

gain Mean Std. dev Mean Std. dev 

Male 61 27.63 8.79 41.22 16.44 13.59 

Female 63 29.61 9.39 37.72 15.44 8.11 

Mean difference  1.98  3.50  5.48 

In a similar vein, male students' achievement mean score gains (13.59) are higher than those of female 

students (8.11). Thus, the male students gained 5.48 achievement mean scores higher than their female 

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 Ajai, Iyekekpolor, & Hanawa – Effect of Eng-Hau medium of instruction … 45 

counterparts. This suggests that when algebra was taught using Eng-Hau, male students performed better 

than female students.   

Research question three 

What is the interaction between gender and language of instruction on students' mathematics 

achievement at the Upper Basic School II level in the Jalingo metropolis? 

 
Fig 1. Profile plot of interaction for the medium of teaching and gender 

Figure 1 is a profile plot of the adjusted means for achievement test, split for male and female students 

and medium of instruction (Eng-Hau and English language only). The interactive pattern shows that the plots 

for both sexes do not intercept, though not parallel lines. This shows that there is no interaction effect of the 

medium of instruction and gender on students’ achievement in algebra, especially when the two lines do not 

cross. The plot, however, shows that there is a likelihood of interaction in the long run since the lines are 

close to intercepting.        

Hypothesis one   

At the Upper Basic School II level in the Jalingo metropolis, there is no significant difference in 

achievement between students taught algebra in Eng-Hau and those who exclusively received instruction in 

English. 

Table 3. Summary of One-way ANCOVA 

Sources of  

Variation 

Sum of 

squares 
df 

Mean 

Square 
F Sig. 

Partial  

Eta squared 

Corrected Model 6543.17a 2 3271.59 14.75 .00 .11 

Intercept 27474.02 1 27474.02 124.84 .00 .34 

Pre-test 1802.42 1 1802.42 8.13 .01 .03 

Medium of instruction 3238.24 1 3238.24 14.60 .00 .06 

Error 53464.67 241 222.85    

Total 372193.16 244     

Corrected Total 60007.84 243     

a. R Squared = .109 (Adjusted R Squared = .102) 



46    Journal of Science and Education (JSE), Vol. 3, No. 1, September 2022, pp. 40-50 

Table 3 compares the mean achievement scores of students who were taught algebra using Eng-Hau and 

English Language alone in a one-way between-groups analysis of covariance. After controlling for pre-test 

results, there is a minor effect size (partial eta squared = 0.06) but a significant difference between the two 

groups' post-test results F (1,241) = 14.60, p = 0.00. The effect size shows that 6% of the variance in 

achievement scores of the students is based on the medium of instruction used. A partial eta squared value of 

0.03 also showed that there was little correlation between the students' accomplishment test scores on the 

pretest and posttest. Thus, the hypothesis that there is no significant difference in achievement levels 

between students who are taught algebra in Eng-Hau and those who are taught the subject in the English 

language only in the Jalingo metropolis is rejected. This means that, at the upper basic school level in the city 

of Jalingo, there is a substantial difference between the accomplishment scores of students taught algebra 

using Eng-Hau and those taught using simply the English language. This shows that students who were 

taught mathematics in English-Hau performed noticeably better than their English-only classmates. 

Hypothesis two 

At the Upper Basic School II level in the Jalingo metropolis, there is no significant difference in 

achievement between male and female students who are taught algebra using the Eng-Hau method. 

Table 4. Summary of One-way ANCOVA 

Sources of  

Variation 

Sum of 

Squares 
df 

Mean 

square 
F Sig. 

Partial  

Eta squared 

Corrected Model 394.72a 2 197.36 .77 .46 .01 

Intercept 21014.64 1 21014.64 82.35 .00 .41 

Pre-test 122.08 1 122.08 .48 .49 .00 

Gender 231.41 1 231.41 .91 .34 .00 

Error 30877.99 121 222.85    

Total 230721.29 124     

Corrected Total 31272.71 123     

Table 4's findings demonstrate a one-way between-groups analysis of covariance to compare the 

average achievement scores of male and female students who were instructed in algebra using the Eng-Hau 

method. After adjusting for the pre-test scores, F (1,121) = 0.91, p=0.34>.05 indicates there is no statistically 

significant difference in the accomplishment scores of male and female students. The effect size 

demonstrates that no gender-related variation in the students' achievement scores exists. As a result, the 

claim that there is no significant different in the achievement levels of male and female students taking 

algebra in the Jalingo metropolis' upper basic school level utilising Eng-Hau was not disproved. 

Hypothesis three 

In the Jalingo metropolitan, there is no significant interaction between gender and the method of 

instruction that affects students' achievement in algebra at the Upper Basic School II level. 

 

 

 

 

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 Ajai, Iyekekpolor, & Hanawa – Effect of Eng-Hau medium of instruction … 47 

Table 5. Summary of One-way ANCOVA 

Sources of  

Variation 

Sum of 

Squares 
df 

Mean 

square 
F Sig. 

Partial  

Eta squared 

Corrected Model 6924.57a 4 1731.14 7.79 .46 .01 

Intercept 21014.64 1 21014.64 120.74 .00 .34 

Pre-test 1892.34 1 1892.34 8.52 .00 .03 

Gender 221.24 1 221.24 .99 .32 .00 

Medium 3181.67 1 3181.67 14.33 .00 .06 

Gender*medium 150.04 1 150.04 .68 .41 .00 

Error 53083.26 239 222.11    

Total 372193.16 244     

Corrected Total 60007.84 243     

a. R Squared = .115 (Adjusted R Squared = .101) 

Table 5 shows a 2 x 2 x 1 factorial analysis to investigate the interactive effect of the effect of medium 

of instruction (experimental and control) and gender (male and female) on students’ achievement. After 

adjusting for the pre-test scores, F (1, 239) = 0.68, p = 0.41 > 0.05 show that the interaction between gender 

and the medium of instruction has no significant effect on students' achievement scores in algebra. The effect 

size also shows that neither the students' gender nor the medium of instruction was responsible for any 

variation in their achievement scores. Therefore, it is not rejected that there is no significant interaction 

between gender and the medium of instruction on students' accomplishment scores in algebra in the Jalingo 

metropolis.  

Discussion 

One aspect that affects academic accomplishment is the language of instruction because it facilitates 

learning and understanding when teachers utilise the learners' native tongues. This also helps the learners to 

have better memorizing and remembering abilities. Before the instruction, the students' pre-test results from 

the class taught using Eng-Hau were not statistically significantly different from that of the group taught 

algebra using English language only. This is a confirmation that the two groups of students entered the 

instruction on equal strength. This finding is necessary to show that any significant difference observed in 

the post-test scores would not be attributed to chance but to the effect of the intervention (Eng-Hau).  

Consequently, the post-test scores of the students taught algebra using Eng-Hau were found to be 

significantly higher than their colleagues in the group that was taught algebra using the English language 

only. This finding indicates that students taught using the combination of Hausa and English languages (Eng-

Hau) perform better than those taught using the English language only. The results showed that combining 

the Hausa language, which is spoken in the nearby area, with English significantly increased students' 

performance in algebra. 

The study's findings concur with earlier studies such as Ogbonne (2012), Chinweokwu (2013), Oginni 

Omoniyi & Owolabi Olabode (2013), Abubakar, Umar & Musawa (2015), Dorgu & Igbojinwaekwu, (2016), 

Wushishi, Nasifa & Sadiq (2016) as well as Bala & Apagu (2017) which found that when students taught 

using the English language combined with the language of the immediate environment achievement is 



48    Journal of Science and Education (JSE), Vol. 3, No. 1, September 2022, pp. 40-50 

enhanced. The results are in line with a study by Njoroge (2017) from Kenya, which discovered that teaching 

mathematics and science in the home language is a successful method for raising students' proficiency in 

those subjects in Kenyan primary schools. The results also support those of Sanda, Kida, & Okwute (2018), 

who found that students who received social studies instruction in both Hausa and English performed better 

than those who received instruction only in Hausa or in English. 

The study established that 6% of the variance in student test results for achievement is based on the 

medium of instruction used. The implication is that, if mathematical concepts are fully translated to the 

language used in the immediate area, there is a likelihood of better performance. The most likely causes of 

this result could not possibly be unrelated to the fact that teaching algebra using Eng-Hau, the combination 

of the English language with that of the immediate environment (Hausa) to explain concepts aided students 

to understand thereby making the learning smoother for them.  In addition to this, using the local language 

(which in this case is Hausa) in combination with the English language as a language of instruction freed the 

students from timidity and thereby increase students’ participation during lessons. The pedagogy: Eng-Hau 

also reduced rote learning and increased the assimilation of mathematical concepts. The results of this study 

also demonstrate that the mean achievement of male and female students who were taught algebra utilising 

Eng-Hau methodology did not significantly differ. The finding of this study contradicts the findings of 

Busolo (2011) in Kenya; Asuquo & Onasanya (2006) in Nigeria, who found gender differences in 

achievement. However, the findings of this study agree with Oludipe (2012), Ogbonne (2012), Wushishi, 

Nafisa & Sadiq (2016), Onuoha (2016), and Yakubu (2016) that discovered no significant differences 

between students who were male and female. The fact that male and female students perform equally well in 

class may have something to do with the fact that they are both capable of competing and working together. 

The use of Eng-Hau in instruction shows that gender has less of an impact on mathematic achievement than 

does the medium of instruction. This finding was further buttressed that the medium of instruction and 

gender does not have an interactive effect on students’ achievement. This finding has affirmed that there is 

no gender difference in cognition and brain lateralization in the learning of mathematics. 

CONCLUSION 

The results of this investigation clearly show that Eng-Hau as a medium of instruction improved 

students’ understating of algebra as well as their achievement. Thus, supplementing the use of English as a 

medium of instruction with the language of the immediate surroundings in teaching algebra and mathematics 

generally, is very potent, in enhancing students’ understanding and achievement.  Secondly, achievement in 

mathematics is not dependent on a student’s gender, but on the method (the language of instruction) used by 

the teacher. The study suggests that when teaching mathematics, teachers should always make an effort to 

convey abstract ideas in the language of the immediate environment of the students. Conscious efforts should 

also be made by mathematics educators, and other relevant bodies and government agencies to translate 

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 Ajai, Iyekekpolor, & Hanawa – Effect of Eng-Hau medium of instruction … 49 

mathematical concepts into the major languages in Nigeria, to boost students’ understanding and learning of 

mathematics.  

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