Students’ misconceptions need special attention, especially in learning physics during the Covid-19 pandemic. This study aims to analyze students' conceptions after learning physics with an online flipped classroom. This study uses a one shoot case study design. The subjects in this study were postgraduate students who took school physics courses in the first semester of the 2020/2021 academic year, State University of Surabaya. The data taken includes learning activities, with observation techniques on the learning process and identification of students' conceptions with a misconception test with the Certainty of Response Index (CRI). Data were analyzed by descriptive analysis. The results of this study indicate that the online flipped classroom learning process makes students actively analyze concepts, find potential misconceptions, and discuss. However, online learning still leaves students with misconceptions. As many as 69.44% of students have understood the concept correctly, but 22.22% of students have misconceptions on certain materials. In a situation where online learning is a must, the application of an online flipped classroom can make students more active, have understanding of concepts, and relatively few students experience misconceptions.

1.
Weidner
,
Richard
Tilghman
and
Brown
,
Laurie
M.
. (
2021
).
Physics. Encyclopedia Britannica
, 8 Jun. 2021, https://www.britannica.com/science/physics-science. Accessed 2 July 2021.
2.
Pascasarjana
Unesa
. (
2017
).
Buku Pedoman Akademik Program Magister Pascasarjana Unesa [Unesa Postgraduate Master Program Academic Manual]
.
Universitas Negeri Surabaya
.
3.
Tayubi
,
Y. R.
. (
2005
).
Identifikasi Miskonsepsi Pada Konsep-Konsep Fisika Menggunakan Certainty of Response Index (CRI
).
Mimbar Pendidikan.
24
(
3
).
4
9
.
4.
Docktor
,
J.
&
Heller
,
K.
(
2008
).
Gender Differences in Both Force Concept Inventory and Introductory Physics Performance, Physics Education Research Conference
, edited by
C.
Henderson
,
M.
Sabella
, and
L.
Hsu
,
15
18
.
5.
Tunç
,
T.
,
Çam
,
H. K.
&
Dökme
,
İ.
(
2012
).
A Study on Misconceptions of Senior Class Students in Some Physics Topics and the Effect of the Technique Used in Misconception Studies
,
Journal of Turkish Science Education.
9
(
3
).
6.
Liu
,
G.
&
Fang
,
N.
(
2016
).
Student misconceptions about force and acceleration in physics and engineering mechanics education
.
International Journal of Engineering Education
,
32
(
1
),
19
29
.
7.
Wong
,
C.
,
Chu
,
H.
&
Yap
,
K.
(
2016
).
Are alternative conceptions dependent on researchers’ methodology and definition? A review of empirical studies related to concepts of heat
.
International Journal of Science and Mathematics Education
,
14
(
3
),
499
526
.
8.
Samsudin
,
A.
,
Suhandi
,
A.
,
Rusdiana
,
D.
,
Kaniawati
,
I.
&
Costu
,
B.
(
2015
).
Fields conceptual change ınventory: a diagnostic test ınstrument on the electric field and magnetic field to diagnose student's conceptions
.
International Journal of Industrial Electronic Engineering
,
3
(
12
),
74
77
.
9.
Leppavirta
,
J.
(
2012
).
Assessing undergraduate students’ conceptual understanding and confidence of electromagnetics
.
International Journal of Science and Mathematics Education
,
10
(
5
),
1099
1117
.
10.
Eshach
,
H.
(
2010
).
Using photographs to probe students’ understanding of physical concepts: the case of Newton's 3rd law
.
Research in Science Education
,
40
(
4
),
589
603
.
11.
Desstya
,
A.
,
Prasetyo
,
Z. K.
,
Suyanta
,
Susila
,
I.
, &
Irwanto
. (
2018
).
Developing an instrument to detect science misconception of an elementary school teacher
.
International Journal of Instruction.
Vol.
12
, No.
3
.
12.
Crogman
,
H.
,
Peters
,
R.
,
Crogman
,
M. T.
(
2018
).
Probing student's misconceptions results from concept inventory and their understanding in science learning
.
European J of Physics Education.
Volume
9
Issue
1
1309
7202
.
13.
Fratiwi
,
N. J.
,
Kaniawati
,
I.
,
Suhendi
,
E.
,
Suyana
,
I.
&
Samsudin
,
A.
(
2017
).
The transformation of two-tier test into four tier test on Newton's laws concepts
.
AIP Conference Proceedings,
1848
,
05001
14.
Topalsan
,
A. K.
&
Bayram
,
H.
(
2019
).
Identifying prospective primary school teachers’ ontologically categorized misconceptions on the topic of "Force and Motion
".
Journal of Turkish Science Education.
Volume
16
, Issue
1
, March 2019
15.
Kaniawati
,
I.
,
Fratiwi
,
N. J.
,
Danawan
,
A.
,
Suyana
,
I.
,
Samsudin
,
A.
,
Suhendi
,
E.
(
2019
).
Analyzing students’ misconceptions about Newton's Laws through Four-Tier Newtonian Test (FTNT
).
Journal of Turkish Science Education
Volume
16
, Issue
1
, March 2019.
16.
Costu
,
B.
,
Ayas
,
A.
&
Niaz
,
M.
(
2012
).
Investigating the effectiveness of a POE-Based Teaching activity on students’ understanding of condensation
.
Instructional Science
,
40
,
47
67
.
17.
Stein
,
M.
,
Larrabee
,
T.
&
Barman
,
C.
(
2008
).
A study of common beliefs and misconceptions in physics science
.
Journal of Elementary Science Education
,
20
(
2
),
1
11
.
18.
Calik
M.
,
Ayas
A.
&
Coll
,
R.
(
2009
).
Investigating the effectiveness of an analogy activity in ımproving students’ conceptual change for solution chemistry concepts
.
International Journal of Science and Mathematics Education
,
7
(
4
),
651
676
.
19.
Preston
,
C. M.
(
2017
).
Effect of a diagram on primary students’ understanding about electric circuits. Research in Science Education
,
1
24
20.
Du Toit
,
A.
(
2020
).
Outbreak of a novel coronavirus. Nature Reviews Microbiology
,
18
(
3
),
123
123
. .
21.
Zhou
,
P.
,
Yang
,
X.-L.
,
Wang
,
X.-G.
,
Hu
,
B.
,
Zhang
,
L.
,
Zhang
,
W.
,
Si
,
H.-R.
,
Zhu
,
Y.
,
Li
,
B.
,
Huang
,
C.-L.
,
Chen
,
H.-D.
,
Chen
,
J.
,
Luo
,
Y.
,
Guo
,
H.
,
Jiang
,
R.-D.
,
Liu
,
M.-Q.
,
Chen
,
Y.
,
Shen
,
X.-R.
,
Wang
,
X.
, …
Shi
,
Z.-L.
(
2020
).
A pneumonia outbreak associated with a new coronavirus of probable bat origin
.
Nature
,
579
(
7798
),
270
273
. .
22.
Quintana
,
C.
(
2020
, March 11, 2020).
College closings: More than 100 colleges cancel in-person classes and move online.
https://www.usatoday.com/story/news/education/2020/03/11/coronavirus-college-closings-list-online-classes/5022256002/
23.
WAMU88.5
. (
2020
).
Universities In D.C. Area Move Classes Online To Slow Spread Of Coronavirus
https://wamu.org/story/20/03/10/american-university-will-move-classes-online-to-contain-spread-of-coronavirus.
24.
Zubașcu
,
F.
(
2020
, Mar 12, 2020).
Mass closure of universities to prevent spread of COVID-19 in.Europe
https://sciencebusiness.net/news/mass-closure-universities-prevent-spread-covid-19-europe.
25.
Kuntarto
,
E.
(
2017
).
Keefektifan Model Pembelajaran Daring dalam Perkuliahan Bahasa Indonesia di Perguruan Tinggi. JILEL
Vol.
3
, No.
1
.
26.
Mustofa
,
M. I.
,
Chodzirin
,
M.
,
dan Sayekti
,
L.
(
2019
).
Formulasi Model Perkuliahan Daring Sebagai Upaya Menekan Disparitas Kualitas Perguruan Tinggi. Walisongo Journal of Information Technology
, Vol.
1
No.
2
(2019):
151
160
. DOI:.
27.
Widodo
,
W.
,
Rosdiana
,
L.
,
Nurita
,
T.
, and
Fauziah
,
A.
(
2018
).
E-learning task analysis making temporal evolutiongraphics on symptoms of waves and the ability to solve problems
.
International Conference on Science Education (ICoSEd).
DOI:.
28.
Keengwe
,
J.
, &
Kidd
,
T. T.
(
2010
).
Towards best practices in online learning and teaching in higher education
.
MERLOT Journal of Online Learning and Teaching
,
6
(
2
),
533
541
.
29.
Northrup
,
P. T.
(
2009
).
Online learners’ preferences for interaction
.
The perfect online course: Best practices for designing and teaching
,
463
473
.
30.
Grieve
,
R.
,
Kemp
,
N.
,
Noris
,
K.
, &
Padgett
,
C. R.
(
2017
).
jPush or pull? Unpacking the social compensation hypothesis of internet use in an educational context
.
Computers & education
,
109
,
1
0
. Doi:.
31.
Ituma
,
A.
(
2017
).
An evaluation of student's perception and engagement with e-learning component in a campus based university
.
Active Learning in Higher Education
,
12
(
1
),
57
68
. Doi:.
32.
Schmid
,
U.
,
Goertz
,
L.
, &
Behrens
,
J.
(
2017
).
Monitor Digitale Bildung. Die Schulen im digitalen Zeitalter [Monitor digital education. Schools in the digital age]. Bertelsmann Stiftung.
33.
Bergmann
,
J.
, &
Sams
,
A.
(
2012
).
Flip your Classroom: Reach every student in every class every day
.
Arlington
:
International Society for Technology in Education
.
34.
Jensen
,
J. L.
,
Kummer
,
T. A.
, &
Godoy
,
P. d. D. M.
(
2015
).
Improvements from a flipped classroom may simply be the fruits of active learning
.
CBE-Life Sciences Education
,
14
(
1
),
1
12
.
35.
Adams
,
W
&
Wieman
,
C.
(
2010
).
Development and validation of ınstruments to measure learning of expert-like thinking
.
International Journal of Science Education,
1
24
.
36.
Betihavas
,
V.
,
Bridgman
,
H.
,
Kornhaber
,
R.
, &
Cross
,
M.
(
2016
).
The evidence for ‘flipping out’: A systematic review of the flipped classroom in nursing education
.
Nurse Education Today
,
38
,
15
21
.
37.
McEvoy
,
C. S.
,
Cantore
,
K. M.
,
Denlinger
,
L. N.
,
Schleich
,
M. A.
,
Stevens
,
N. M.
,
Swavely
,
S. C.
,
Odom
,
A. A.
, &
Novick
,
M. B.
(
2016
).
Use of medical students in a flipped classroom programme in nutrition education for fourth-grade school students
.
Health Education Journal
,
75
(
1
),
38
46
.
38.
Zhang
,
Y.
,
Dang
,
Y.
, &
Amer
,
B. A.
(
2016
).
Large-scale blended and flipped class: class design and investigation of factors influencing students’ intention to learn
.
IEEE Transactions on Education
,
59
(
4
),
263
-
273
.
39.
Werner
,
J.
,
Ebel
,
C.
, &
Spannagel
,
C.
(
2018
). Flipped Classroom – Zeit für deinen Unterricht. Praxisbeispiele, Erfahrungen und Handlungsempfehlungen [Flipped Classroom - Time for your lessons.
Practical examples, experiences and recommendations for action]
.
Bertelsmann Stiftung
.
40.
Ilgu
,
Aliye
,
N.
Cherrez
,.,
CT.
Jahren
. (
2018
).
A systematic Review of Research on The Flipped Learning Method in Engineering Education. British Journal of Techology
,
49
/
3
,
398
411
. .
41.
Love
,
B.
,
Hodge
,
A.
,
Grandgenett
,
N.
, &
Swift
,
A. W.
(
2014
).
Student learning and perceptions in a flipped linear algebra course
.
International Journal of Mathematical Education in Science and Technology
,
45
(
3
),
317
324
. .
42.
Talley
,
C. P.
, &
Scherer
,
S.
(
2013
).
The enhanced flipped classroom: Increasing academic performance with student-recorded lectures and practice testing in a” flipped” STEM course
.
The Journal of Negro Education
,
82
(
3
),
339
347
. .
43.
Velegol
,
S. B.
,
Zappe
,
S. E.
, &
Mahoney
,
E.
(
2015
).
The evolution of a flipped classroom: Evidence-based recommendations
.
Advances in Engineering Education
,
4
(
3
),
1
37
.
44.
McLean
,
S.
,
Attardi
,
S. M.
,
Faden
,
L.
, &
Goldszmidt
,
M.
(
2016
).
Flipped classrooms and student learning: Not just surface gains. Advances
in
Physiology Education
,
40
(
1
),
47
55
. .
45.
Rutherfoord
,
R. H.
, &
Rutherfoord
,
J. K.
(
2013
, October).
Flipping the classroom: Is it for you?
.
In Proceedings of the 14th annual ACM SIGITE Conference on Information Technology Education
(pp.
19
22
).
New York, NY, USA: ACM
.
46.
Szafir
,
D.
, &
Mutlu
,
B.
(
2013
, April-May). ARTFul: adaptive review technology for flipped learning. In:
Proceedings of the SIGCHI. Conference on Human Factors in Computing Systems
(pp.
1001
1010
).
New York, NY, USA
:
ACM
.
47.
Tao
Tang
,
Atef M.
Abuhmaid
,
Melad
Olaimat
,
Dana M.
Oudat
,
Maged
Aldhaeebi
&
Ebrahim
Bamanger
(
2020
)
Efficiency of flipped classroom with online-based teaching under COVID-19
,
Interactive Learning Environments
, DOI:
48.
Bridge
,
P. D.
,
Jackson
,
M.
, &
Robinson
,
L.
(
2009
).
The effectiveness of streaming video on medical student learning: A case study
.
Medical Education Online
,
14
(
1
),
4506
.
49.
Abuhmaid
,
A.
, &
Mohammad
,
A.
(
2020
).
The impact of flipped learning on Procrastination and students’ attitudes toward It
.
Universal Journal of Educational Research
,
8
(
3
),
566
573
.
50.
Baepler
,
P.
,
Walker
,
J.
, &
Driessen
,
M.
(
2014
).
It's not about seat time: Blending, flipping, and efficiency in active learning classrooms
.
Computers & Education
,
78
,
227
236
.
51.
Hasan
,
S.
,
D. Bagayoko
,
D.
, and
Kelley
,
E. L.
, (
1999
),
Misconseptions and the Certainty of Response Index (CRI
),
Phys. Educ.
34
(
5
), pp.
294
299
.
52.
Thornton
,
R.
&
Sokoloff
,
D.
(
1998
).
Assessing student learning of Newton's laws: The Force and Motion Conceptual Evaluation.
Am. J. Phys.
66
(
4
),
228
351
.
53.
Chen
,
C.
,
Sonnert
,
G.
,
Sadler
,
P. M.
,
Sasselov
D.
,
Fredericks
,
Colin
., (
2020
).
The impact of student misconceptions on student persistence in a MOOC
.
Journal of Research in Science Teaching.
57
:
879
910
. DOI: .
54.
Buy
,
U.
, (
2001
).
Debunking some Common Misconceptions on E-Learning
.
25th International Computer Software and Applications Conference (COMPSAC 2001).
DOI: .
55.
Morton
,
D. A.
, &
Colbert˙Getz
,
J. M.
(
2017
).
Measuring the impact of the flipped anatomy classroom
:
The importance of categorizing an assessment by Bloom's taxonomy. Anatomical.
56.
C.
Singh
. (
2007
).
Effect of misconception on transfer in problem solving
,
Physics Education Research Conference, Greensboro, NC
, 2007.
7
. S.
57.
Goene
. (
2008
).
A study on student teachers’ misconceptions and scientifically acceptable conceptions about mass and gravity
,
Journal of Science Education and Technology
,
17
, 2008, pp.
70
81
.
58.
Gafoor
,
Kunnathodi
&
Akhilesh
,. (
2008
).
Misconception in physics among secondary school students
.
Journal of Indian Education.
34
.
77
90
.
59.
S.
Goenen
,
A study on student teachers’ misconceptions and scientifically acceptable conceptions about mass and gravity
,
Journal of Science Education and Technology
,
17
,
2008
, pp.
70
81
.
60.
Suliyanah
,
Putri
, H. N. P. A., &
Rohmawati
,
L.
(
2018
).
Identification student's misconception of heat and temperature using three-tier diagnostic test
.
Journal of Physics: Conference Series
,
997
(
1
). .
61.
Nakhleh
,
M.
(
1992
).
Why some students don't learn chemistry: chemical misconceptions
.
Journal of Chemical Education
,
69
(
3
),
191
196
. DOI: .
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