The magic computer monitor
A. Background of the magic computer monitor
computer is an object to search for items or anything with the internet, the equipment is LCD, mouse, CPU, keyboard, etc. when we use a computer to look for browsing something, computer monitors are often seen by others when they are searching and the other people want to know what we are looking for at that moment, after that our privacy is interrupted by that. Nowadays we can make browsing privacy and there can be no browsing history at that time. So we want to introduce the magic computer monitor.
B. Problem solution
1. What is the magic computer monitor
2. What is filter polarizing
3. Why you make the filter polarizing in monitor
4. What are the advantages and disadvantages of the magic computer monitor
C. objectives and benefits
1. the polarizing filter from a PC's monitor and place it on a pair of glasses, it obtains a monitor that looks white (not showing the actual output of the pc) unless you look at it through the polarizing glasses
2. it cannot be seen by others.
3. The magic monitor is can browse anything we want.
4. For make it easier to find something on the internet using a magic computer monitor.
D. Advantages
1. It can protect the eyes with polarizing glasses
2. Other people cannot see what we are looking for on a magic computer monitor without polarizing glasses
3. convenient to use when using a magic computer monitor with polarizing glasses
E. Disadvantages
Digital technologies, such as smartphones and tablets, can be useful in academic settings by allowing browsing for additional information, organizing the study process online, and facilitating communication between peers and instructors. On the other hand, several recent studies have shown that digital technology use can, in some circumstances, be negatively related to academic outcomes for some individuals. Fear of missing out (FOMO) could be one of these factors causing individual differences in how frequently people receive and react to interruptive notifications (INs). This study aimed to investigate how FOMO, the frequency of receiving INs and stopping current activities due to INs, is associated with a surface approach to learning. Three hundred and sixteen U.S. university students responded to a web survey that included items regarding experiencing FOMO, the frequency of receiving INs and daily activity disruptions due to INs, and surface learning. Results showed that FOMO was associated with daily disrupted activities due to INs and surface learning, but not the frequency of receiving INs. Mediation analysis showed that the association between FOMO and surface learning was mediated by the frequency of daily disrupted activities due to INs. However, the nature of the sample somewhat restricts the generalizability of these results. The findings, their implications, and future directions are discussed.
F. How to use the filter polarizing computer monitor
LCD: Liquid Crystal Display, a display technology that basically uses liquid crystals flanked by polarizing filters and glass substrates that are given additional lighting (reflective, edge / back lighting, etc.) so that the screen surface can be seen because the liquid crystal does not produce light. The main advantage over CRT display technology is that the screen size is much thinner and lighter, and lower power consumption. The type of LCD commonly used in computer monitors is a TFT type screen that uses a Thin Film Transistor to improve image quality. In microcontroller-based systems we usually want to interact with the system, for example, to enter a parameter, to change the value of a parameter, or to display the output of a measured variable. Data is usually entered to a system using a switch, a small keypad, or a fully blown keyboard. Data is usually displayed using an indicator such as one or more LEDs, 7-segment displays, or LCD-type displays. LCDs have the advantages that they can display alphanumeric as well as graphical data. Some LCDs have 40 or more character lengths with the capability to display data in several lines. Some other LCDs can be used to display graphical images. This chapter describes the use of LCDs with the Nucleo-F411RE development board and the Mbed integrated development environment. Several LCD-based projects are given in the chapter, including use of a keypad. All liquid crystal displays (LCD) operate on the principle of being able to 'twist' polarized light as it passes through a 'nematic' liquid crystal. The orientation of each liquid crystal in a display is governed by an electric field applied to a transparent electrode, through an array of thin-film transistors (TFT). The liquid crystal is normally 'sandwiched' between two polarizing filters at 90 degrees to each other. Polarized light enters the back of the liquid crystal from the back-lit LED. When the nematic crystal is not energised, it 'twists' the polarized light by 90 degrees so that it passes through the second polarizing filter.
G. Concision
The magic computer monitor is a computer device, especially the monitor, we can see with polarize glasses. With this tool we can search for something or do tasks using the computer with man because there is already the magic computer monitor.
Our references :
http://id.panasystech.com/news/the-principle-function-and-production-technol-5364175.html
https://www.sciencedirect.com/science/article/abs/pii/S0167487018303982
https://www.sciencedirect.com/journal/computers-and-education/vol/139/suppl/C
https://www.sciencedirect.com/science/article/pii/S0360131519301290
Nama kelompok : irvan randi s.
salsabilasyahla.
rizky dwi n.
chaerul.
rafi delanda.
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