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Jurnal Ilmu Ekonomi, Pendidikan dan Teknik (IDENTIK)
Published by CV. Sinar Howuhowu
ISSN : -     EISSN : 3063864X     DOI : https://doi.org/10.70134/identik
Core Subject : Religion, Economy, Education, Engineering,
Religion Civil Engineering, Building, Construction & Architecture Economics, Econometrics & Finance Education Engineering
Jurnal Ilmu Ekonomi, Pendidikan dan Teknik (IDENTIK) ini menerbitkan artikel penelitian dalam bidang Ilmu Ekonomi, Sejarah Ekonomi, Ekonomi Terapan, Bisnis dan Keuangan, Ekonomi Lingkungan dan Ekologi, Ekonomi Islam, Ekonomi Kesehatan, Ekonomi Fiskal, Ekonomi Moneter, Ekonomi Politik, Akuntansi, Pendidikan Bahasa Indonesia, Pendidikan Bahasa Inggris, Pendidikan Kewarganegaraan, Pendidikan Guru Sekolah Dasar, Pendidikan Matematika, Pendidikan Ekonomi, Pendidikan Biologi, Pendidikan Agama, Pendidikan Sejarah, Pendidikan Teknik Bangunan, Pendidikan Bimbingan Konseling, Teknik Sipil, Teknik Elektro, Teknik Informatika, Teknik Kerajinan, Arsitektur , Teknik Industri, Teknik Mesin, Pendidikan Teknik, serta bidang Ekonomi, Pendidikan, Teknik, terkait lainnya.
Arjuna Subject : Umum - Umum
Articles 151 Documents
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Analisis Pengaruh Tegangan Permukaan Pada Sistem Mikrofluida Zega, Berkat; Gea, Gregorius Andi Prasition
Jurnal Ilmu Ekonomi, Pendidikan dan Teknik Vol. 2 No. 3 (2025): IDENTIK - Mei
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/identik.v1i2.114

Abstract

Surface tension plays a pivotal role in phenomena occurring at the microscale, particularly within microfluidic systems. This research conducts a comprehensive literature review to analyze the influence of surface tension on various aspects of microfluidics, such as droplet formation, flow in microchannels, and fluid-solid interactions. Diverse methods for measuring surface tension at the microscale are also discussed, along with the associated challenges. Furthermore, this review highlights recent advancements in mathematical modeling to predict fluid behavior in microfluidic systems under the influence of surface tension. The findings of this literature review demonstrate that a profound understanding of surface tension is essential for designing and optimizing microfluidic devices for a wide range of applications, spanning from biomedical to chemical industries.
Analisis Efek Doppler Dalam Sistem Radar Dan Telekomunikasi Harefa, Dhealova Angelica; Mendrofa, Aroli
Jurnal Ilmu Ekonomi, Pendidikan dan Teknik Vol. 2 No. 3 (2025): IDENTIK - Mei
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/identik.v1i2.115

Abstract

The Doppler effect is a phenomenon of frequency shift caused by relative motion between a wave source and receiver, with significant applications in radar and telecommunication systems. This study conducts a systematic literature review to explore its utilization in these fields. In radar systems, the Doppler effect is essential for target detection, speed measurement, and classification. In telecommunication systems, it supports channel estimation, time synchronization, and interference reduction. Despite its advantages, challenges such as multipath propagation and high-speed movement require further attention to enhance system performance and reliability.
Analisis Hukum Kepler Dalam Gerak Planet Dan Satelit Harefa, Faeri Destalenta; Halawa, Febrianus
Jurnal Ilmu Ekonomi, Pendidikan dan Teknik Vol. 2 No. 3 (2025): IDENTIK - Mei
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/identik.v1i2.116

Abstract

Kepler's laws are one of the most important milestones in the history of astronomy and physics, explaining the motion of planets and satellites around the sun. This research aims to analyse the existing literature on Kepler's Laws, including the First, Second and Third Laws of Motion. Through this analysis, it is expected to understand the contribution of Kepler's Laws to the development of science and technology, as well as their application in modern astronomy. The method used in this research is descriptive analysis of various relevant literature sources. The results show that Kepler's Law not only explains planetary motion, but also provides the basis for the development of Newton's theory of gravity and modern astronomy. In addition, the application of Kepler's Law in satellite technology and space missions demonstrates the relevance of this law in today's scientific and practical context.
Analisis Literatur Tentang Radiasi Termal Dalam Astrofisika Sarumaha, Enjellyn; Harefa, Candra Ponus
Jurnal Ilmu Ekonomi, Pendidikan dan Teknik Vol. 2 No. 3 (2025): IDENTIK - Mei
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/identik.v2i4.117

Abstract

Thermal radiation is a fundamental phenomenon in astrophysics that plays a key role in understanding various astronomical objects and cosmic processes. In the context of astrophysics, thermal radiation is produced by celestial objects that have temperatures above absolute zero, such as stars, planets, and nebulae. The Stefan-Boltzmann Law and Wien's Law are important tools for characterizing the spectrum of radiation emitted by these objects, which depends on their temperature and material properties. The study of thermal radiation allows astronomers to estimate the temperature, chemical composition, and distance of celestial objects. For example, analysis of the spectrum of thermal radiation from stars provides information about their evolutionary stage and formation mechanisms. In addition, thermal radiation from galaxies and star clusters provides insight into the history of the formation of structures in the universe. This article reviews the basic mechanisms of thermal radiation, its applications in astronomical observations, and its impact on our understanding of cosmic evolution. With advances in telescope technology and remote sensing instruments, the study of thermal radiation will continue to make significant contributions to the exploration and understanding of the universe.
Analisis Fisika Suprakonduktor Dan Aplikasinya Dalam Teknologi Energi Harefa, Febrianus; Zalukhu, Enjel Pujaan
Jurnal Ilmu Ekonomi, Pendidikan dan Teknik Vol. 2 No. 3 (2025): IDENTIK - Mei
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/identik.v1i2.119

Abstract

The physics of superconductors is a significant branch of physics, especially in the innovation of energy technology. Superconductors, which can conduct electricity without resistance at certain temperatures, have opened up vast opportunities for the development of efficient energy technology. This article aims to examine the progress of research in superconducting physics and its applications, particularly in the energy technology sector. From the existing literature review, superconductors have shown great potential in energy technology applications, such as electrical transmission cables, energy storage, and sustainable power generation.
Analisis Gelombang Elektromagnetik Dan Pengaruhnya Pada Teknologi Komunikasi Ziliwu, Hadirat Syukur; Waruwu, Fatman Juang Putra; Gulo , Frans Alpinter
Jurnal Ilmu Ekonomi, Pendidikan dan Teknik Vol. 2 No. 2 (2025): IDENTIK - Maret
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/identik.v2i2.120

Abstract

In this aspect, electromagnetic waves are physical phenomena that play an important role in the progress of the present communication system. This paper reviews the literature on the characteristics of electromagnetic waves, how the waves affect data networks, wireless systems, and telecommunications between other fields of communication technology. Research shows that electromagnetic waves allow shipping information efficiently through cables, air, and other media. Wave frequency transition from radio to millimeter waves has opened a new path for network speed and capacity. However, a number of interference, safety, and health effects began to emerge. The findings above there is no doubt highlighting the fact that a deep understanding of electromagnetic waves forms the basis of innovation and the development of communication technology on a sustainable manner. Electromagnetic Physical phenomena that carry out the progress of this make review through cables, and other media. Wave frequency transition from radio to millimeter waves has opened the barudan capacity path. However, a number of problems of disruption, safety, and health impact arise. The above findings are undoubtedly highlighting the fact that a deep understanding of electromagnetic waves forms the basis of innovation and building communication technology on a sustainable manner.
Analisis Penggunaan Fisika Kuantum Dalam Pengembangan Komputasi Kuantum Daeli, Mikhael Oktoberyan Sawato Ziduhu; Telaumbanua, Mercy; Lase, Lenalestari
Jurnal Ilmu Ekonomi, Pendidikan dan Teknik Vol. 2 No. 2 (2025): IDENTIK - Maret
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/identik.v2i2.121

Abstract

This study aims to analyze literature related to the application of quantum physics principles in the development of quantum computing technology. Quantum computing is a rapidly evolving field that holds significant potential for solving complex problems that classical computers cannot efficiently address. By reviewing recent studies, this research discusses fundamental concepts such as superposition, entanglement, and quantum decoherence, as well as their applications in quantum algorithms, including Shor’s and Grover’s algorithms. Furthermore, the article explores the challenges and future prospects of developing stable and practical quantum computers. The findings indicate that although significant advancements have been made in technology and theory, major challenges such as decoherence control and qubit scaling remain key areas for future research.
Analisis Literatur Tentang Hukum Kirchoff Dalam Desain Rangkaian Listrik Modern Lase, Dermawanda; mendrofa, joice sritari
Jurnal Ilmu Ekonomi, Pendidikan dan Teknik Vol. 2 No. 2 (2025): IDENTIK - Maret
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/identik.v2i2.122

Abstract

This study examines the relevance and application of Kirchhoff's Laws in modern electrical circuit design and their impact on everyday life, especially on technology that is often used by the community. Kirchhoff's Laws, consisting of Current Law (KCL) and Voltage Law (KVL), provide basic principles for analyzing current and voltage in electrical circuits, which are the foundation for various modern devices such as smartphones, computers, medical devices, and electric vehicles. In an era of sophisticated technology, these devices must operate efficiently and safely in increasingly miniature sizes but with high computing power. The use of formulas with a fairly long calculation process and the many mathematical equations used to analyze electrical circuits make students find it difficult to study electrical circuit courses. In other words, Kirchhoff's Laws are not only theoretical principles, but also important foundations that ensure the reliability and performance of electronic devices that are increasingly essential in modern life. The research method used in the journal is literature study The results of the study show that the application of Kirchhoff's Laws and Ohm's Laws can be applied to make it easier to analyze an electrical circuit.
Analisis Literatur Tentang Prinsip Bernoulli Dalam Desain Aliran Fluida Harefa, Daman; Giawa, Andel
Jurnal Ilmu Ekonomi, Pendidikan dan Teknik Vol. 2 No. 2 (2025): IDENTIK - Maret
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/identik.v2i2.131

Abstract

The design of  Bernoulli's law experiment tool was designed for finding out the relationship between the pressure and the speed of the fluid’s flow according Bernoulli's law statements and know the standard deviation of Bernoulli's law tool. This tool was designed based on the basic and principle of ideal fluid flowing through a pipe from the fisrt bottle  into the second bottle which  hung on a statif modification. Design of this tool were  simple so it was easy to do experiment. The experiment results were do twice where the first experiment applied on the condition both of firs bottleand second bottle was same in height and for the second experiment  the first bottle and the second bottle was different in height. The first experiment showed the water would stop for  flowing when the high of  water in the first bottle and second bottle were  the same unless for the second experiment the water was stops flowing when the difference height of water in the bottle as same as the difference between the first bottle’s height with the second bottle’s height. The result of experiment proved the tool that has designed showed  the level of error for the first experiment was 6.97% with the average speed of the fluid’s flow (43 ± 2) 10-3 cm3/s and the error level for second experiment was 9.99% with the average speed of the fluid’s flow (43 ± 3) 10-3 cm3/s.
Optimalisasi Diksi Dan Mengaplikasikan Gambar Sebagai Media Pembelajaran Puisi Zebua, Kesadaran; Zebua, Aldin
Jurnal Ilmu Ekonomi, Pendidikan dan Teknik Vol. 2 No. 2 (2025): IDENTIK - Maret
Publisher : CV. SINAR HOWUHOWU

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70134/identik.v2i2.135

Abstract

This research describes what are the factors that influence the creation of a poem. Based on the results of the research, one of the problems or challenges that can cause an individual’s inability to write poetry is the low quality of learning. Inappropriate and ineffective learning will make it difficult for a person to create good and correct poetry, as well as difficult to develop creative ideas. Poetry is one of the written literary works of a person that contains certain meanings. As one of the written literary works, poetry can convey the emotions of the author or poet through a series of enchanting words from the imagination of a poet. In addition, writing poetry means creating beautiful sentences, accompanied by semantic meanings that express the feelings, thoughts, and experiences of the author. To be able to create an interesting poem, and rich in semantic meanings (messages), it requires the right choice of words (diction), and the use of image media to help stimulate the imagination. The findings show that diction and image media can influence the creation of a poem, for examples to get ideas and words that are suitable and beautiful for a poem. This article presents the use of diction and applying pictures as learning media to support the creation of a poem. In this study, the researcher used the literature research method. The literature research method is used to analyze academic materials with an emphasis on identifying problems in writing poetry, as well as the role of diction and image media as a solution. The results showed that the mastery of diction and the creative and efficient use of image media can improve poetry writing skills so as to produce meaningful and aesthetic poems.

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