Basic Concept in Assessment. There are four basic concept in assessment such as measurement, Evaluation, Assessment and also the Non-tests. It is being used as a guide to the teacher for them to be effective in their Assessment.
Basic Concept in Assessment. There are four basic concept in assessment such as measurement, Evaluation, Assessment and also the Non-tests. It is being used as a guide to the teacher for them to be effective in their Assessment.
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In this work, we highlight the impact of formative assessment on the learning and the unreliability of
the mark for the summative evaluation process. To achieve this study, we distributed to 250 students of the
common core sciences, a questionnaire to the representations of the students acquired during their learning
situations. The questionnaire covers the main concepts of the courses that have been taught, namely, electric
current; electric voltage; quantity of material and molar concentration. After collecting all the answers to the
questionnaire, we corrected them. We looked through the summative evaluation for the acquisition of concepts
by students and the effect of adjustment of representations on their marks. We put in question the reliability of
the marks that we can allocate. Therefore, we distributed photocopies of 50 copies before their correction to 20
secondary school teachers, in order to have more information on systematic errors of the marks, their limit and
their reliability. On the light of these results, we can say:
- Formative assessment can help teachers to anticipate in advance treating the gaps of the students and
changing these methods, if necessary, in the learning process.
- Summative assessment may not reflect the level of acquisition of the taught concepts.
Therefore, the revision of assessment methods of the concepts among learners is required.
These evaluation methods are unable to properly assess the level of acquisitions of students, as they differ from
one teacher to another
The impact of formative assessment on the learning process And the unreliabil...iosrjce
In this work, we highlight the impact of formative assessment on the learning and the unreliability of
the mark for the summative evaluation process. To achieve this study, we distributed to 250 students of the
common core sciences, a questionnaire to the representations of the students acquired during their learning
situations. The questionnaire covers the main concepts of the courses that have been taught, namely, electric
current; electric voltage; quantity of material and molar concentration. After collecting all the answers to the
questionnaire, we corrected them. We looked through the summative evaluation for the acquisition of concepts
by students and the effect of adjustment of representations on their marks. We put in question the reliability of
the marks that we can allocate. Therefore, we distributed photocopies of 50 copies before their correction to 20
secondary school teachers, in order to have more information on systematic errors of the marks, their limit and
their reliability. On the light of these results, we can say:
- Formative assessment can help teachers to anticipate in advance treating the gaps of the students and
changing these methods, if necessary, in the learning process.
- Summative assessment may not reflect the level of acquisition of the taught concepts.
Therefore, the revision of assessment methods of the concepts among learners is required.
These evaluation methods are unable to properly assess the level of acquisitions of students, as they differ from
one teacher to another
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D383238
1. American Research Journal of Humanities & Social Science (ARJHSS)R) 2020
ARJHSS Journal www.arjhss.com Page | 32
American Research Journal of Humanities & Social Science (ARJHSS)
E-ISSN: 2378-702X
Volume-03, Issue-08, pp 32-38
August-2020
www.arjhss.com
Research Paper Open Access
Building and Using Rubric in Assessing the Skills of Teachers
with Experiments for Students of Physics Pedagogy
Le Minh Thanh Chau
Saigon University
SUMMARY:- Physics is one of the basic sciences, widely applied in engineering and life. There are two ways
of studying physical phenomena: theory and experiment. In the first case (theoretical physics), based on known
laws of physics and using mathematical tools, draw new relationships. In the second case (experimental
physics), new relationships between phenomena are obtained by physical measurements. Here, the tool used is
much more diverse, a lot of equipment, experiment equipment... Therefore, teaching skills with experiments is
an important element that plays an important role in the teaching process. Especially in schools, while teaching
physics, lecturers often study phenomena, laws of physics in reality, ask questions and seek answers, explain
phenomena and physical law to innovate teaching methods that help learners discover problems and solve
problems. Experimental physics has become one of the most effective solutions to improve the quality of
teaching.
Key words: Physics, physics pedagogy, theoretical physics, experimental physics, rubric, skills.
I. INTRODUCTION
The fourth industrial revolution took place from the beginning of the 21st century. The characteristic of
this industrial revolution is the increasing popularity of artificial intelligence and automation machines, bringing
a combination of virtual and realistic systems. In the digital age, higher education will change from the
educational environment, the role of teachers and learners to teaching methods. Therefore, in the current school,
teaching is not only about teaching something but also how to teach it. Innovating teaching methods is an urgent
and breakthrough requirement to improve teaching quality. The high school physics laboratory subject, part of
the credit-based training program of physics pedagogical students at Saigon University, is a very important part
of practical practice in teacher training. high school. Therefore, the well-organized teaching activities of this
module will be an important basis to supplement, consolidate, deepen and expand the professional knowledge
and pedagogy that students have learned. Besides, the inspection - evaluation plays a huge role in improving the
quality of training. The results of the test - assessment are the basis for adjusting teaching, learning activities and
educational management. This article presents the development and use of rubric in assessing teaching skills
with experiments.
II. CONTENTS OF THE RESEARCH
2.1. Concept of rubric
Since being introduced and widely used in the 1970s, many studies around the world and Vietnam have
given the definition of rubric. Although these are expressed in different ways, these definitions are consistent in
the rubric view that a tool for evaluating performance based on predetermined criteria and classifying them into
rankings for each criteria.
Rubric is a evaluation tool used relatively widely in education in general and higher education in
particular. Rubric is derived from the word “ruber” Latin meaning red which is the title of the paragraphs in
ancient books and printed in red.
Carnegie Mellon University defines Rubric as a scoring tool that clearly expresses the expected results
achieved for a job or a task. A Rubric will divide the work into several component parts and provide clear
descriptions of the characteristics of the work related to each component, at each level of proficiency. Rubric
2. American Research Journal of Humanities & Social Science (ARJHSS)R) 2020
ARJHSS Journal www.arjhss.com Page | 33
can be used as a score board, assessment or to provide feedback to support student’s current academic progress.
[3]
Beverly Busching (1998) defines Rubric as a guide to assessing the quality of student work. It provides
assessment criteria and corresponding knowledge standards for these criteria. Using Rubric as a scoring
framework helps teachers determine what to look for, which results represent different levels of knowledge
gained, thereby increasing the consistency of the assessment and clarity of standards. [4]
Smith and partner (2010) suggested that Rubric is a two-dimensional matrix or table used to make
systematic and transparent judgments about the performance of students. Rubric presents a summary of the
facilities used to make the assessment. The lines in the Rubric table show the dimensions of the selected work as
the focus areas for evaluation. Each line corresponding to an aspect (an aspect, a characteristic) is called a
criterion. The columns in the matrix are the standard grades of the job - usually consisting of 4 or 5 levels
(excellent, good, average, poor). Similarly, a rubric can list column evaluation criteria with standard row
hierarchies. The evaluation criteria are determined from the analysis of student performance assessments to
identify aspects that can explain the quality of the student's work and the grades shown completion levels for
these criteria. The information on the whole matrix is combined to give general conclusions about the quality of
student work. [5]
According to Ton Quang Cuong: Rubric is a systematic detailed description (standard, criteria and
level) of the results (knowledge, skills, attitudes) that learners should do and need to do to achieve final goal
when performing a specific task. Rubric used in teaching is designed for different evaluation purposes, but it is
based on the same general principle: comparing, comparing and verifying the achieved results with agreed
standards and criteria built before performing the operation. [1]
In this research, we think that rubric is a system of assessment/scoring tools (including specific criteria and
scales) developed by lecturers to support the detailed evaluation of student’s learning activities.
2.2. Classification rubric
Based on the function and purpose of evaluation, rubric can be divided into the following two types:
- Qualitative/ Holistic
- Quantitative/ Analytical
Qualitative (Holistic) rubric is often used to overall assess the overall process of performing a specific task or
product. Qualitative rubric does not require a detailed description of the performance criteria (indicators) of each
stage or intermediate outcome. Qualitative rubric helps teachers to mark quickly, consistent with the final
assessment. However, this type of assessment does not provide much feedback for teachers and students [2].
The disadvantage of qualitative rubric is that it does not indicate the level of achievement for each function in
the aggregate feedback, so it is less useful for students.
Quantitative rubric (analytical) is used to evaluate each stage or intermediate results during the learners'
performance of tasks. Component evaluation points will be added to the final score. The disadvantage of
quantitative rubric is that it takes a long time to build the criteria system and when evaluating. [6]
Rubric analysis requires a detailed description (specification) of indicators corresponding to the criteria, level/
level and score.
2.3. Rubric construction principle
A rubric is structured with 3 basic parts: job task description (student's assigned work), criteria for
evaluating results (listing the skills or knowledge required for the job). assignments) and descriptions for each
quality level of results achieved for each of the evaluation criteria.
According to Ton Quang Cuong, to design rubric needs to meet the following 4 principles:
a) "Idealization": criterion descriptions need to be expressed in a spectrum (range) going from the highest to the
lowest (or vice versa).
b) Differentiation: criteria descriptions need to show the boundaries (differences) between the levels / levels of
completion for each learner and among learners.
c) Objectiveization: the criteria description needs to fully show the characteristics and aspects of the activity or
product performance (according to the goal), because the evaluation criteria is the "re-express the goal" in
detail!
d) Stimulating and creating development motivation: descriptive criteria need to indicate the orientation that
learners/ instructors need to work towards to achieve goals, helping learners/ teachers to self-assess and assess
price and same review.
Thus, based on the Rubric construction principles mentioned above, we propose the principle of rubric
construction in the process of experimental teaching as follows:
a) Criteria descriptions need to be expressed from lowest to highest
3. American Research Journal of Humanities & Social Science (ARJHSS)R) 2020
ARJHSS Journal www.arjhss.com Page | 34
b) The criteria description should state the difference between the quality of the job.
c) The description of the criteria should fully reflect the aspect characteristics of the skills content to be
assessed.
d) Criteria descriptions need to indicate the orientation students or faculty need to work towards to achieve the
goals, help them assess themselves, and evaluate them together.
1. Rubric teaches experiments with Physics pedagogical students
Based on the above principles, the content of the proposed rubric paper is to evaluate teaching skills
with experiments for students of physics pedagogy.
Table 1. Rubric measures experimental skills by the degree of criteria
No Skill Criteria Level 1 Level 2 Level 3 Level 4
1
Use safety
experimets
1. Understand
and strictly follow
laboratory safety
rules and regulations
Incompletely
understand; Not
yet complied
with laboratory
regulations and
rules
Understand and
strictly follow
some laboratory
rules and
regulations
Understand and
implement
laboratory rules
and regulations
Understand and
implement the
laboratory rules
and regulations
very well
Point 0,25 points 0,5 points 0,75 points 1,0 point
2. Know how to use
and store tools
Know how to
use the tool but
still have errors
and preservation
is not according
to the
regulations
Know how to
use and store a
number of
simple
laboratory
equipment
Understand the
rules of use and
care for some
equipment
Proficient use
and understand
the method of
storage of tools
Point 0,25 points 0,5 points 0,75 points 1,0 point
2
Conducting
experiments
3. Identify and select
the equipment
needed for the
experiment
Can not select
the tools
Wrong number
of tools selected
Select the right
tools
Creativity in
choosing tools
Point 0,25 points 0,5 points 0,75 points 1,0 point
4. Assemble the
necessary kits for
each test, understand
the effects of each
part, know the
analysis of right and
wrong in how to
install the test
equipment
Cannot be
installed or
installed
incorrectly.
Correctly install
the necessary
kits for each test,
do not
understand the
effect of some
parts in the
installation of
test instruments
Correctly install
the necessary
kits for each
experiment,
understand the
effects of some
parts, and
analyze the right
and wrong
methods of
installation
Correctly install
the necessary
kits for each test,
understand the
effects of each
part, know the
analysis of right
and wrong in
mounting
Point 0,25 points 0,5 points 0,75 points 1,0 point
5. Proficient use of
laboratory
equipment
Inability to use
tools
Usual laboratory
equipment but
still small errors
Use of
laboratory
equipment
without errors
Proficient in
using laboratory
tools
Point 0,25 points 0,5 points 0,75 points 1,0 point
6. Doing a
safe, right, and
successful
experiment
Experimental
conducted, but
still process
errors
Conducted a
safe, wrong
experimental
procedure, but
succeeded
Doing safety
experiments
according to
procedures,
success.
Doing safe
experiments,
clear and
successful
procedures and
easy-to-observe
4. American Research Journal of Humanities & Social Science (ARJHSS)R) 2020
ARJHSS Journal www.arjhss.com Page | 35
results
Point 0,25 points 0,5 points 0,75 points 1,0 point
3
Observe,
describe the
phenomenon
and
conclude
7. Know how to
observe and identify
experimental
phenomena
No experimental
phenomenon
detected
Know the
method of
observation,
receive
unknown
experiments
Identify the
experimental
phenomena but
not complete
There are
methods of
observation,
clearly identify
the experimental
phenomena
Point 0,25 points 0,5 points 0,75 points 1,0 point
8. Exactly describe
the experimental
phenomena,
conclude on the
experimental
phenomena and
draw conclusions
No description
of experimental
phenomena, no
conclusions
drawn
Full description
of experimental
phenomena, not
yet drawn
conclusions
from the
experiment, but
incomplete
Fully describe
experimental
phenomena,
draw
conclusions
Accurately
describe the
experimental
phenomena,
fully draw
conclusions
Point 0,25 points 0,5 points 0,75 points 1,0 point
4
Processing
experimentai
nformation
9. Know how to
apply theoretical
content to explain
experimental
phenomena in a
scientific way.
Do not know
how to apply the
content of
knowledge to
explain the
experimental
phenomena.
Applying
theoretical
content
explaining
incomplete
phenomena.
Applying
theoretical
content to
explain the
phenomena, but
not fluently
expressed.
Applying
theoretical
content
explaining
experimental
phenomena
scientifically
and accurately.
Point 0,25 points 0,5 points 0,75 points 1,0 point
10. Analysis and
processing of
experimental results
Inability to
analyze and
process
empirical results
of some
quantitative
experiments
Students can
analyze and
handle
experimental
results of some
quantitative
experiments
with the help
Know how to
analyze and
handle empirical
results of a
number of
quantitative
experiments
Proficient
handling of
experimental
results of some
quantitative
experiments
Point 0,25 points 0,5 points 0,75 points 1,0 point
Description of quality level
Excellence: 9 - 10 points
Good: 7 - 8 points
Satisfactory: 5 - 6 points
Not achieved: 0 - 4 points
5. American Research Journal of Humanities & Social Science (ARJHSS)R) 2020
ARJHSS Journal www.arjhss.com Page | 36
Table 2. Rubric measures teaching skills with experiments according to the degree of criteria
No Skill Criteria Level 1 Level 2 Level 3 Level 4
1
Preparing and
experimenting
equipment for
teaching
1. Choose the right tool,
enough and suitable for
the experiment
Choose equipment that is
not suitable for the
experiment or do not
know how to choose an
experiment tool
Select the
wrong
equipment but
can be used to
conduct the
experiment
Choose the
right tools
and suitable
for the
experiment,
but there are
some
unnecessary
tools
Choose the
right tool,
enough and
suitable for
experiment
with
creativity
Point 0,25 points 0,5 points 0,75 points 1,0 point
2
Perform
experiments
in teaching
2. Proficient in using
tools
No skills to use the tools Not proficient
use of tools
Proficient
use of tools
but errors
Proficient in
using tools
Point 0,25 points 0,5 points 0,75 points 1,0 point
3. Conducting a safe
experiment, following
the procedure, the results
are successful and easy
to observe
Conducting experiments
improperly, unsafe
experiments,
unsuccessful experiment
results, difficult to
observe phenomenon
Conducting
safe
experiments,
not in
accordance
with the
procedures,
successful
results,
difficult to
observe
phenomenon.
Conducting
experiments
are safe, in
accordance
with the
procedure,
the results
are
successful,
and the
phenomenon
is difficult to
observe
Conducting
a safe
experiment,
in
accordance
with the
process, the
results are
successful,
and the
phenomenon
is easy to
observe
Point 0,25 points 0,5 points 0,75 points 1,0 point
3
Teaching
experiments
4. Select experiments
that are appropriate to
the teaching objectives
and students' subjects
Don't know what testing
option to use for the
lesson
Know how to
choose
experiments
that meet
teaching
goals, but not
yet suitable
for students
Knowing
how to
choose
experiments
that are
suitable for
teaching
goals and
students, but
many
experiments
Know how
to choose
experiments
that are
appropriate
for the
teaching
objectives
and students'
subjects
Point 0,25 points 0,5 points 0,75 points 1,0 point
5. Use
experiments in
accordance with
teaching method
Using experiments not
suitable for teaching
method
Use
experiments
consistent
with teaching
method, but
not clear.
Use
experiments
consistent
with teaching
method
(Method of
raising and
solving
problems,
research
methods,
methods
check
evidence, ...)
but not yet to
help students
Use
experiments
consistent
with
teaching
method
(Method of
raising and
solving
problems,
research
methods
assist,
verification
methods, ...)
help
6. American Research Journal of Humanities & Social Science (ARJHSS)R) 2020
ARJHSS Journal www.arjhss.com Page | 37
think
positively
students
think
positively
Point 0,25 points 0,5 points 0,75 points 1,0 point
6. Knowing the problem
so that students
understand the purpose
of the experiment
Had intended to question
students understand the
purpose of the
experiment but have not
expressed it
Ask students
to understand
the purpose of
the
experiment,
which has not
attracted
students to
explore.
Set the
problem for
students to
understand
the purpose
of scientific
experiments,
lengthy, to
attract
students to
learn
Set issues
for students
to
understand
the purpose
of scientific
experiments,
short, easy
to
understand,
attract
students to
learn
Point 0,25 points 0,5 points 0,75 points 1,0 point
7. Have skills
performing experiments
combined with words
Unknown methods of
performing experiments
with words of teachers
Have skills to
perform
experiments
with teachers'
words but not
yet effective
Skills of
performing
experiments
combined
with words
of proficient
teachers
Skills of
performing
experiments
combined
with words
of proficient
teachers
Point 0,25 points 0,5 points 0,75 points 1,0 point
8. Ability to describe the
experimental
phenomenon accurately,
scientifically, briefly,
using the right physical
language
Describe the
phenomenon of
experiments in a
preliminary, unclear, and
incomplete physical
language
Skill to
describe
experimental
phenomena
correctly, but
not yet clearly
Skills to
describe
empirical
phenomena
accurately,
scientifically,
using the
right
physical
language
Skills to
describe
experiments
phenomenon
accurately,
scientifically
and briefly
Point 0,25 points 0,5 points 0,75 points 1,0 point
9. Know how to ask
questions to guide
students to observe the
phenomenon to draw
conclusions.
How to ask questions to
guide students to observe
the phenomenon to draw
unclear conclusions,
difficult to understand
students
How to ask
questions to
guide students
to observe the
phenomenon
to draw
incomplete
conclusions,
unclear
expressions
How to ask
questions to
guide
students to
observe the
phenomenon
to draw
complete and
scientific
conclusions
How to ask
questions to
guide
students to
observe the
phenomenon
to draw
conclusions
that are
complete,
scientific,
concise and
easy to
understand
Point 0,25 points 0,5 points 0,75 points 1,0 point
10. Know how to test
and evaluate practical
laboratory skills
Did not know how to
build exercises forging
laboratory practice skills
Develop
exercises
forging a
number of
experimental
Building
exercises
forging
experiments,
not
đánh giá
Building
exercises
forging
laboratory