Science Process Skills Test Instruments in The New Indonesian Curriculum (Merdeka): Physics Subject in Renewable Energy Topic

The physics subject in the Merdeka Curriculum is organized into two categories, understanding physics and process skills. The physics process skills assessment instruments used by teachers in the field are not appropriate in terms of assessment methods and the assessment tends to be subjective. This study aims to develop a science process skills test instrument in physics learning for high school students, on the topic of Renewable Energy. The method used in this research is development research. The instrument was developed with the Extended Written Response method, essay-type questions consisting of fifteen written test items. Indicators of science process skills developed are observing, questioning and predicting, planning and conducting investigations, processing, analyzing data and information, creating, evaluating and reflecting, and communicating. The stages of developing this test instrument are making indicators of questions, making questions, judgments by topic experts and assessment experts, revising questions, testing, revising questions, and implementing questions at school. The results showed that the test instrument developed was suitable for use as a process skills test instrument on the Renewable Energy topic.


INTRODUCTION
Physics is the branch of science that studies the properties of matter in space and time and the related concepts of force and energy.Physics objectively and quantitatively examines the scientific inferences involved in the process of observing, measuring, and modeling the relationships between relevant variables that reflect the laws of nature and drawing inferences that are implemented into valid and applicable theories.By applying it, we study natural phenomena from the atomic scale to the universe.
The physics learning process in Merdeka Curriculum trains students to make simple investigations of natural phenomena.Students will learn to identify problems, form hypotheses, design simple experiments, conduct experiments, analyze data, draw conclusions, and communicate experimental results in writing and orally (see https://guru.kemdikbud.go.id/kurikulum/referensi-penerapan/capaian-pembelajaran/sdsma/fisika/).Kemendikbudristek (2022) stated that physics is taught as a specialized subject separate from science (very different from junior high school) at the senior high school level.First of all, a correct and deep understanding of physics will help us solve everyday problems.Second, strong scientific process skills are the bridge to students' success in pursuing graduate studies in both basic/physical sciences and engineering and technology.
Through observation of physics learning at one of the senior high schools implementing the First Batch Penggerak School Program in a district in Riau Province, it was concluded that the process skills of students in the high school were still low in the aspects of (1) observing, (2) questioning and predicting (3) planning and carrying out investigations, (4) processing and analyzing data and information, (5) creating ( 6) evaluating and reflecting and (7) communicating the results, as seen in the odd semester learning outcomes of grade X students in the 2022/2023 Academic Year.
This, after being traced, turned out to be due to the teacher's inaccuracy in choosing the physics process skills assessment method.Thus, students' process skills were not properly accommodated when assessed and tended to be subjective in their assessments.Based on the findings in the field, several solutions are expected to be effective and targeted to help solve these problems, namely providing a reference in the form of choosing the right assessment method to assess students' process skills and developing a process skills test instrument that can be a reference for physics teachers for use in learning.
The instrument topic to be developed is Renewable Energy because it is one of the topics contained in the even semester which has not been optimally assessed in research target schools.Renewable energy education is expected to play an important and effective role in promoting sustainable development and improving the quality of life for a large portion of the world's population.
Policymakers need to be aware of the latest advances in renewable energy and their benefits and potential to provide sustainable energy supply options to meet the global energy surge (Kandpal & Broman, 2014).Renewable energy in Indonesia is contained in the content structure of the independent curriculum in phase E class X. Therefore this study aims to develop a science process skills test instrument that is oriented to Merdeka Curriculum.

THEORY 2.1. Science Process Skills
Science is an experiment-based discipline, where science experiments are the core activities in science learning.Mastery of science process skills is needed in these science experiments.Thus, students are accustomed to using scientific methods and deepening their knowledge (Idris et al., 2022).
Science is an integration of process, product, and scientific attitude aspects.The process of science occurs when science process skills for the discovery of science products in the implementation of scientific activities (Prayitno et al., 2017).The scientific process skills that learners need to master range from the simplest skills, such as observation and measurement, to the most advanced skills, such as the ability to experiment.The ultimate goal of scientific learning, therefore, is to acquire the comprehensive skill of inquiry, and the ability to conduct experiments and observations to discover scientific concepts.
Science process skills consist of basic science process skills and integrated science process skills (Elvan et al., 2010).Basic scientific process skills, including observing, questioning, classifying, measuring, and predicting.The second group consists of integrated scientific process skills.This includes identifying and defining variables, collecting and transforming data, creating data tables and graphs, describing relationships between variables, interpreting data, manipulating materials, recording data, developing hypotheses, designing investigations, making inferences, and generalizing (Karamustafaoğlu, 2011).The acquisition of science process skills by students plays a crucial role in facilitating their learning (Nurulia, 2021).
Scientific and engineering skills are integrated skills that are included in the process skills to be developed in the Merdeka Curriculum, which includes several scientific activities, namely observing, questioning and predicting, planning and conducting investigations, processing and analyzing data and information, creating, and evaluating and reflecting and communicating results.
The science process skill assessment is an effective way to test student achievement or skill and provide feedback to teachers on student performance.Assessment should be flexible and simple so that it can be conducted individually, in small groups, or as a whole class.More importantly, it meets the needs of teachers and students.

Renewable Energy
A renewable energy source is an energy source that will never run out because it can be replaced by natural processes within a period comparable to the amount used.Energy from renewable sources is called renewable energy.Renewable energies have eco-friendly properties and are endless, including solar, wind, hydro, geothermal, and bioenergy.Expensive to develop, but relatively cheaper than non-renewable energy in the long run.
The sun is the largest source of energy in the universe.Solar energy is generally available in two ways: solar cells and solar heat.Solar cells can convert solar energy directly into electrical energy, while solar heat is used as a water heater.
Solar energy may be the best option for the future world for several reasons, because first, solar energy is the most abundant source of renewable energy, the sun emits solar energy with its output of 3.8x10 23 kW, of which about 1.8x10 14 kW is absorbed by the earth (Panwar et al.,2011).Solar energy reaches the earth in various forms such as heat and light.As this energy propagates, much of its contribution is lost through scattering, reflection, and absorption by clouds.p-ISSN 2776-6152 e-ISSN 2776-6101 Studies show that solar energy is abundant in nature and a freely available energy source at no cost.Thus, the full use of solar energy can meet the world's energy needs (Lewis, 2007).Second, it is a promising energy source in the world because it is inexhaustible and offers reliable and high production efficiency compared to other energy sources (Nozik, 1978).
Wind energy sources are infinitely available in nature and can be used as an alternative to non-renewable energy sources as the acquisition of wind turbines is environmentally friendly.Harnessing the wind to generate electricity by rotating the rotor blades of a wind turbine is known as wind energy or wind power (Demirbaş, 2006).
Renewable energy from the wind has been used for centuries to power windmills for grinding wheat and pumping water.More recently, large wind turbines have been developed to help generate electricity.This energy source is environmentally friendly and freely available in many areas.Wind turbines are becoming more efficient.The cost of the electricity they generate is going down.
Water can also be used as an alternative energy source, such as through the purchase of hydroelectric power plants, as the existence of the water cycle provides an infinite supply of water.Based on Energy and Natural Resources Ministry (ESDM) data, Indonesia's hydropower potential (PLTA) is 75,000 MW.Solar energy is our most direct renewable energy source.This energy can be used for solar heating (SH), solar home heating (SHH), solar dryers (SD), solar cookers (SC), solar water heaters (SWH), solar power (SPV: direct conversion of sunlight into electricity) and solar thermal electricity (STEP: when the sun's energy is concentrated to heat water and produce steam that is used to generate electricity) (Demirbaş, 2006).
Geothermal Energy (GE) possesses untapped potential as a non-carbon renewable energy source that can effectively contribute to addressing the challenges of climate change (Jorgenson et al., 2019).Geothermal energy offers benefits beyond electricity generation in various plant setups.It can also be directly utilized for heat applications in industrial and household settings, irrespective of weather conditions (Moya et al., 2018).
Bioenergy is a renewable energy source obtained from organic raw materials.Bioenergy can typically produce three types of energy sources: biomass, biofuel, and biogas.Biomass is all organic matter derived from plants, trees, and crops and essentially refers to the collection and storage of solar energy through photosynthesis.
Biomass energy (bioenergy) is the conversion of biomass into useful energy forms such as heat, electricity, and liquid fuels (biofuels).Biomass for bioenergy comes either directly from the land, such as special energy crops, or from the residues of crop processing for food and other products (Srirangan et al., 2012 ).Climate change requires a broad social transition from a centralized, fossil fuel-based energy system to a renewable energy system (Jorgenson et al., 2019).
The recent agreement on climate change in Paris underscores the urgent need to aggressively reduce carbon emissions in the energy sector and create environmentally friendly technologies, particularly for generating electricity.To tackle this challenge, it is essential to adopt a multifaceted approach that encompasses research, education, and informed public discussions.Consequently, it is necessary to introduce new and comprehensive educational initiatives focused on sustainable energy technologies at both university and potentially high school levels (Nowotny, 2018).

METHODS
This research was conducted at one of the Penggerak High Schools in Riau Province, with a population of Grade XI students in the Even Semester of the 2022-2023 Academic Year.Through purposive sampling, the sample in one grade was 20 people consisting of 3 boys and 17 girls.The research was conducted for seven months from early October 2022 to early May 2023.The method used in this research is the design-based research (DBR) method.The stages of developing this test instrument are making indicator questions, making questions, judgments by 7 experts, revising questions, testing, revising questions, and implementing questions at school.However, in this study, it was only carried out until the trial stage.This is due to limited time.
The results of expert validation are then processed using the Content Validity Ratio (CVR) formula developed by Lawshe.CVR is a content validation approach to determine the suitability of test items with components measured based on expert judgment (Wilson et al., 2012).The minimum CVR value for the variation in the number of experts is presented in Table 1.
The results are then interpreted to determine the validity category based on Table 2.The results of the test items were analyzed using the Rasch model utilizing the Winstep Rasch application to determine item validity, reliability, item difficulty level, and discriminating power.Item validity can be determined by examining item fit, namely the suitability of the item with the model.An item can be said to have a suitability item (item) if the following parameters in Table 3. Table 1.Minimum CVR value for variations in the number of experts (Wilson et al., 2012).An item has very good item suitability if the MNSQ, ZSTD, and Point Measure Correlation scores obtained are in the acceptable score range.items can still be accepted (not changed) if they meet at least one of these parameters.However, items are considered inappropriate (outliers or misfits) if they do not meet these three parameters.

Number of experts
Thus, the item needs to be changed or replaced.Reliability in this study will be analyzed through the Rasch model with Ministep software, by observing Cronbach's Alpha value which is a picture of the quality of the interaction between respondents and items.The reliability value and Cronbach's Alpha value can be seen in the Output Tables: Summary Statistics.The interpretation of the reliability value and Cronbach's Alpha (Perera et al., 2018) is shown in Tables 4 and 5.The difficulty level of the items can be observed through the Output Tables: Item Measure.The items in the Entry Number column are sorted from the largest logit value to the smallest logit value.The logit value in the JMLE Measure column indicates the difficulty level of the problem, with the interpretation that the higher the logit value, the higher the problem difficulty, and vice versa.
The item measure column also contains information on the standard deviation value.Through the standard deviation value and the average logit value (in the JMLE measure column), the level of difficulty of the items can be grouped.A value of 0.00 logit +1 SD is a difficult category, greater than +1 SD is a very difficult category, 0.00 logit -1 SD is an easy category and less than -1 SD is a very easy category (Laliyo et al., 2022).
Data on the results of the test for discriminating power of questions can be seen in the Output Tables: Item Fit.The MNSQ and ZSTD values are then taken into consideration in determining whether the items are valid or invalid, while the Point Measure Correlation values are analyzed to determine their distinguishing power.An interpretation guide for Point Measure Correlation values is presented in Table 6.

RESULTS AND DISCUSSION
The results of the development were in the form of a Renewable Energy topic process skills test instrument at the high school level in the form of essay questions totaling 15 questions with 7 indicators of science process skills.The process skills test instrument grid is presented in Table 7.

Table 4 .
Interpretation of the value of person reliability and item reliability in the Rasch model analysis.