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Begini Cara Membuat Google Form dan Mengakses Hasil Responden

google form 900x400 1
Ilustrasi, (Foto: Mastekno.com).

ZONALITERASI.ID – Google Form atau yang biasa disebut google formulir merupakan salah satu produk Google yang menyediakan layanan pembuatan formulir online. Layanan ini dapat digunakan jika Anda memiliki akun gmail.

Layanan formulir online dari Google ini bisa digunakan untuk berbagai kebutuhan. Misalnya mengirim survei, memberikan siswa atau orang lain kuis, dan mengumpulkan informasi.

Form juga dapat dihubungkan ke spreadsheet loh. Spreadsheet ini memungkinkan Anda mengajukan berbagai pertanyaan. Lalu, Anda pun dapat merespon dengan jawaban teks sederhana ataupun respon teks lebih lanjut. Anda bisa memilih pertanyaan baik itu pertanyaan pilihan ganda, jawaban singkat dan masih banyak lagi.

Dilansir dari laman Mastekno.com, berikut ini cara membuat google form dan mengakses hasil responden.

Cara Membuat Google Form (Formulir Online)

Bagi Anda yang belum bisa menggunakan Google Form ini, berikut cara menggunakan Google Form dan bagaimana cara untuk mengakses hasil responden.

1. Langkah pertama, silahkan masuk ke Google Drive.

2. Selanjutnya, pilih New atau Baru.

3. Kemudian, pilih lainnya. Setelah itu, pilih Google Formulir.

4. Berikutnya, tuliskan nama file pada bagian bawah URL. Nama File bisa berbeda dengan nama Form. Lalu kamu juga bisa mengisi deskripsi formulir.

5. Pertanyaan bisa diikuti dengan pilihan jawaban dengan bentuk berupa esay singkat, esay paragraf, pilihan ganda (hanya satu jawaban benar), checkbox (bisa lebih dari satu jawaban benar), dropdown (hanya satu jawaban benar), liner scale dan juga multiple choice grid.

Untuk bentuk kuesioner disarankan menggunakan liner scale dan multiple choice grid. Dan Anda dapat memilih, apakah pertanyaan wajib diisi jawaban atau tidak pada Required.

1. Langkah selanjutnya, atur siapa yang bisa mengakses Form ini.

2. Setelah itu, Anda bisa menambahkan teman untuk melakukan pengubahan file, ataupun hanya melihat form saja. Klik pada titik tiga ke bawah (More) di bagian kanan atas , lalu pilih Add Collaborators atau Tambahkan Kolaborator. Kemudian tambah email teman Anda.

3. Sesudah form selesai Anda susun, maka form dapat ditampilkan dengan klik icon berbentuk mata sebelah kanan atas.

4. Langkah terakhir, klik Senduntuk mengirimkan form kepada responden Anda dengan cara klik icon email, atau copy URL dengan cara klik icon

Cara Melihat Jawaban Google Form

1. Silahkan Anda buka kembali file Form. Klik pada Responses yang terletak di atas judul Form. Gulir ke bawah untuk melihat informasi hasil kuesioner Anda.

2. Selanjutnya, klik pada icon View Responses in Sheets. Lalu akan tampil windows di mana Anda harus memilih Create a New Spreadsheet, lalu klikCreate.

3. Setelah itu, browser akan membuka tab baru dan Google Drive akan membuat file baru dengan format spreadsheet. (gib)***

 

Respon (166)

  1. Как развивать логику взрослому.
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    Перевод секс рассказы. Чем человек отличается от животного общество 8 класс.
    Слава рабинович причина смерти.
    Задачи и место психология
    в системе наук о человеке.

  2. Структура современной психологии место в
    системе наук о человеке.

    Психология восприятия цветов.
    Человек природа общество 8 класс конспект урока обществознание. Testi. Слово это в психологии.
    Дедуктивное мышление означает.
    Тест профориентация бесплатно онлайн для женщин.
    Нерационально это что значит.

  3. horizontal balancing machines

    Horizontal balancing machines are essential devices in various industries, primarily used for correcting the imbalance in rotating machinery components. This detailed overview examines the functionality, types, and significance of these machines, focusing on DIY horizontal balancing machines that enthusiasts and professionals alike can create for specific balancing needs.

    1. **Introduction to Horizontal Balancing Machines**
    The need for horizontal balancing machines arises from the importance of maintaining balance in rotating parts to ensure operational efficiency and safety. Using these machines reduces vibrations and wear on mechanical components, ultimately enhancing performance and extending the longevity of equipment.

    2. **Types of Horizontal Balancing Machines**
    Horizontal balancing machines can primarily be categorized into two types: Soft Bearing Machines and Hard Bearing Machines. Each type has unique design features tailored to specific balancing tasks.

    **2.1 Soft Bearing Machines**
    Soft Bearing Machines utilize flexible supports, allowing for a low natural frequency, which is beneficial for detecting imbalances at various rotor speeds. This design enables the rotor to oscillate freely, providing accurate readings of imbalance forces. The simplicity of constructing these machines makes them popular among DIY enthusiasts who seek to balance rotors for specific applications, such as turbines or fans.

    In practice, soft bearing designs can be seen in machines that incorporate spring suspensions, which facilitate balancing over a wide range of operational speeds, starting from about 200 RPM. These machines can also be customized by using readily available materials to create supports that optimize the balancing of specific rotating components.

    **2.2 Hard Bearing Machines**
    Contrastingly, Hard Bearing Machines possess more rigid supports designed to operate effectively under higher loads and speeds. The natural frequencies of Hard Bearing Machines exceed those of the rotors they balance, allowing for precision across a broader spectrum of applications. These machines are often employed in industrial settings where balancing accuracy is critical, such as in the production of high-performance driveshafts.

    3. **Construction Requirements for Horizontal Balancing Machines**
    When constructing these machines, certain requirements must be met to ensure accuracy and reliability. Key components include:

    Bearings: Essential for supporting the rotor during the balancing process.
    Bedframes: Must be sturdy to provide a stable platform for balancing.
    Drives: Required to rotate the rotor at specified speeds for accurate balancing.

    4. **Measuring Systems**
    The effectiveness of horizontal balancing machines largely depends on their measuring systems, which include vibration sensors and other devices that gauge the rotational dynamics of the rotor. These systems determine the corrective weights and their appropriate placement to counterbalance any detected imbalances.

    5. **DIY Balancing Machine Projects**
    For those interested in constructing their horizontal balancing machines, several DIY projects are available that guide users through the process. Building a soft or hard bearing machine can be achievable with the right materials and a fundamental understanding of balancing principles. DIYers can tailor their machines for specific applications, such as balancing fan blades or turbine rotors, utilizing commercially available components alongside custom parts.

    The process typically involves designing the frame, selecting appropriate bearings and drive mechanisms, installing vibration sensors, and integrating measuring systems for feedback on balancing accuracy. Engaging in these projects not only results in functional balancing machines but also deepens knowledge of balancing technologies.

    6. **Performance and Accuracy**
    The performance of a horizontal balancing machine is measured through its accuracy in diagnosing and correcting rotor imbalances. Various tests can confirm the machine’s effectiveness, such as checking the residual imbalance after the balancing procedure. High-quality machines should demonstrate minimal residual imbalances, often in the range of G0.16 classification according to ISO standards, ensuring reliability in high-speed operations.

    7. **Applications of Horizontal Balancing Machines**
    These machines find application in various sectors including automotive, aerospace, and manufacturing. From balancing driveshafts to turbines, the significance of maintaining rotor balance is paramount for enhancing performance and reducing vibrations that could lead to premature wear or failures in machinery.

    8. **Conclusion**
    The accessibility and usability of horizontal balancing machines, particularly DIY versions, empower both professionals and hobbyists to tackle balancing tasks effectively. With the right approach, individuals can construct machines that meet specific balancing needs while enhancing their understanding of mechanical dynamics.

    In the ever-evolving landscape of manufacturing and mechanical maintenance, the importance of horizontal balancing machines will only continue to grow, reinforcing their necessity in maintaining mechanical integrity in rotating machinery.

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