18 research outputs found
Desain Handout Multimedia Menggunakan 3D Pageflip Professional untuk Media Pembelajaran pada Sistem Android
Abstract
This article have a purpose to introduce media form of handout multimedi’s base and describe how to make handour multimedia’s base use 3D Pageflip Professional with a look at the end of that can be accessed through the computer and android. In design for handout multimedi’s base use 3D Pageflip Professional need a handout in PDF format as background of making a handout multimedi’s base. In application 3D Pageflip Professional can load a media as complement such as picture, animation, flash, video, audio, etc, so it would be more attractive at the time reading this handout. The result of the project that you develop, publish with 3DP format that can be read with 3D Paageflip Reader that can istalled in OS android.
Keywords: Multimedia Base Handout, 3D Pageflip Professional, 3D Pageflip Reader Android.
Abstrak
Artikel ini bertujuan untuk mengenalkan media pembelajaran berupa handout berbasis multimedia dan menggambarkan cara membuat handout berbasis multimedia menggunakan 3D Pageflip Professional dengan tampilan akhir yang dapat diakses melalui komputer dan android. Dalam merancang handout berbasis multimedia menggunakan 3D Pageflip Professional membutuhkan handout dalam format PDF sebagai dasar pembuatan handout berbasis multimedia. Pada aplikasi 3D Pageflip Professional dapat memuat media sebagai pelengkap seperti gambar, animasi, flash, video, audio, dll, sehingga akan lebih menarik pada saat membaca handout ini. Hasil dari project yang anda buat, publish dengan format 3DP agar dapat dibaca dengan 3D Pageflip Reader yang bisa diinstall dalam OS android.
Kata-kata kunci: Handout Multimedia, 3D Pageflip Professional, 3D Pageflip Reader Android
Rancangan Website Pembelajaran Terintegrasi dengan Modul Digital Fisika Menggunakan 3D PageFlip Professional
Abstract
This article is focused on learning website design techniques that are integrated with digital module physics using 3D PageFlip Professional. Digital module physics used a digital module research-based discovery learning development. To use more widely, will require online media as a means of disseminating the use of these digital module. Module online certainly is not only to upload files to the network. Integrated website needs to be designed to display digital module is online. One of them by integrating them through learning website. Learning website that is designed in this article using the learning management system.
Keywords: Website of learning, digital modules, physics, 3D PageFlip Professional
Abstrak
Artikel ini difokuskan pada teknik perancangan website pembelajaran yang terintegrasi dengan modul digital fisika menggunakan 3D PageFlip Professional. Modul digital fisika yang digunakan merupakan modul digital hasil penelitian pengembangan berbasis discovery learning. Untuk mendesiminasikannya secara lebih luas, tentu dibutuhkan media online sebagai sarana penyebarluasan penggunaan modul digital ini. Penyajian secara online tentu tidak hanya semata mengunggah file modul ke dalam jaringan. Perlu dirancang website yang terpadu untuk menampilkan modul digital ini secara online. Salah satunya dengan mengintegrasikannya melalui website pembelajaran. Website pembelajaran yang dirancang dalam artikel ini menggunakan learning management system.Â
Kata-kata kunci: Website pembelajaran, modul digital, Fisika, 3D PageFlip Professiona
BUKU IPA DILENGKAPI DENGAN TEKNOLOGI AUGMENTED REALITY: MELATIH KEMAMPUAN PEMBELAJARAN SAINTIFIK SISWA SMP KELAS VIII SEMESTER GANJIL
KARAKTERISASI SENSOR PHOTODIODA, DS18B20, DAN KONDUKTIVITAS PADA RANCANG BANGUN SISTEM DETEKSI KEKERUHAN DAN JUMLAH ZAT PADAT TERLARUT DALAM AIR
Abstract
Drinking water worth consumption are those that should be odorless, tasteless, clean, the temperatures preferably below air temperature, and low amounts of dissolved solids. On this turbidity and total dissolved solid water system is required some sensor devices. The accuracy of the sensor is an important thing to support the effectiveness of the system. In this research, the calibration of ds18b20 sensor as temperature detector, photodiode sensor as turbidity detector, and conductivity sensor as a detector of dissolved solid (TDS) in water and using Arduino as a microcontroller. The characterization is done by comparing the sensor output with laboratory test equipment. The result of characterization means that each measurement sensor has a variation error that is photodiode sensor with relative error 3.13%, sensor ds18b20 1.77%, and conductivity sensor 2.42%.
Keywords: temperature, turbidity, TDS, Arduino.</jats:p
