582020 38(1): 58-71 http://dx.doi.org/10.18820/2519593X/pie.v38i1.5

Professional 
develoPment of 
technology teachers: 
does their training meet 
their needs?

abstract

The phenomenological study on which this article is based inquired 
into Grade 9 Technology teachers’ professional development 
through workshops on pedagogical content knowledge (PCK) as 
well as their training needs. The workshops took place in Nelspruit 
in Mpumalanga, South Africa. Data were gathered from two groups 
of teachers who attended the workshops on two different days, 
but who were trained in the same way and were subsequently 
conveniently selected to participate in the study. Semi-structured 
focus group interviews were conducted with these teachers and 
the workshop facilitator was also interviewed. The training manual 
was scrutinised, the facilitation of the workshops was observed 
and a follow-up visit was done at two schools where the workshop 
participants taught. The findings revealed that while the teachers 
felt that the workshops developed them, such training did not 
fully meet their needs or expand their PCK repertoires. This study 
will inform the Mathematics, Science and Technology Academy 
(MSTA), which is tasked with offering in-service training to subject 
teachers in the province, about whether the workshops meet the 
needs of the attendees, thereby possibly necessitating a review of 
the training. 

Keywords: teachers’ needs, pedagogical content knowledge, 
teacher development, Technology, workshops

1. bacKground of the study
The study on which this article is based explored the 
professional development of Technology teachers regarding 
their pedagogical content knowledge (PCK) and related 
needs. PCK, which is an amalgamation of pedagogy 
and content (what and how), concerns the knowledge of 
teaching (Shing, Saat & Loke, 2015). PCK is a specific 
form of knowledge required by teachers that involves the 
transformation of subject matter knowledge in the context 
of facilitating learners’ understanding (Shulman, 1987). It is 
about effective teacher preparation in which the teacher 
understands what is to be learnt and taught (Shulman, 
1987). PCK consists of seven elements, including 

author:
Prof MT Gumbo1 

affiliation: 
1University of South Africa

DOI: http://dx.doi.
org/10.18820/2519593X/pie.
v38i1.5

e-ISSN 2519-593X

Perspectives in Education 

2020 38(1): 58-71

Published:
11 June 2020

Published by the UFS
http://journals.ufs.ac.za/index.php/pie

© Creative Commons  

With Attribution (CC-BY)

https://orcid.org/0000-0001-6760-4341
http://dx.doi.org/10.18820/2519593X/pie.v38i1.5
http://dx.doi.org/10.18820/2519593X/pie.v38i1.5
http://dx.doi.org/10.18820/2519593X/pie.v38i1.5


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knowledge of a) the subject matter, b) pedagogical content, c) general pedagogy, d) the 
curriculum, e) learners and their characteristics, f) educational contexts and g) educational 
aims, purposes and values.

The scarcity of research into the professional development of Technology teachers in 
South Africa is what motivated this study. Also, Technology (as it is known locally, but also 
known as Technology Education or Design and Technology in other contexts) was only 
introduced for the first time into the school curriculum two-and-a-half decades ago. 

Professional development is about improving teachers’ skills and the competencies they 
need to produce outstanding learner results (Villegas-Reimers, 2003; Mizell, 2010). This may 
happen via a variety of modes, for instance coaching, lesson observation, the creation 
of professional learning communities, support and hands-on activities, amongst others 
(Mizell, 2010, 5). Schools-based practical experience regarding the subject content, new 
teaching methods, technological advances and learners’ changing needs (Mishra & Koehler, 
2006; Mizell, 2010) compel teachers to further their professional development so that they can 
be properly immersed in their PCK. This suggests that teachers’ professional development 
remains the hallmark of their own competence and, by implication, of learner performance 
(Knight & Wiseman, 2005; Desimone, Smith & Ueno, 2006). For this reason, teachers 
should be competent if they are to achieve the desired learner success. Many teachers are 
seriously lacking the teaching skills needed to support individual differences in learners (Laine 
& Otto, 2000; Kent, 2004). In South Africa specifically, teachers’ conceptual knowledge is 
limited (Department of Education, 2006). Technology teachers in particular show a lack of 
understanding of the requisite subject content, pedagogical knowledge and skills (Reitsma 
& Mentz, 2007), especially in the teaching of design processes (investigate, design, make, 
evaluate and communicate) (Juuti, Rättyä, Lehtonen & Kopra, 2017). Technology’s PCK 
mainly relies on the design process, as content and pedagogy. Pedagogically, teachers have 
to develop in their learners multiple skills that will qualify them as technologists (e.g., design, 
creative, critical and manufacturing skills). In the Senior Phase (Grades 7–9), Technology’s 
subject matter content knowledge includes topics such as the processing of materials, 
structures, mechanical systems and controls, and electrical systems and electronics. The three 
aims of this field of study are: 

• Develop and apply specific design skills to solve technological problems;

• Understand the concepts and knowledge used in Technology education and use them 
responsibly and purposefully;

• Appreciate the interaction between people’s values and attitudes, technology, society and 
the environment. (Department of Basic Education [DBE], 2011:8)

The latter aims to address the issue of indigenous technologies as well as the impact of, 
and bias towards, technology (DBE, 2011:10). 

In this context, professional teacher development risks becoming nothing more than 
a state-funded skills development programme (Steyn, 2008:3). Many programmes are 
unsatisfactory, failing to meet the intended professional teacher development goals (Mewborn 
& Huberty, 2004). It is in this light that Mouton, Tapp, Luthuli and Rogan (1999) argue that 
professional development should be tailored to the needs and expectations of teachers and 
should be continuous or prolonged. South Africa’s Mpumalanga province has responded 
to this challenge by prioritising Technology teacher training through workshops, as part of 



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the main Mathematics, Science and Technology project. Hence, the issue explored here is 
about understanding the PCK aspects that the workshops addressed (or failed to address) in 
response to Technology teachers’ training or developmental needs. 

The present study aims to contribute to the body of knowledge on teachers’ workshops, 
in particular whether these respond to attendees’ professional needs. Tailoring workshops 
according to teachers’ needs is important, as it has been found that certain offerings train 
teachers away from their actual areas of need (Gusky, 1986). This study can be regarded as 
breaking new ground, since no research has yet been conducted into the MSTA’s initiatives 
regarding professional teacher development in that context. Further, a study of this nature 
is crucial, given the contextual dynamisms of professional development workshops and the 
questions they raise. The MSTA, which is tasked with training Technology teachers with 
respect to PCK as part of their professional development, has adopted workshops as its main 
strategy. In partnership with MSTA, the Department of Science and Technology Education 
(DSTE) from the University of South Africa (UNISA) conducted research aimed at informing 
teacher training and development in Mpumalanga, with a view of making improvements. 
To this end, the following research questions were posed to guide the study: 

• What are Technology teachers’ PCK-related professional development needs?

• How do Technology workshops respond to teachers’ professional development needs?

2. literature review 
Professional development is defined as the intensive, ongoing and systematic process of 
enhancing teaching, learning and school environments (Fenstermacher & Berliner, 1985; 
Elmore, 2002). It aims to improve teachers’ skills and the competencies required to produce 
outstanding learner results (Reading First, 2005). In addition, teacher development describes 
“the professional growth which a teacher achieves as a result of gaining increased experience 
and examining his or her own teaching systematically” (Gatthorn in Villegas-Reimers, 2003, 11). 
Reasons for professional development include the certification of unqualified teachers, teacher 
upgrading, preparing them for new roles, and curriculum-related dissemination or refresher 
courses (Greenland in Villegas-Reimers, 2003). Professional teacher development is crucial 
for the effective implementation of any curriculum, and for boosting learners’ interest and 
performance in a subject (here, Technology in particular). 

As stated earlier, the usefulness of professional teacher development in South Africa has 
been called into question. This is backed up by examples of research in the field, including 
a qualitative study by the South African Democratic Teachers’ Union (SADTU, 2014) in 
Mpumalanga that interrogated teachers’ perceptions about their professional developmental 
needs. In that case, focus groups were held and a questionnaire was administered to 
teachers while individual interviews were conducted with principals. The findings revealed 
that the teachers’ concerns revolved around workshops being too short, a lack of classroom 
resources, learners’ disadvantaged backgrounds, high learner:teacher ratios and a disregard 
of indigenous languages as mediums of instruction. In an American study on Science and 
Mathematics teachers’ experiences, needs and expectations in terms of their professional 
development, it was found that many such programmes fail because they do not consider 
teachers’ backgrounds, experience, knowledge, beliefs or needs (Chval, Abell, Pareja, 
Musikul & Ritzka, 2008). The first study cited above did not target teachers of a specific 
subject, while the second investigated Science and Mathematics teachers without focusing 



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on specific grades. What both studies achieved was to illuminate the problems surrounding 
professional teacher development and to signal that further research is required.

The problem of teacher development in South Africa is exacerbated by their lack of 
qualifications and/or their under-qualification. The DBE (2011) reports that about 40 per cent 
of practising teachers are unqualified and/or under-qualified, with certain teachers holding 
outdated qualifications (e.g., a Primary Teacher’s Diploma, a Senior Primary Diploma in 
Teaching, a Junior Primary Teacher’s Diploma or a Senior Teacher’s Diploma) (Welch, 2009). 
This could mean that teacher training has not yet put teachers on solid ground in respect of 
their PCK. The implementation of Technology as a subject has raised concerns about teachers’ 
knowledge (Stein, McRobbie & Ginns, 1999; Mapotse, 2012). Reitsma and Mentz (2007), 
corroborated by Rohaan, Taconis and Jochems (2012), argue that many Technology teachers 
lack subject content knowledge and skills, pedagogical knowledge and skills and PCK. This is 
mainly because Technology is a relatively new subject to teach, for which few teachers are 
qualified (Taylor & Vinjevold, 1999; Department of Education [DoE], 2006; Mapotse, 2012). 
In support of their pedagogical skills, teaching resources are needed to be integrated in 
their teaching, particularly modern technology such as smartboards (Banks, 1996; Mishra & 
Koehler, 2006). Banks (1996, 176) borrows from Shulman to refer to the teaching resources as 
“the materia media or pharmacopoeia from which teachers draw their equipment that present 
or exemplify particular content”. Technology integration is emphasised as it is perceived as 
branding teaching in the 21st century. Mishra and Koehler (2006) extended PCK to include the 
integration of technology, introducing PCK the technological pedagogical content knowledge 
(TPACK) to the PCK framework. 

To investigate this topic on a local level, a centralised continuous professional teacher 
development model was used to frame the study.

3. centralised continuous Professional teacher develoPment 
Different continuous professional teacher development models exist, namely the centralised, 
decentralised and cascade models. Centralised training takes place at a central venue 
(teachers converge from different schools), decentralised training takes place at teachers’ 
own schools, while cascaded training happens with senior staff at a central venue, who in 
turn train their colleagues at their own schools (Conner, 1991; Craft, 1996; Engelbrecht & 
Ankiewicz, 2016). All these models are facilitator driven (Engelbrecht & Ankiewicz, 2016). 

The centralised model was chosen for this study and involved teachers from various schools 
being trained at a common venue. According to Craft (1996) and Muhammed (2006), most 
training lasts for a day or longer, and workshops are the dominant training mode employed in 
this model (Fareo, 2013). The MSTA relies heavily on this model, which sees personnel from 
higher education institutions being tasked with monitoring high-quality planning, presentation 
and training materials (Engelbrecht & Ankiewicz, 2016, 264) – in this instance, UNISA provided 
that service. However, the model used has many flaws (Craft, 1996, 8–14):

• inappropriate aims on the macro level do not reflect the true needs and expectations 
of teachers;

• inappropriate activities are planned with no regard for the outcomes;



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• teachers lack motivation because they are unwilling to attend training, as there is very little 
perceived incentive (financial or otherwise) to further their qualifications; and

• it is not very popular, as teachers’ private lives are disrupted and single parents struggle to 
accommodate such training.

Despite taking place at a separate central venue, the expectation with this model is that 
what takes place during the training should align with what takes place at school (Engelbrecht 
& Ankiewicz, 2016), i.e., it should reflect the needs of the school/teachers. Day (in Engelbrecht 
& Ankiewicz, 2016) claims that school-focused training covers natural learning experiences 
and conscious and planned activities that can benefit an individual or school directly, all of 
which can facilitate the provision of quality education. 

4. research methodology
This was a phenomenological study that described and interpreted the experiences of 
workshop participants (Eddles-Hirsch, 2015). The focus was on how the participants 
experienced the professional development workshops (Eddles-Hirsch, 2015) they attended. 
As phenomenology reflects participants’ experiences and reality, their lifeworld, sense-making 
and sense derivation (Eddles-Hirsch, 2015), the participants’ experiences and the sense they 
made of those experiences were sourced for this study. 

The workshops, content and facilitation 
The workshops in question were conducted in Nelspruit during 2015, on two different dates, 
as two-day sessions, with two groups of Grade 9 Technology teachers from different districts 
being accommodated. 

A single workshop will be discussed here, as it was basically duplicated for the second 
group on another occasion, and thus also lasted two days. The content of the workshops was 
outlined in the training manual, which covered electronic systems and control, processing 
and mini-Pat (i.e. practical assessment tasks based on design processes). The sub-sections 
of electronic systems and control included electronic components, simple electrical circuits 
and the impact of technology and electronics in the media. The manual, which contained 
learning activities for the teachers, featured illustrations (such as a diagram on input-process-
output, and another showing electronic components). Throughout, the facilitator referred to 
the training manual that had been specifically developed for the workshops. 

The facilitator started the workshop by outlining the next day’s activities, which would be 
more practical in nature. Thereafter, he gave the attendees a pre-test consisting of multiple-
choice questions that he could mark quickly with their help. The teachers marked each other’s 
tests and supplied the answers aloud. He then discussed the first topic, electronic systems 
and control, and left two more for the following day. He introduced the topic by referring to real 
situations in which electronic systems and controls are applied (e.g., in cars), and explained 
logic gates using a flip chart. He relayed the historical context of electronics from a military 
perspective, having initially been used in radios and television sets. He also touched on 
concepts such as Ohm’s Law, electrical diodes and power sources. Despite having organised 
a data projector, laptop and screen, he relied more on the flip chart and training manual. 

The next day the facilitator instructed the workshop participants to build a simple electrical 
circuit. He engaged the teachers in individual and group activities from the workshop manual, 
and asked questions based on electronic components, simple electrical circuits and the impact 



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of technology. He discussed the processing of metals before the teachers performed practical 
tasks to follow up on the work of the previous day. He focused on preservation techniques 
(painting, electroplating and galvanising) associated with metals and asked a few questions. 
He treated concepts such as oxidation, corrosion and processing, and then gave the teachers 
a practical task on electroplating. He ended by explaining the mini-Pat and giving teachers a 
post-test that was marked in the same way as the pre-test.

data collection methods, participants and procedures 
The two focus groups of Grade 9 Technology teachers were conveniently selected with the 
aid of the facilitator and were interviewed for approximately 40 minutes each. This happened 
outside of workshop times, at the same venue. There were 12 teachers in the first group and 
8 in the second. A 30-minute semi-structured interview was also conducted with the workshop 
facilitator after the workshops had concluded. The interview guides for the teachers and the 
facilitator included biographical information and questions regarding the teachers’ views of the 
workshop and their professional training needs. The facilitator was asked about the intention 
behind the workshops and the planning that went into them. The training manual was also 
evaluated based on the content and design of the learning activities, using a specifically 
designed evaluation tool. The facilitation of the workshops was observed using an observation 
tool that targeted the teaching approaches, concepts taught and integration of resources. 
The observation and evaluation of the training manual added to the researcher’s understanding 
of the teachers’ expressed views about the workshops, and their specific needs. Two schools 
were visited after the workshops to observe the teaching being done by the former workshop 
attendees. This extension of the inquiry helped create a deeper understanding of the impact 
the workshops had on teacher knowledge and practice (their PCK). 

Ethical clearance and permission to conduct the study were granted by UNISA and the 
Mpumalanga DBE respectively. The participants were asked to sign a consent letter. All ethics-
related imperatives were observed, including participant confidentiality, their consent to record 
the interviews and their liberty to terminate their participation in the study.

data analysis
The interview data were coded, manipulated, summarised and organised into themes to 
obtain answers to the research questions (Bogdan & Biklen, 2003). This entailed preparing 
the data; reading and re-reading the transcripts; coding, segmenting and conceptualising the 
data according to emerging patterns; organising the participants’ views under a theme for 
presentation; and substantiating the findings with participants’ verbatim statements. An attempt 
was made to account for the trustworthiness of the study (LaBanca, 2004) in terms of validity 
and credibility, in accordance with acceptable standards of scientific inquiry (Bowen, 2009). 
A multi-method strategy helped to corroborate and triangulate the findings. The preliminary 
findings were presented to the MSTA and peer debriefing was done with colleagues at UNISA, 
who had participated in the main MST project, to add to the trustworthiness of the study 
(Bowen, 2009). 

The next section presents the findings in an integrated manner, in response to the 
research questions.



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5. findings
teachers’ biographical information
The data revealed that most teachers had only recently begun teaching Technology and 
were largely under-qualified to do so. For example, only four had an Advanced Diploma in 
Technology Education, two had a National Diploma (from technical fields) and one had a 
Secondary Teacher’s Diploma. However, the teachers were highly qualified in specialisations 
such as Mathematics, Science and Educational Management. Their service in other subjects, 
which tallied with that in Technology specifically, ranged from four months to 20 years. However, 
their Technology-specific service was combined with their prior teaching at technical schools. 
By implication, therefore, when their low qualifications were juxtaposed to their service and the 
relative newness of Technology as a subject, it transpired that they had not taught Technology 
for that long, compared to other subjects. 

The workshops and teachers’ needs
The participating teachers expressed their passion for teaching the subject but admitted to 
being incompetent in certain aspects of their PCK. The expectation was that the workshops 
would assist them with that. They explained that their low subject-specific qualifications (as 
reflected in the biographical information) made them question their competency. Technological 
knowledge overlaps with certain knowledge areas of Physical Science and Mathematics 
knowledge, such as the properties of materials and the calculation of pressure (e.g. in 
pneumatic systems), but many teachers admitted to lacking basic Physical Science and 
Mathematics knowledge. As one participant explained: 

I did my diploma in commercial subjects. I don’t have the basics of Physical Science, and 
sometimes when I am supposed to teach where there are a lot of calculations in relation 
to things which are happening in Physical Science I sometimes find it difficult.

Another teacher voiced her frustration with the basic mathematical calculations required: 

We have a problem with practicals when it comes to the mathematical part, because in 
almost every term there are calculations for voltage, resistance, current, Ohm’s Law, gear 
ratio, rpm. 

The teachers also felt sympathy for their learners, 

…because learners do not have a good mathematical background. 

Several participants expressed the need for an expert to teach them to understand difficult 
sections of the content knowledge: 

I think it is better if we can have someone who is an expert, like in structures, to train us 
to have a deeper knowledge so that we can teach it better to our learners. 

The facilitator did his best to help the participants arrive at a clear understanding of the 
topics being discussed. He let the teachers discuss these among themselves at times, but 
applied time constraints. The facilitator relied on his work experience and qualifications: he 
had a National Certificate (N1–N6) and a Diploma in Engineering, backed up by 12 years of 
teaching experience, all of which made him experienced and reasonably well qualified.



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Many teachers attempted to make meaning of what they were being taught by making inputs 
from an indigenous perspective. For example, one teacher explained “preservation” thusly: 

In the olden [days], our parents used animal fat to preserve metals. 

The teacher wanted to explain in detail how his grannies did that, and although the 
facilitator welcomed that explanation, he quickly ended it. The fact that the training manual did 
not include any indications of indigenous knowledge might explain why he did not encourage 
the teacher to explain the preservation process further from that particular perspective.

The teachers responded to the interview questions by reflecting on their learners who 
were battling with certain technological content knowledge areas in which they (teachers 
themselves) also needed assistance. One such area was graphics, as one teacher stated: 

In most cases they are struggling when it comes to drawings because some of them 
fail to see the top view, side view. Besides learners not knowing drawings, we also do 
not know these things. I even could not do the two drawings which were included in the 
last examination. 

To address PCK challenges of this nature, the teachers tried to 

involve learners [by] explain[ing] in the local language instead of using English [because] 
some of them experience English as a language barrier. 

Another problem area was the new approach to teaching and learning, or mini-Pats (practical 
assessment tasks based on design projects). Again, the participants admitted that they and their 
learners struggled in this area. The teachers admitted needing training, as one stated:

Many teachers and learners are struggling with the newly introduced mini-Pat. Most 
teachers see it as a monster, and they don’t know what to do. 

The training manual featured a scenario-based activity on the mini-Pat, but the facilitator 
did not instruct the participants to do it. The teachers’ needs in this regard were thus not 
addressed, perhaps due to time constraints. For large parts of the workshop the facilitator 
stated that because time was running out, he could not go into details about a certain topic. 

The teachers were generally positive about the workshops. From the observation done, the 
facilitator seemed well prepared and competent, which might have motivated the participants. 
He did, however, dominate the workshops by presenting material to the attendees, rather 
than allowing them to try it out on their own and be corrected. He appeared to keep the 
interactions brief as there was a great deal of content to cover. The participants therefore 
felt that the workshop lasted for a very short period, adding “they should give us more time”. 
They expected to gain more subject knowledge during the workshop, but when faced with 
time constraints, complained that the “facilitator [did] not have time to explain and engage 
[with] us as teachers”. 

The participants wished the training manuals had been delivered to them prior to the 
workshops, so that they could prepare and bring along their own supplementary materials. It is 
laudable that the teachers were willing to prepare for the workshops by organising materials. 
Also, they wanted to be notified about the objectives of the workshops beforehand, to be able 
to participate from an informed position. They claimed that fellow expert teachers could have 
teamed up with the facilitators, with one participant commenting on the need for “a teacher 



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who is more knowledgeable than everybody to teach us the way they are teaching learners”. 
Many expressed a preference for varied approaches, such as using colleagues who excel in 
the subject. They were not trained much on the methods of teaching, as the facilitator claimed 
“these workshops focus on content knowledge because this is [a] content workshop”. There was, 
however, a contradiction in the sense that the facilitator emphasised PCK during the interview, 
claiming that the aim of the workshops was to ensure that teachers were being capacitated: 

One is to make sure that we give them enough content so that they can be able to teach 
efficiently. That is why we also conduct these trainings, not only content, but PCK, because 
some teachers have content but do not know how to address this content in the classroom.

“Seemingly non-PCK” aspects

The findings revealed the “seemingly non-PCK” aspects the participants mentioned in their 
responses to the interview questions. The fact that some schools were under-resourced was 
a crucial aspect that they wanted resolved. Very few schools that offer Technology are well 
resourced, whereas rural schools in particular are under-resourced. As one participant stated: 

I was so surprised last year when I was doing some practicals. The only thing I found at 
school was a [light]bulb. 

In addition, in instances where resources were available, teachers needed to be trained 
on their use during teaching. This related to more sophisticated technological resources, such 
as how to operate and navigate the applications/tools on the smartboards and laptops that the 
MSTA rolled out to schools under the auspices of the Mpumalanga DBE. As one participant 
explained, they did not know how to use this technology: 

We must use smartboards to teach learners. Some of us cannot operate a computer. 

The facilitator confirmed that teachers had problems with the smartboards (some were 
defective, others just collected dust because the teachers did not know how to use them). 
The facilitator had not planned to train the teachers in the use of smartboards during the 
workshops, and no smartboard was arranged for this purpose. According to the facilitator, 
no analysis was done of the teachers’ needs prior to the workshops; thus, he relied on his 
own sense of learners’ performance in certain areas of the subject and designed the training 
manual to target those areas. 

Another “seemingly non-PCK” matter that teachers raised had to do with describing their 
learners. They felt strongly that teachers should know their learners and the contextual factors 
facing them. The participants claimed that they taught many children from poor backgrounds 
whose parents were unemployed. However, a “hunger for education” in their communities 
meant schools were filled with learners, resulting in overcrowded classes and related 
problems. As the participants mentioned: 

We have small classrooms with sixty to eighty learners […] 

You can’t do practicals because of learner overcrowding. 

site visits
Monitoring and support are crucial aspects of teachers’ professional development, serving 
to ensure that what they learn can be implemented immediately and follow-up training 



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considered. The findings showed that this had not yet been done subsequent to the workshops 
in question. The facilitator confirmed this during the interview, stating that monitoring and 
support were in the future plans of the MSTA, but had not yet started. This indicated a need 
to visit those teachers who had already undergone training and they confirmed that school-
based support was non-existent. They admitted to struggling to understand the subject of 
Technology and especially how to teach it – clearly, they needed assistance in their teaching. 
One teacher was observed teaching the design process during the school visit. She had 
assigned learners a project about safety. The scenario was well conceptualised from the road 
construction taking place about one kilometre away from the school. Having assigned the 
learners the design task a few days before, she asked them to report what they had done 
thus far in their groups. In response, the learners merely read out the scenario given by the 
teacher. They were hesitant to speak and did not appear confident, which indicated that they 
might not have understood the project brief properly. This confirms that teachers are still 
struggling to understand the mini-Pat and how to teach the design process. Another teacher, 
however, was a specialist in graphics, evident in the learners’ design drawings. She could 
be one of those teachers who can be used during the workshops to teach her colleagues. 
In a brief discussion with her, she indicated that she even helped to train her colleagues in 
her area. The teachers were motivated to a point of making efforts to display their learners’ 
artefacts made from thrown-away materials.

6. discussion
This new initiative by the MSTA in Mpumalanga casts light on Technology teachers’ 
professional development. In the light of the findings of the study, the workshops revealed 
areas in which teachers were helped to understand the content as part of their development 
in PCK. The workshops, on the other hand, revealed areas in which teachers’ needs were 
not being fully addressed. The teachers benefited from unpacking concepts related to the 
topics being covered but seemed to struggle with a concept such as “logic gates”. The depth 
of knowledge that the facilitator showed helped them in this regard. The teachers had 
certain preferences about the training, though, and in that sense the workshops might have 
compromised their needs (Mouton et al., 1999). The findings highlighted a number of areas 
in which the teachers had hoped to be capacitated, including the mini-Pat (as observed in 
one teacher’s struggles during a school visit); and design process through which the mini-
Pat is taught (the predominant method for teaching Technology). Teachers’ PCK is lacking 
in this regard, as noted in the literature (Juuti et al., 2017); thus, it is crucial that they be 
better empowered, especially if they are not yet sufficiently qualified in the subject. The extent 
of the teachers’ needs suggests that they require a training of longer duration (Mewborn & 
Huberty, 2004; Reitsma & Mentz, 2007; SADTU, 2014). Juxtaposing the under-qualification of 
the teachers (DoE, 2006; Mapotse, 2012) adds to the need for intensive teacher training over 
extended periods of time. The study’s findings show that the brevity of such interventions may 
contribute to the allegation that the workshops are largely ineffective (Villegas-Reimers, 2003) 
and represent little more than state-funded skills development programmes (Steyn, 2008). 
The fact that the teachers’ PCK is lacking in certain areas, and that Technology is still a 
relatively new subject, creates a need to approach their training differently, e.g. to train them for 
extended periods of time. This will make them acquire the necessary technological knowledge 
and become experts in terms of knowledge and teaching (Shulman, 1987). 



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Teachers’ workshops should immerse teachers more in the “how” of facilitating learning for 
learners (i.e., the pedagogical aspect). Even if they are knowledgeable on the subject matter, 
but poor pedagogically speaking, they will not achieve the desired results in their teaching. 
As a learner commented about a Mathematics teacher when the researcher was still a teacher 
at a secondary school: “Mr X knows Mathematics, but for himself. He cannot impart it to us”. 
This could be the same with Technology teachers if their pedagogical training is compromised. 

The workshops did not capacitate teachers regarding their pedagogy – they mostly 
completed set activities, instead of practising how to teach the concepts. It is important to 
consider the notion of PCK as being more about presenting (Shing, Saat & Loke, 2015). 
The findings revealed that the teachers referred to aspects that did not necessarily fall within 
the PCK framework, which pertained to the plight of their learners and resources. However, 
knowledge of the characteristics of learners and educational contexts forms part of Shulman’s 
(1987) framework, which suggests that they cannot simply be dismissed as “seemingly non-
PCK” elements. Also, pedagogical knowledge directly implies having to use specific resources 
as delivery modes in teaching subject content. Any training that still treats content as separate 
from pedagogy thus counters the progressive work of Shulman’s framework. A lack of 
knowledge and skills, especially when it comes to using advanced technological resources 
(such as the smartboard) or a lack of resources, only complicates the teachers’ job. They are 
forced to cope with learners who are interested in learning, but struggle to understand the 
subject because it is taught theoretically. Imparting Technology-related pedagogy without the 
most vital technological resources under serves the learners, thereby denying the importance 
of Mishra and Koehler’s TPACK framework.

7. conclusion
Teacher education should involve the ongoing re-skilling and up-skilling of teachers. Professional 
development training, which mainly happens through workshops, is an important strategy for 
achieving this. In response to the research questions, this study has shown that teachers’ 
needs should not be overlooked in their development. The main contribution of this study 
was therefore to highlight the importance of considering teachers’ needs in respect of their 
professional development. It should thus be borne in mind that professional training should be 
designed such that it is needs-driven – it may not succeed if teachers’ needs are compromised. 
The MSTA workshops targeted certain subject matter knowledge areas but were not informed 
by the teachers’ needs (e.g., learning how to teach mini-Pat). It is recommended that future 
workshops begin by exploring the participating teachers’ professional development needs 
so that the content that is presented aligns with those needs. Included may be aspects that 
might appear to fall outside of the PCK framework but have an impact on teaching practice. 
Serious consideration should be given to extending workshops to ensure that teachers acquire 
the necessary knowledge and expertise to enable them to become subject experts who have 
mastered the necessary pedagogical knowledge and skills. The workshops should be primarily 
about capacitating teachers so that they can present the content to their learners. The MSTA 
should offer ongoing support to teachers after such workshops, in order to supplement their 
training, where needed. The DBE should also consider sponsoring Technology teachers to 
register for programmes that will qualify them as subject specialists. 

The limitation of this study is that it focused on one-off workshops. Hence, a further 
study should be considered that tracks the professional development of teachers over an 
extended period.



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