23 research outputs found

    كتاب الدر المنتخب ليوحنا فم الذهب

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    This text included excerpts of the sayings of Saint John Chrysostom, translated from Greek to Arabic, and thirty-four spiritual essays. The manuscript was composed by Butrus Girgis, and it was handwritten by Yusuf Hanna in 1843. It includes decca, a typical form of Coptic Orthodox illustration. Saint John Chrysostom, the author, served as the patriarch of Constantinople, a position forced upon him in 389 C.E. Born in Antioch circa 347 C.E., he devoted several years to monastic life, spending part of this time as a hermit. Chrysostom means "golden-mouthed."The Iryan Moftah Coptic Language and Religion Manuscript and Book Collection was acquired in 2003 thanks to Laurence Moftah who generously arranged for its transfer to the Rare Books and Special Collection Library in support of the preservation of Coptic heritage and the Coptic studies program at the American University in Cairo. The manuscripts were originally digitized and described by Father Maximous El-Antony with the aid of the Rare Books and Special Collections Library in 2010

    IMPLEMENTATION OF BUILDING INFORMATION MODELLING (BIM) FOR ROAD INFRASTRUCTURE IN THE DESIGN PHASE

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    The implementation of BIM has long been known to building but is still relatively new to road infrastructure. With various demands such as safety, comfort and maintenance budget, the traditional way of managing road infrastructure is considered inadequate. According to UNECE (United Nation Economic Commission for Europe), in large-scale of infrastructure project, more than 50 percent of contract modification - which is considered inefficient - are related to deficiencies, BIM provides an effective way to overcome this by integrating all the stakeholder since the design phase to post construction phase. This article reviews the implementation of Building Information Modelling (BIM) in road infrastructure, particularly in the design phase. The methodology used is by reviewing some journals discussing implementation of BIM in road infrastructure

    KAJIAN KONSEP PERLAYANGAN GELOMBANG BERDASARKAN HASIL KOMPUTASI NUMERIK

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    ABSTRAKIlmu tentang gelombang adalah salah satu dasar untukmengembangkan peralatan yang kita gunakan dewasa ini, mulai dari smartphone, televisi dan perlatan masakpun ada yang menggunakan gelombang. Pembelajaran gelombang ini sudah didapatkan semenjak berada di bangku sekolah dasar sampai sekolah menengah atas. Akan tetapi persamaan gelombang sangatlah sulit untuk dipahami, karena rumusan matematisnya yang sangat kompleks. Komputer merupakan suatu perangkat modern yang memiliki banyak kelebihan, antara lain kemampuan numeriknya yang bagus, bisa memvisualisasikan data dalam bentuk grafik dan pengoperasiannya sangat mudah. Tujuan dari penelitian ini untuk memvisualisasikan grafik perlayangan gelombang dengan menggunakan excel dan matlab Metode penelitian yang digunakan adalah metode kuantitatif, dilakukan dua tahapan penelitian dan dilaksanakan di laboratorium fisika Universitas Semarang. Peneliti mensimulasikan dari variabel amplitudo dan frekuensi gelombang, sehingga  diperoleh visualisasi grafik perlayangan gelombang.  Grafik yang dihasilkan dengan menggunakan Excel dan Matlab sama. Tetapi dengan menggunakan Matlab lebih praktis karena grafiknya hanya dihasilkan dalam satu pandangan tiga dimensi saja, sedangkan dengan  menggunakan Excel hasil grafik yang diperoleh terbagi dalam bentuk dua pandangan yaitu dua dimensi. Kata kunci : perlayangan gelombang; komputasi numerik; matlab ABSTRACTThe science of waves is one of the basics for developing the equipment we use today, from smartphones, televisions and cooking utensils, some use waves. This wave of learning has been obtained since elementary school to high school. However, the wave equation is very difficult to understand, because the mathematical formulation is very complex. The computer is a modern device that has many advantages, including good numerical capabilities, being able to visualize data in graphical form and operating very easily. The purpose of this research is to visualize the wave gliding graph using excel and matlab. The research method used is a quantitative method, carried out in two stages of research and carried out in the physics laboratory of the University of Semarang. The researcher simulates the amplitude and frequency of the waves, so that a graphic visualization of the wave gliding is obtained.Graphs generated using Excel and Matlab are the same. But using Matlab is more practical because the graph is only in one 3-dimensional view, while using Excel the graph is divided into two views in 2 dimensions. Keywords: wave gliding; numerical computing; matla

    ANALISIS TINGKAT KEBISINGAN TERHADAP AKTIVITAS BELAJAR MENGAJAR DI FAKULTAS TEKNIK UNIVERSITAS SEMARANG

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    Optimal teaching or learning activities require a conducive and quiet environment because the high concentration required on its process. Campus area requires a quiet and silent environment. It is difficult for the urban areas to get a quiet campus environment. The study tries to reveal the evaluation on how the noise factors that occur during teaching and learning process. The study was conducted at Semarang University. The research method used is descriptive analytic method. Research shows that the building of engineering faculty (the A building) at Semarang University shows the proper noise level in line with the standard (School Acoustic Quality Standards). Besides, Semarang University must establish rules and policies to control the noise levels, to intensify the comfort of the lecture process. Based on the research results, the noise level on the Engineering faculty building of Semarang University has not been in line with the predetermined standard, which is more than (55 dB).Keywords: noise, lecture activities, acoustic quality standards of school building

    Pelatihan Karya Ilmiah Dengan Metode Data Kualitatif Dan Kuantitatif Di SMA Sultan Agung 1 Semarang

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    Pembelajaran menulis karya ilmiah merupakan salah satu materi wajib yang diajarkan dalam mata pelajaran bahasa Indonesia SMA pada kurikulum 2013. Setiap sekolah memiliki cara tersendiri dalam menyajikan materi tersebut pada siswa . Literasi dalam hal ini adalah literasi baca tulis. Peneliti merupakan key instrument dalam mengumpulkan data, peneliti harus terjun sendiri ke lapangan secara aktif. Pendekatan kuantitatif ialah pendekatan yang di dalam usulan penelitian, proses, hipotesis, turun ke lapangan, analisis data dan kesimpulan data sampai dengan penulisannya mempergunakan aspek pengukuran, perhitungan, rumus dan kepastian data numerik. Hal pokok dari perbedaan tersebut adalah dalam penelitian kualitatif peneliti sendiri yang harus mengumpulkan data dari sumber, sedangkan dalam penelitian kuantitatif orang yang diteliti dapat mengisi sendiri kuisioner tanpa kehadiran peneliti, umpamanya survei electronik atau kuesioner yang dikirimkan . Dalam penulisan karya ilmiah, diharapkan para siswa SMA mampu mengetahui dan membuat jenis penelitian yang menggunakan data kualitatif maupun kuantitatif

    PEMANFAATAN VILLAR (VIRTUAL LABORATORY 5.0 BASED ON AUGMENTED REALITY) SEBAGAI MEDIA PEMBELAJARAN DI SMK PERDANA

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    ABSTRAKTeknologi dalam pembelajaran dapat membantu sekolah dalam meningkatkan kompetensi dan motivasi siswa. Hal ini bertepatan dengan tren Education 5.0 dimana teknologi memainkan peran penting dalam proses pembelajaran hingga media pembelajaran yang digunakan. Sekolah harus mampu menyesuaikan transisi baru ini agar siswa mampu dalam berkompetisi kedepannya. Saat ini banyak sekolah yang belum mampu memanfaatkan teknologi dengan baik sehingga berpengaruh pada kualitas pembelajaran. Penggunaan media belajar Virtual Learning based on Augmented Reality (VILLAR) merupakan salah satu solusi yang diimplementasikan dalam mengatasi rendahnya kualitas pembelajaran dalam keterampilan siswa. Kegiatan pengabdian ini dimulai dengan Analisa permasalahan, penggalian data, pre-test, treatment dan pelatihan, dan di akhiri dengan post-test. Objek dari pengabdian ini adalah siswa kelas XI di SMK Perdana Semarang yang berjumlah 35 siswa. Hasil pre-test dan post test dengan menggunakan Analisa N-Gain Test menunjukkan bahwa terdapat peningkatan hasil belajar siswa dengan tingkat persentase sebesar 86%. Hal ini dapat dikatakan bahwa produk tersebut cukup efektif dalam meningkatkan hasil belajar siswa dilihat dari hasil pre-test dan post-test siswa. Kata kunci: augmented reality; education 5.0; villar; virtual laboratory. ABSTRACTThe contents of the abstraction, between 150-300 words, just one paragraph. If you see gray letters here, the fault is not in your eyes. This form is made by utilizing the facilities provided by MsWord. It seems, to make things easier, use the same language you use in your writing. Use the Abstract Fill style for this format. If you use this template correctly, all numbering will be generated automatically. So you don't need to edit it manually. Of course, if you create a section of this paper that requires numbering after this template, the number will continue with the existing part number. Again, you don't need to edit the part numbers, because if the contents of this template are deleted, the numbers will be sorted by themselves. If you want to try to delete the contents of this template, please back up first. Keywords: augmented reality; education 5.0; villar; virtual laboratory

    Development of physics learning modules in supporting the implementation of digitalization education wave material based on Augmented Reality (AR) and Physics Education Technology (PhET)

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    The era of the industrial revolution 4.0 and 5.0 is the era of digitalization, the era in which the man who drives the development of the country's economy has been slowly replaced by mechanical automation and digitization of technology. The role of science and technology is necessary for the success of the digitalized era of education. Technology-based modules are essential to digitizing education and avoiding loos learning. The technology that can be used to digitize education is using three-dimensional images using augmented reality technology integrated using PhET (Physic Education Technology). The research aims to implement Augmented Reality (AR) and Physics Education Technology (PhET) in the development of physical modules for enterprise materials and renewable energy. This module will be about materials and renewable energy which contains barcodes that when scanned using a student's smartphone, then will appear a real three-dimensional picture. While business practicums and renewable energy will emerge in the form of links that will later be connected to PhET and students can simulate experiments on energy change, enterprise and renewed energy. The research method uses the ADDIE development model, namely analysis, design, development, implementation and evaluation. The research was carried out at Kesatrian 2 Semarang High School involving 50 students and 2 specialists. PhET-based and Augmented Reality learning modules applied to the experimental class can help students to improve their problem-solving skills. an evaluation of the applications already implemented in the school, which assessed the effectiveness of the use of AR and PhET learning modules on vibrational and wave material. Effectiveness can be reviewed from the response of students who have used the reviewed module from the level of comprehension of the material. The effectiveness score reaches 83%, which means that the module is developed effectively to support the process of learning activities in the classroom

    Multirepresentation Ability Analysis of Wave Matter Using Physics Education Technology

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    Education is the primary capital of a nation's progress, because with education, the human resources that a nation possesses will become quality. Physics is a branch of natural science, specifically studying natural phenomena and events through several scientific and systematic methods. The research is aimed at developing a tool to evaluate the multirepresentation of wave matter using Physics Education Technology. The methods used in this research are quantitative methods and the research is carried out by providing filling issues that will analyze verbal multirepresentation capabilities, tables and graphs. The research will be carried out at Semarang University using samples of civil engineering students. Research procedures through preliminary stages by drawing up a research plan. Preparing and compiling wave learning modules using the simulation facilities of Physics Education Technology, then compiling evaluation tools that are subject-based with multi-representation verbal approaches, tables and graphs. Validation of learning modules and evaluation tools to determine whether it is worthy of use or not, validation is carried out by 2 experts. Validation of test instruments by experts on material aspects averaged 93%, on construction aspects 94% and on language aspects reached 92%, of which results show that the instruments have excellent validity. In the finite scale test, the highest multirepresentation ability is communicating from mathematics to verbal and its mathematical abilities, while the lowest is in the ability to picture to mathematics and physics

    VISUALISASI KONSEP PERLAYANGAN GELOMBANG DENGAN MEMANFAATKAN SPREADSHEET EXCEL

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    Perkembangan ilmu pengetahuan dan teknologi yang semakin maju telah menghasilkan berbagai macam peralatan canggih yang dapat menunjang terpenuhinya kebutuhan hidup. Oleh sebab itu diperlukan generasi penerus yang pandai dan kreatif. Hal ini yang menyebabkan kebutuhan pendidikan yang semakin tinggi dan permasalahannya semakin kompleks. Pembelajaran tentang gelombang sudah didapatkan sejak duduk di bangku SMP, tetapi pemahaman tentang hal ini masih kurang. Oleh karena itu, dengan memanfaatkan fasilitas-fasilitas yang diberikan komputer, perumusanperumusan gelombang elektromagnetik yang abstrak akan lebih mudah dipahami. Visualisasi dari grafiknya dapat memberikan kemudahan bagi mahasiswa untuk lebih memahami materi yang diberikan. Penelitian ini dilaksanakan dalam dua tahapan, tahapan yang pertama dimulai dari studi pustaka pendukung terutama yang berkaitan dengan superposisi gelombang. Langkah selanjutnya adalah menurunkan rumusan superposisi dua gelombang dengan variasi frekuensi, amplitudo, dan fase yang berbeda-beda. Tahapan kedua yang dilakukan hampir sama dengan tahapan pertama yaitu studi pustaka, namun cukup dengan memperoleh fungsi gelombang tunggal. Selanjutnya berdasarkan fungsi gelombang dengan variasi frekuensi, amplitudo, dan fase. Proses superposisi gelombang dilakukan dengan cara menjumlahkan data sintetik fungsi gelombang 1 dan 2, menghasilkan data sintetik fungsi gelombang hasil superposisi. Data sintetik ini kemudian divisualisasikan dalam bentuk grafik Penelitian ini menghasilkan visualisasi konsep perlayangan gelombang yang diungkapkan dalam grafik hubungan antara simpangan terhadap waktu dengan frekuensi berbeda, amplitudo dan beda fase yang berbeda. Kata kunci : perlayangan gelombang, superposisi, spreadshee

    ANALISIS TINGKAT KEBISINGAN DI UNIVERSITAS SEMARANG DENGAN PETA KONTUR MENGGUNAKAN SOFTWARE GOLDEN 1

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    Campus is a place which is teaching and learning process occur. One factor that support a good learning environment is to avoid noise problems. The object of the research is the campus of Semarang University located on Jalan Arteri Soekarno-Hatta, it is located on the edge of the Kaligawe-Gayamsari toll road. Both roads includes the most crowded transportation routes in Semarang City.Campus area requires a quiet and silent environment. It is difficult for the urban areas to get a quiet campus environment. The study tries to reveal the evaluation on how the noise factors that occur during teaching and learning process. The study was conducted at Semarang University. The research method used is descriptive analytic method. The research was conducted by measuring the noise level using Sound Level Meter (KRISBOW) type KW08-291, several data collection points was taken at Semarang University, both open and closed environments around campus. The results of noise measurements would be carried out in noise mapping to know the noise distribution map in the campus area. The noise level in the campus is still above 55 dB on average. It shows that the noise level in the environment of Semarang University has not been in line with the predetermined standard that is still greater than (40 - 50 dBA) in accordance to the decree of the State Minister of the Environment number 48 of 1996.Keywords: noise, sound level meter, noise threshold value, decree of the State Minister of the Environment number 48 of 199
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