VIDEO TRANSCRIPTION
Inova ou inventa
NASA's Secret Technology! Free Internet Wherever You Want, No Plan
Description generated by Skrybot
A device can be created using an old cell phone charger and copper wires to access the internet for free without Wi-Fi, a chip, or a data plan. By winding copper wires around the charger's metal pins and attaching them to a pickup block with paper clips and a magnet, the device can capture electromagnetic fields and high-frequency radio waves to generate a voltage that allows internet browsing on a smartphone. This experiment is based on principles of electromagnetic induction and radio wave reception, with results varying based on location and signal strength.
Transcription generated by Skrybot
Have you ever imagined never having to pay for internet plans from carriers again? What if I told you that it is possible to create a device using materials that you probably already have at home, and that can access the internet for free, without Wi-Fi, without a chip, and without a data plan? Start by using the old cell phone charger as the base of our device. The first step is to prepare the metal terminals, the pins that go into the socket, to receive the copper wires. With the soldering iron already hot, apply a small amount of tin to each pin. This makes it easier to attach the wires later and ensures better electrical conduction. Take the red wire and solder one end to one of the already tinned pins.
Next, take the copper wire and carefully start winding it around the charger's metal pin, making approximately six tight, tight turns. It is important that the coils are very close to each other, with no gaps between them, ensuring good contact and more efficient induction. Please take the opportunity to comment on where you are watching from, your city and your country. It's always amazing to see where this content is reaching, to meet who is part of this community, and of course this helps me to produce content that is increasingly aligned with you, wherever you are in the world. Repeat exactly the same procedure with the yellow wire. connecting it to the second pin of the charger.
Solder one of the ends to the pin, ensuring a firm hold, and then carefully wrap the wire around the pin, making about six tight turns, keeping the spirals well aligned and close to each other. Important tip. If you want to make the project more compact, clean, and visually organized, you can glue the wires directly onto the external housing of the charger, taking advantage of the flat shape of the surface to accommodate the wires without them coming loose. Use cutting pliers, a utility knife, or any suitable tool to carefully remove the plastic insulation from the ends of each wire. This removal must be done with precision, without damaging the copper core, ensuring good electrical conduction when soldering. Now let's assemble the second key component of this project, the pickup block.
To do this, take a high-strength magnet and attach a metal paper clip to each of the flat sides of the magnet, symmetrically. It is important that the magnet is centered between the two clips to ensure the structure is balanced and the signals are picked up evenly. Use a hot glue stick to firmly attach the clips to the magnet, preventing any movement or vibration during use. These two clips will act as improvised receiving antennas, capable of capturing frequencies from the environment and redirecting them to the circuit. Then, glue the magnet, with the paper clips already attached, to the top of the charger housing using enough hot glue. This will keep the set firm, stable, and practical to use in different positions or surfaces.
Now take the stripped ends of the red and yellow wires, or whatever colors you used, and solder each one directly to one of the paper clips. And that's it! We've just assembled a simple but powerful device that promises to connect you to the Internet without relying on carriers. And best of all, for free, practically anywhere in the world. Take a smartphone and follow this procedure to check its operation. First, disconnect all types of connections. Turn off Wi-Fi, Bluetooth, and remove any SIM card from the device. Access the browser and try to open any page. As expected, nothing will load. This shows that the device is completely isolated from any conventional network. If you are not yet a subscriber, take this opportunity to join our community.
Sign up now and stay up to date with all the news, tips, and exclusive content we have prepared for you. This way, you will not miss any new videos, and you will also help us to grow and bring you more and more quality information. Now, connect the charger's USB cable to your smartphone, with the assembled device plugged into the socket. Wait a few seconds and observe. Little by little, the browser will start loading pages, YouTube will start displaying videos in reasonable quality, and you can now browse normally. This device works based on the principles of electromagnetic induction and reception of high-frequency radio waves.
The copper wire winding on the charger pins creates small coils that when in contact with electromagnetic fields present in the environment, such as radio signals, digital TV, nearby towers, and even residual Wi-Fi frequencies, generate a minimum voltage. This experiment is a theoretical demonstration based on real principles of physics and electronics, but results may vary depending on the region, level of electromagnetic interference, signal strength, and quality of materials used. If you liked this experience, share it with your friends, send it to family groups, and comment below what you thought. .
S K R Y B O T
Skrybot. 2023, Video transcriptions from YouTube
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