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Transistor
Quiz by Snehal Rangrao Watharkar
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Transistor Fundamentalstransistor amplifier 18 TLE TransistorsPN junction diode and NPN transistor Berpikir Komputasional-Himpunan dan sistem bilangan Tujuan Pembelajaran: Melalui pengamatan dan diskusi kelompok, peserta didik dapat mengklasifikasikan objek ke dalam himpunan dan memahami konsep dasar sistem bilangan biner. "Anak-anak, coba lihat di dalam kelas ini. Ada banyak sekali benda, kan? Ada meja, kursi, papan tulis, spidol, tas, buku, dan juga kita semua sebagai siswa." "Sekarang, coba bayangkan jika kalian diminta untuk merapikan semua benda ini. Apa yang akan kalian lakukan pertama kali? Pasti kalian akan mengelompokkannya, bukan? Buku dikumpulkan dengan buku, alat tulis dengan alat tulis. Nah, tanpa sadar, kalian baru saja melakukan apa yang disebut klasifikasi atau membuat himpunan!" "Aktivitas sederhana seperti ini ternyata adalah dasar dari cara komputer berpikir. Hari ini kita akan belajar bagaimana komputer mengelompokkan informasi dan apa 'bahasa' rahasia yang digunakannya." B. Kegiatan Inti (Materi & Diskusi) BAGIAN 1: KLASIFIKASI OBJEK KE DALAM HIMPUNAN 1. Apa itu Himpunan? Himpunan adalah kumpulan benda atau objek yang memiliki ciri-ciri yang sama atau didefinisikan dengan jelas. Kuncinya adalah "ciri-ciri yang sama". • Contoh Himpunan: o Himpunan siswa kelas 8A. o Himpunan alat tulis (pulpen, pensil, penghapus). o Himpunan buah-buahan berwarna merah (apel, stroberi, ceri). • Bukan Contoh Himpunan: o Kumpulan lukisan yang indah (karena "indah" itu relatif, tidak jelas ukurannya). o Kumpulan makanan yang lezat. Mengapa ini penting untuk komputer? Komputer menyimpan jutaan data. Agar mudah ditemukan dan diolah, komputer harus mengklasifikasikannya ke dalam himpunan. • Himpunan file gambar (.jpg, .png). • Himpunan file dokumen (.docx, .pdf). • Himpunan aplikasi di HP-mu. 2. Diskusi Kelompok: Mari Mengklasifikasi! Instruksi untuk Siswa: 1. Bentuklah kelompok yang terdiri dari 3-4 orang. 2. Amati daftar objek/kata di bawah ini: Kucing, Sepeda Motor, Apel, Mawar, Ikan, Mobil, Mangga, Melati, Anjing, Pesawat, Jeruk, Anggrek. 3. Diskusikan dan klasifikasikan objek-objek tersebut ke dalam 3 himpunan berdasarkan ciri-ciri yang kalian tentukan sendiri. 4. Beri nama untuk setiap himpunan yang kalian buat. 5. Tuliskan hasilnya di buku catatan. Contoh Hasil Diskusi (Guru bisa memberikan contoh): • Himpunan 1: Hewan o Anggota: {Kucing, Ikan, Anjing} • Himpunan 2: Kendaraan o Anggota: {Sepeda Motor, Mobil, Pesawat} • Himpunan 3: Tumbuhan o Anggota: {Apel, Mawar, Mangga, Melati, Jeruk, Anggrek} Setelah diskusi, setiap kelompok mempresentasikan hasil klasifikasinya. Guru memberikan apresiasi dan menekankan bahwa klasifikasi adalah langkah pertama dalam Berpikir Komputasional, yaitu mengorganisir data. BAGIAN 2: MEMAHAMI KONSEP DASAR BILANGAN BINER 1. Bahasa Manusia vs. Bahasa Komputer Kita berbicara dengan kata-kata. Komputer tidak mengerti kata "halo" atau "mainkan musik". Komputer hanya mengerti dua kondisi: NYALA atau MATI. Bayangkan saklar lampu di rumahmu. • Ketika lampu NYALA, kita sebut kondisi ini 1. • Ketika lampu MATI, kita sebut kondisi ini 0. Inilah bahasa komputer! Bahasa yang hanya terdiri dari angka 1 dan 0 ini disebut Sistem Bilangan Biner. Semua hal yang kamu lihat di layar—huruf, foto, video, game—sebenarnya adalah rangkaian panjang dari angka 1 dan 0. 2. Mengapa Biner Penting? Komputer terbuat dari jutaan komponen elektronik super kecil yang disebut transistor. Transistor ini bekerja seperti saklar lampu. • Jika ada aliran listrik, nilainya 1. • Jika tidak ada aliran listrik, nilainya 0. Dengan kombinasi jutaan saklar 1 dan 0 ini, komputer bisa merepresentasikan informasi yang sangat rumit. 3. Mengenal Angka Biner Sederhana Mari kita coba hitung seperti komputer! • Mengenal Angka Biner Sederhana Angka 0 dalam desimal = 0 dalam biner. • Angka 1 dalam desimal = 1 dalam biner. • Angka 2 dalam desimal = 10 dalam biner (dibaca: satu-nol). o Kenapa? Karena di biner tidak ada angka 2. Setelah 1, harus kembali ke 0 dengan menaikkan digit di depannya. • Angka 3 dalam desimal = 11 dalam biner (dibaca: satu-satu). • Angka 4 dalam desimal = 100 dalam biner (dibaca: satu-nol-nol). Aktivitas Pengamatan: Guru menunjukkan sebuah gambar atau video singkat tentang bagaimana data direpresentasikan dalam biner. (Misalnya, animasi huruf 'A' yang berubah menjadi kode biner 01000001). Diskusi Singkat: "Menurut kalian, apa keuntungan menggunakan sistem biner yang hanya punya dua simbol ini untuk mesin seperti komputer?" (Arahkan jawaban siswa ke ide tentang kesederhanaan, kejelasan (pasti antara nyala atau mati, tidak ada nilai di antaranya), dan kemudahan untuk diwakili oleh komponen listrik). C. Kegiatan Akhir (Penutup) Rangkuman dan Refleksi "Hari ini kita sudah belajar dua hal penting dalam Berpikir Komputasional:" 1. Klasifikasi Himpunan: Sama seperti kita mengelompokkan benda di kelas, komputer mengelompokkan data agar teratur dan mudah diakses. Ini adalah dasar dari manajemen data. 2. Sistem Bilangan Biner: Kita tahu sekarang bahwa bahasa asli komputer adalah biner (1 dan 0), yang mewakili kondisi NYALA dan MATI dari komponen listrik di dalamnya. Ini adalah dasar dari representasi data. "Jadi, setiap kali kalian mencari file di laptop atau menyalakan HP, ingatlah bahwa di baliknya ada proses klasifikasi himpunan dan jutaan angka 1 dan 0 yang sedang bekerja!" 📌 Kesimpulan 1. Himpunan adalah kumpulan objek yang jelas ciri-cirinya. Konsep himpunan membantu kita mengelompokkan data agar lebih teratur, sama seperti komputer mengelompokkan file berdasarkan jenisnya. 2. Klasifikasi merupakan langkah penting dalam berpikir komputasional karena memudahkan pengolahan data. Contohnya, komputer mengelompokkan file gambar, dokumen, dan aplikasi ke dalam himpunan masing-masing. 3. Sistem Bilangan Biner (0 dan 1) adalah bahasa dasar komputer. Angka 1 mewakili kondisi nyala (ada aliran listrik), sedangkan angka 0 mewakili kondisi mati (tidak ada aliran listrik). 4. Dengan kombinasi jutaan angka 1 dan 0, komputer mampu menyimpan, mengolah, dan menampilkan informasi yang kompleks, seperti teks, gambar, video, dan suara. 5. Klasifikasi data dan sistem biner adalah fondasi utama cara kerja komputer dan menjadi dasar dari teknologi digital yang kita gunakan sehari-hari. ✨ Refleksi 1. Saya menyadari bahwa proses sederhana seperti mengelompokkan benda di sekitar kita ternyata sama pentingnya dengan cara komputer mengorganisir data dalam bentuk himpunan. 2. Saya belajar bahwa komputer sebenarnya tidak rumit, karena hanya menggunakan bahasa sederhana berupa 0 dan 1, tetapi dari kesederhanaan itu lahirlah teknologi canggih yang kita gunakan setiap hari. 3. Saya akan berusaha lebih teliti dan teratur dalam mengklasifikasikan informasi, baik dalam belajar maupun kehidupan sehari-hari, karena hal itu membantu berpikir lebih sistematis. 4. Saya merasa kagum bahwa sesuatu yang kita anggap kecil, seperti sistem biner, ternyata menjadi dasar seluruh teknologi modern, dari smartphone, komputer, hingga internet. 5. Saya ingin menerapkan cara berpikir komputasional ini untuk memecahkan masalah sehari-hari: mulai dari mengelompokkan tugas, mengatur jadwal, hingga menyederhanakan masalah yang rumit agar lebih mudah diselesaikan.Tranzistor cu efect de câmpTransitar SocialesTranslator: Joseph Geni Reviewer: Morton Bast Before March, 2011, I was a photographic retoucher based in New York City. We're pale, gray creatures. We hide in dark, windowless rooms, and generally avoid sunlight. We make skinny models skinnier, perfect skin more perfect, and the impossible possible, and we get criticized in the press all the time, but some of us are actually talented artists with years of experience and a real appreciation for images and photography. On March 11, 2011, I watched from home, as the rest of the world did, as the tragic events unfolded in Japan. Soon after, an organization I volunteer with, All Hands Volunteers, were on the ground, within days, working as part of the response efforts. I, along with hundreds of other volunteers, knew we couldn't just sit at home, so I decided to join them for three weeks. On May the 13th, I made my way to the town of Ōfunato. It's a small fishing town in Iwate Prefecture, about 50,000 people, one of the first that was hit by the wave. The waters here have been recorded at reaching over 24 meters in height, and traveled over two miles inland. As you can imagine, the town had been devastated. We pulled debris from canals and ditches. We cleaned schools. We de-mudded and gutted homes ready for renovation and rehabilitation. We cleared tons and tons of stinking, rotting fish carcasses from the local fish processing plant. We got dirty, and we loved it. For weeks, all the volunteers and locals alike had been finding similar things. They'd been finding photos and photo albums and cameras and SD cards. And everyone was doing the same. They were collecting them up, and handing them in to various places around the different towns for safekeeping. Now, it wasn't until this point that I realized that these photos were such a huge part of the personal loss these people had felt. As they had run from the wave, and for their lives, absolutely everything they had, everything had to be left behind. At the end of my first week there, I found myself helping out in an evacuation center in the town. I was helping clean the onsen, the communal onsen, the huge giant bathtubs. This happened to also be a place in the town where the evacuation center was collecting the photos. This is where people were handing them in, and I was honored that day that they actually trusted me to help them start hand-cleaning them. Now, it was emotional and it was inspiring, and I've always heard about thinking outside the box, but it wasn't until I had actually gotten outside of my box that something happened. As I looked through the photos, there were some were over a hundred years old, some still in the envelope from the processing lab, I couldn't help but think as a retoucher that I could fix that tear and mend that scratch, and I knew hundreds of people who could do the same. So that evening, I just reached out on Facebook and asked a few of them, and by morning the response had been so overwhelming and so positive, I knew we had to give it a go. So we started retouching photos. This was the very first. Not terribly damaged, but where the water had caused that discoloration on the girl's face had to be repaired with such accuracy and delicacy. Otherwise, that little girl isn't going to look like that little girl anymore, and surely that's as tragic as having the photo damaged. (Applause) Over time, more photos came in, thankfully, and more retouchers were needed, and so I reached out again on Facebook and LinkedIn, and within five days, 80 people wanted to help from 12 different countries. Within two weeks, I had 150 people wanting to join in. Within Japan, by July, we'd branched out to the neighboring town of Rikuzentakata, further north to a town called Yamada. Once a week, we would set up our scanning equipment in the temporary photo libraries that had been set up, where people were reclaiming their photos. The older ladies sometimes hadn't seen a scanner before, but within 10 minutes of them finding their lost photo, they could give it to us, have it scanned, uploaded to a cloud server, it would be downloaded by a gaijin, a stranger, somewhere on the other side of the globe, and it'd start being fixed. The time it took, however, to get it back is a completely different story, and it depended obviously on the damage involved. It could take an hour. It could take weeks. It could take months. The kimono in this shot pretty much had to be hand-drawn, or pieced together, picking out the remaining parts of color and detail that the water hadn't damaged. It was very time-consuming. Now, all these photos had been damaged by water, submerged in salt water, covered in bacteria, in sewage, sometimes even in oil, all of which over time is going to continue to damage them, so hand-cleaning them was a huge part of the project. We couldn't retouch the photo unless it was cleaned, dry and reclaimed. Now, we were lucky with our hand-cleaning. We had an amazing local woman who guided us. It's very easy to do more damage to those damaged photos. As my team leader Wynne once said, it's like doing a tattoo on someone. You don't get a chance to mess it up. The lady who brought us these photos was lucky, as far as the photos go. She had started hand-cleaning them herself and stopped when she realized she was doing more damage. She also had duplicates. Areas like her husband and her face, which otherwise would have been completely impossible to fix, we could just put them together in one good photo, and remake the whole photo. When she collected the photos from us, she shared a bit of her story with us. Her photos were found by her husband's colleagues at a local fire department in the debris a long way from where the home had once stood, and they'd recognized him. The day of the tsunami, he'd actually been in charge of making sure the tsunami gates were closed. He had to go towards the water as the sirens sounded. Her two little boys, not so little anymore, but her two boys were both at school, separate schools. One of them got caught up in the water. It took her a week to find them all again and find out that they had all survived. The day I gave her the photos also happened to be her youngest son's 14th birthday. For her, despite all of this, those photos were the perfect gift back to him, something he could look at again, something he remembered from before that wasn't still scarred from that day in March when absolutely everything else in his life had changed or been destroyed. After six months in Japan, 1,100 volunteers had passed through All Hands, hundreds of whom had helped us hand-clean over 135,000 photographs, the large majority — (Applause) — a large majority of which did actually find their home again, importantly. Over five hundred volunteers around the globe helped us get 90 families hundreds of photographs back, fully restored and retouched. During this time, we hadn't really spent more than about a thousand dollars in equipment and materials, most of which was printer inks. We take photos constantly. A photo is a reminder of someone or something, a place, a relationship, a loved one. They're our memory-keepers and our histories, the last thing we would grab and the first thing you'd go back to look for. That's all this project was about, about restoring those little bits of humanity, giving someone that connection back. When a photo like this can be returned to someone like this, it makes a huge difference in the lives of the person receiving it. The project's also made a big difference in the lives of the retouchers. For some of them, it's given them a connection to something bigger, giving something back, using their talents on something other than skinny models and perfect skin. I would like to conclude by reading an email I got from one of them, Cindy, the day I finally got back from Japan after six months. "As I worked, I couldn't help but think about the individuals and the stories represented in the images. One in particular, a photo of women of all ages, from grandmother to little girl, gathered around a baby, struck a chord, because a similar photo from my family, my grandmother and mother, myself, and newborn daughter, hangs on our wall. Across the globe, throughout the ages, our basic needs are just the same, aren't they?" Thank you. (Applause) (Applause)