![]() The second half of the unit consists of an iterative team project, during which students have the opportunity to identify a need that they care about, prototype solutions both on paper and in App Lab, and test their solutions with real users to get feedback and drive further iteration In this unit, students are asked to consider and understand the needs of others while developing a solution to a problem through a series of design challenges. At the conclusion of the unit, students learn about the impacts of data analysis on the world around them and complete a final project in which they must uncover and present a data investigation they've completed independently. They learn how different types of visualizations can be used to better understand the patterns contained in datasets and how to use visualizations when investigating hypotheses. Once again, students work with datasets in App Lab, but are now asked to make use of a data visualizer tool that assists students in finding data patterns. Students explore and visualize datasets from a wide variety of topics as they hunt for patterns and try to learn more about the world around them from the data. The unit concludes with students designing their own small library of functions that can be used by a classmate. In the second half of the unit, students learn how to design libraries of functions that can be packaged up and shared with others. In the beginning of the unit, students are introduced to the concepts of parameters and return, which allow for students to design functions that implement an algorithm. Students learn how to design clean and reusable code that can be shared with a single classmate or the entire world. At the conclusion of the unit, students complete a week-long project in which they must design an app around a goal of their choosing that uses one of these data sets. Later in the unit, students are introduced to tools that allow them to import tables of real-world data to help further power the types of apps they can make. Like the previous unit, students learn the core concepts of lists, loops, and traversals through a series of EIPM lesson sequences. Students learn to build apps that use and process lists of information. The entire unit concludes with a three-day open-ended project in which students must build an app that makes a recommendation about any topic they wish. Each programming topic is covered in a specific sequence of lessons that ask students to ‘Explore’ ideas through hands-on activities, ‘Investigate’ these ideas through guided code reading, ‘Practice’ with sample problems, and apply their understanding as they ‘Make’ a one-day scoped project. Students expand the types of apps they can create as they learn how to store information (variables), make decisions (conditionals), and better organize code (functions). The unit concludes with students sharing the apps they develop with their classmates. Along the way, students learn practices like debugging, pair programming, and collecting and responding to feedback, which they will be able to use throughout the course as they build ever more complex projects. ![]() ![]() Throughout the unit, they learn how to use ’s programming environment, App Lab, to design user interfaces and write simple event-driven programs. Students work with partners to develop a simple app that teaches classmates about a topic of personal interest. A traceable calibration can be done through service from the balance manufacturers (calibration certification), or it can be done by the balance owner if they buy a certified weight which will be used in the calibration process.Students design their first app while learning both fundamental programming concepts and collaborative software development processes. In case the calibration may need to be traceable for ISO purposes or to meet other requirement, certified weight should be used to calibrate the balance. External calibration required more effort on the balance user. However, time to time, external calibration is recommended as well. Depending on the balance readability, usually for 4-, 5-, 6- and 7-digit balances it is launched every four hours, for lower resolution balances it is every six hours. This feature is very convenient to have in a micro, semi-micro, analytical or precision balance. Some balances are equipped with internal motorized calibration function for an easy calibration by one touch. Internal calibration can be even easier if the balance is equipped with the isoCAL feature, where internal calibration will be launched automatically when environmental conditions change.
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