Does Replacing Face-to-face Lectures with Pre-recorded

Video Lectures Affect Learning Outcomes?

Nestori Syynimaa

Faculty of Information Technology, University of Jyväskylä, Jyväskylä, Finland

Gerenios Ltd, Tampere, Finland

Keywords: Video Lectures, Learning Outcomes, Student Satisfaction.

Abstract: Videoing lectures have been popular during the past decade. The literature on the effect of video lectures is

controversial. Some studies indicate that video lectures have a positive effect on learning outcomes and

student satisfaction, while some state that there is no effect at all. In this paper, we share the results of a

university undergraduate course, where half of the lectures were replaced by pre-recorded lectures. The results

indicate that using pre-recorded lectures had a statistically significant positive effect on grades. Also, the

students’ satisfaction levels were higher.

1 INTRODUCTION

Videoing lectures in the universities has gained

popularity during the past decade. Some earlier

studies indicate that videoed lectures may improve

students’ grades and course satisfaction, but some

indicate that there is no significant difference

(Bennett and Maniar, 2007). As such, the literature is

controversial. Value to students also depends on how

the videos are used (Williams et al., 2012); If videos

are complementary, they are valuable, if they are used

to substitute the lectures, they are not.

It seems to be unquestionable that students do like

video lectures (Secker et al., 2010; Settle et al., 2011).

One reason for this is that students may revisit the

videos as many time as needed (Bennett and Maniar,

2007). Teachers, however, do not like videos (Secker

et al., 2010). There are two main reasons for this: (i)

perception that videoed lectures reduce attendance,

and (ii) not all lecture styles are suitable for videos

(ibid.).

In this paper, experiences and insights from an

undergraduate course, where half of the lectures were

replaced with pre-recorded video lectures, are shared.

2 COURSE ARRANGEMENTS

The University of Jyväskylä in Finland has one of the

biggest faculty of Information Systems (IS) in

Europe. There are programs for both undergraduates

and graduates. There are some mandatory courses for

all undergraduate students. These courses have

typically around 200 students and therefore called a

mass-courses. One of these courses is Information

Management Basics, TJTA114.

The course consists of nine lectures, each focusing

to a certain theme. To pass the course, students need

to pass an exam and do an assignment in groups of

five. The grading scale is from 0 (failed) to 5

(excellent).

In 2017, when the course was first to run, all the

lectures were recorded and made available to

students. Basically, this allowed students to attend the

course without a need to sit personally in lectures.

The recording had both slides and the live footage of

the lecture (see Figure 2). The length of each lecture

was from 70 to 90 minutes.

In 2018, the first four lectures were pre-recorded

in front of a green-screen. This allowed the use of a

“talking head” (see Figure 1). The lecturer could also

edit the recording, which allowed the lecturer to

repeat if something was said wrong. The rest of the

lectures was recorded the same way than in 2017. The

study material and lectures were identical on both

courses, including the lecture lenghts. Also, the group

assignment was the same.

454

Syynimaa, N.

Does Replacing Face-to-face Lectures with Pre-recorded Video Lectures Affect Learning Outcomes?.

DOI: 10.5220/0007744804540457

In Proceedings of the 11th International Conference on Computer Supported Education (CSEDU 2019), pages 454-457

ISBN: 978-989-758-367-4

Figure 1: Pre-recorded Lecture.

3 RESEARCH METHOD

Two data sources were used in this paper: the course

grades and a course feedback questionnaire data. The

questionnaire had questions related to teaching and

working methods and learning results. The questions

were presented as claims, such as “Now I understand

better the subjects of the course”. The used scale was

a Likert scale from 1 (totally disagree) to 5 (totally

agree). Throughout the course, students were

encouraged to give feedback, especially for pre-

recorded lectures.

4 RESULTS

In 2017 there were 240 students attending the course,

and in 2018 197 students (see Table 1). Roughly 12

per cent of students replied to the feedback

questionnaire in both years. The drop-out rate was a

bit higher in 2018 (22 per cent) than 2017 (18 per

cent). The average for similar courses is 20 per cent.

Table 1: Course statistics.

2017

2018

Enrolled

240

197

Drop-out rate

0.175

0.223

Questionnaire reply rate

0.121

0.118

The live-lecture attendance was not recorded, but

according to the lecturer, the number of students was

remarkable lower during 2018 (~20) than in 2017

(~40). During both years, attendance also dropped

after the first live lecture.

4.1 Grades

The statistics of the grades are presented in Table 2.

As can be seen, 198 students completed the course in

2017, and 153 in 2018.

Table 2: Grade statistics.

Statistics

2017

2018

Observations

198

153

Mean

3.899

4.222

Std. Deviation

0.893

0.794

Variance

0.802

0.635

T-Test results for the grades are presented in

Table 3. As the t-Test results indicate, there was a

small but significant difference in the grades for 2017

(M=3.899, SD=0.8993) and 2018 (M=4.222,

SD=0.794); t(342)=3.570, p=0.000. Grades in 2018

were 0.3 higher than in 2017.

Figure 2: Recorded Lecture.

Does Replacing Face-to-face Lectures with Pre-recorded Video Lectures Affect Learning Outcomes?

455

Table 3: Grades t-Test results.

342

t Stat

3.570

Sig. (2-tailed)

0.000

t Critical (2-tailed)

1.967

Mean difference

0.323

The grades indicate that replacing half of the live

lectures with pre-recorded lectures increased the

learning outcomes.

4.2 Course Feedback

Only summative statistics data, i.e. mean and

standard deviation, was available for course

feedback. Therefore, it was not possible to use t-Test.

Means and standard deviations for the teaching and

working methods are presented in Table 4 and Table

5, respectively. As can be seen, the feedback average

in 2018 is slightly (0.023) higher than feedback in

2017. Also, the standard deviation was slightly lower

in 2018 (1.000) than in 2017 (1.043).

Table 4: Teaching and working methods 2017 (n=24).

Question

Mean

Std.

dev

1. The course had clear learning

outcomes

4.000

0.978

2. Teaching helped me to combine

the studied subjects and my

previous knowledge and experience

3.880

1.035

3. The course included studying or

concretising information in

practical applications

3.920

1.060

4. Teaching inspired in-depth

reflection on study subjects

3.670

1.049

5. The course had an open,

stimulating atmosphere for

discussion and questioning

3.920

1.139

6. The course supported my

learning well

3.960

0.999

Average

3.892

1.043

Means and standard deviations for the learning

results are presented in Table 6 and Table 7. The

feedback average in 2018 is slightly (0.332) higher

than in 2017. The standard deviation was practically

the same in both years.

The course feedback indicates that using pre-

recorded lectures has a positive effect on both

perceived teaching and working methods and

perceived learning results. The most interesting is the

question number 9 from the learning results: “I

achieved the learning objectives of the course”. In

2017, the mean was 3.870 with a standard deviation

of 0.947. In 2018, the mean was 4.235 with a

deviation of 0.730. Thus, the increase was 0.365 with

lower standard deviation.

Table 5: Teaching and working methods 2018 (n=18).

Question

Mean

Std.

dev

1. The course had clear learning

outcomes

4.170

0.833

2. Teaching helped me to combine

the studied subjects and my

previous knowledge and experience

3.830

1.014

3. The course included studying or

concretising information in

practical applications

4.060

0.911

4. Teaching inspired in-depth

reflection on study subjects

3.780

1.083

5. The course had an open,

stimulating atmosphere for

discussion and questioning

3.760

1.165

6. The course supported my

learning well

3.890

0.994

Average

3.915

1.000

Table 6: Learning results 2017 (n=21).

Question

Mean

Std.

dev

1. Now I understand better the

subjects of the course

4.174

0.962

2. I can apply in practice the things

I have learned in the course

3.391

0.920

3. I can develop new ideas on the

basis of what I learned on the

course

3.417

0.909

4. I was able to create a good

overall picture of the course

contents

3.708

1.098

5. My thinking develop during the

course

3.522

1.175

6. My ability to study things

critically evolved

3.304

0.997

7. My problem-solving skills

developed

3.045

0.878

8. My interpersonal skills

developed

2.952

0.898

9. I achieved the learning objectives

of the course

3.870

0.947

Average

3.487

0.976

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Table 7: Learning results 2018 (n=15).

Question

Mean

Std.

dev

1. Now I understand better the

subjects of the course

4.188

1.014

2. I can apply in practice the things

I have learned in the course

3.625

0.927

3. I can develop new ideas on the

basis of what I learned on the

course

3.769

0.890

4. I was able to create a good

overall picture of the course

contents

4.000

0.791

5. My thinking develop during the

course

3.733

1.123

6. My ability to study things

critically evolved

3.462

1.151

7. My problem-solving skills

developed

3.571

1.116

8. My interpersonal skills

developed

3.786

1.013

9. I achieved the learning objectives

of the course

4.235

0.730

Average

3.819

0.973

5 CONCLUSION

The current literature was controversial whether

videoed lectures had an effect on learning outcomes

and student satisfaction. We used two instances of the

same TJTA114 course to see whether replacing half

of the lectures with pre-recorded has any effect. As

the results clearly indicate, using pre-recorded

lectures had a small, but significant, effect on grades.

Also, student satisfaction was slightly higher.

5.1 Limitations

Data for this research was collected from two sources:

grades and course feedback. For course feedback, we

only had access to summative data. Thus, a t-Test

could not be used to see how significant the difference

between the two courses was. Also, the number of

responses was too low to draw strong statistical

conclusions.

In 2018, only half of the courses were pre-

recorded. Thus, we cannot claim that pre-recorded

lectures are categorically better than recorded live

lectures.

5.2 Contributions to Practice

The results revealed that using pre-recorded lectures

does not have any negative effect on grades and

students’ feedback. This encourages teachers to use

pre-recorded lectures as one teaching tool among

others.

5.3 Contributions to Science

The study confirms findings of previous studies

which found that videoed lectures have a positive

effect on learning outcomes. The study also shows

that using video lectures to substitute live lectures has

value to students. Thus, the results contradict findings

of Williams et al. (2012).

5.4 Directions for Future Research

The study pointed out some directions for future

research. First, the statistical evidence of the feedback

data could be strengthened by gaining access to the

original questionnaire data. Second, to provide more

support for our findings, the whole course should be

carried out using pre-recorded lectures only.

REFERENCES

Bennett, E., & Maniar, N. (2007). Are videoed lectures an

effective teaching tool? Retrieved from

http://podcastingforpp.pbworks.com/f/Bennett%20ply

mouth.pdf

Secker, J., Bond, S., & Grussendorf, S. (2010). Lecture

capture: rich and strange, or a dark art? Paper

presented at the ALT-C 2010, University of

Nottingham, UK. http://eprints.lse.ac.uk/29184

Settle, A., Dettori, L., & Davidson, M. J. (2011). Does

lecture capture make a difference for students in

traditional classrooms. Proceedings of the 16th annual

joint conference on Innovation and technology in

computer science education, 78-82.

doi:10.1145/1999747.1999772

Williams, A., Birch, E., & Hancock, P. (2012). The impact

of online lecture recordings on student performance.

Australasian Journal of Educational Technology,

28(2), 199-213.

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