Howto Social Media Data Grabbing and Archive

Social Media Data Grabbing and Archive

How to archive all your Facebook data

If you want an archive of everything you’ve ever done on Facebook, you can do that here (Settings > Privacy > Your Facebook information. To download a copy, click View next to Download profile information. From there, you can choose the file format, the quality of photos and videos, a date range, and the categories of data you want to grab. When you’re ready, scroll to the bottom of the page and hit Request a download.

How to save and backup your Tiktok data

Just tap Profile at the bottom of the screen, hit the three lines in the top right, and select Settings and privacy. From there, choose Manage account at the top of the page and tap Download your data. Read the explanation, select your preferred file format, and slam that Request data button at the bottom.

How to download your Twitter data

To grab your Twitter archive, head to the account settings page (Settings & privacy on the app) and click on Your account. Then, navigate to Download an archive of your data, where you’ll have to enter your password, log in, or otherwise verify you own the account. When you’re in, hit Request archive to ask for a ZIP file stuffed with your account information, history, activity, ads data, and other details. Once Twitter has processed your request, it’ll send you a link for downloading. You’ll need to have a confirmed email address if you want to go through with the process.

How to download Instagram data

Downloading your Instagram data is on a separate page: From the main menu (three lines), tap Your activity followed by Download your information. Enter an email and hit Request Download to get a link to all your stuff.

How to save your Snapchat data

If you’re still using Snapchat (or you stopped, but want to know what information the company has about you), you can go into your app settings (tap your avatar, then the gear icon in the top right), scroll to the Account Actions heading, and tap My Data. Then, hit Submit Request and enter a valid email address. It will take a while for the company to put your data into a ZIP file (usually a couple hours) and then you’ll get a link that will start the download

DJI’s Avata, DJI Latest Drone

DJI has launch their latest product line in FPV drones named Avata. DJI’s Avata is a smaller, more nimble version of its full-sized FPV drone. The small form factor and ducted propellers allowed me to get much closer to subjects without any worries of injuring them if things went wrong. The Avata’s compact size makes it much lighter, and the ducted props stop it from slicing up any people in its flight path which actually much safer to fly around people and less likely to do damage when crashed..

FPV drones have always been about delivering next-level flight characteristics and footage. These nimble drones broadcast the feed from an onboard camera to the pilot’s goggles. The experience puts you in the proverbial pilot’s seat of the drone.

This ability to fly through small gaps and around people makes the footage much more relatable to the viewer and sometimes referred to as “cinewhoops,” with their slower top speed and smoother flight characteristics prioritizing more relaxed flights over acrobatic movements like flips and rolls.

DJI is really pushing to sell the Avata with its motion controller instead of the conventional controller; the former feels comparable to a joystick for a flight simulator, only with no physical connection. While the goal is to make it more approachable to new pilots, the motion controller felt very muddy and slow.

It’s easy to set up, easy to fly, and components are inexpensive to replace. Once the goggles, controller, and drone are all paired together, all you really need to do is keep the batteries charged.

Another big positive with the Avata is the high-quality video feed coming into the goggles. DJI’s goggles display a high-definition video feed from the drone, giving a clear preview of what’s ahead of the drone and what need to avoid—especially useful when flying through the dense woods.

Avata can shoot video at 4K 60 fps, and 2.7K 120 fps (good for slow motion)—it can also shoot 48-megapixel photos. The Avata can also capture the same top-down style videos/ photos that you’d expect from a Mavic; throw it in normal mode, lower the camera, and you’re in business. It need really fast memory cards. DJI’s list of accepted micro SD cards requires a write speed of above 30 mb/s.

Quiet Supersonic Transport (QueSST) X-59

Quiet Supersonic Transport (QueSST) X-59

NASA’s has developed it newest X-plane, the X-59, which is on track to match or exceed the speed of sound with a test in early 2023. The plane is designed to do what the X-1 supersonic plane did, but quietly.

Instead of a thunderous sonic boom that would disturb people on the ground, it should create a softer, less-intrusive “thump.” If successful, its technology could prove fast and safe enough for future commercial passenger transport and can lift the ban flying supersonic overland.

The QueSST (Quiet Supersonic Transport) X-59 being designed by Lockheed Martin, will take to the skies over the Mojave Desert in California. Residents in several neighborhoods it flies over will be able to provide survey comments about any noise they notice. Engineers now have a deeper understanding of how to shape an aircraft to temper the intensity of a sonic boom, particularly with NASA’s Shaped Sonic Boom Demonstration program in 2003 and 2004.

For everyone info, Supersonic flight over land was banned in 1973. Supersonic flight of any commercial craft ended with the final Concorde Supersonic Jet flight in 2003. 

In the 1960s, the Concorde became the first aircraft ferrying passengers on commercial flights. It traversed the Atlantic Ocean, from JFK International Airport to London Heathrow Airport. Facing a host of practical challenges, including cost, only 14 Concorde aircraft ever went into service.

One brand make to the top of MicroSD Cards world.

These day we use a lot of data. These data need to be saved and reused. Despite many devices coming with high levels of built-in storage these days, microSD cards remain an in-demand accessory for many electronics enthusiasts. These MicroSD memory cards allow users to add more storage to various electronics, to save data separate from a host device, and to transfer data from one machine to another. 

Install yours in your camera, drone, video game console, smartphone, and more. For their small size, microSD cards are one powerhouse accessory.

What specifications that need to consider?

Capacity: 

These days, capacity options range from 16 gigabytes to 1 terabyte, but what capacity you need depends on your use case. A microSD card with a smaller storage capacity might be ideal for an Android smartphone that just needs a little extra storage or an infrequently used point-and-shoot camera for quickly transferring images to your computer. Meanwhile, a microSD card with more storage might be ideal for a DSLR camera or a professional-grade drone.

Many average users can play in the 128 to 512-gigabyte space. It’s rare that you will need to go beyond that unless you’re a professional who knows what you’re doing or you’re willing to spend the money on more capacity.

Any Single Board Computer (SBC) like Raspberry Pi and others also use microSD as their expanded data storage.

Speed Classes: 

The Speed Class (SC) refers to the write speed of a microSD card, or how long it takes for a file to save to the card. The current standard is C10 (Class 10), which offers a minimum write speed of 10 megabytes per second. Practically speaking, today’s microSD cards far exceed this amount. Higher rates are U1 and U3. Lower rates are virtually obsolete at this point.

The Video Speed Class is a newer standard for write speed that allows for the highest resolution images and video. There are five Classes—V6, V10, V30, V60, and V90—offering write speeds between 6 to 90 megabytes per second. V30 and higher, which support 4K and 8K video, tend to be more common.

Application Performance Class: 

The Application Performance Class (APC) determines how fast and well a microSD card can communicate with and transfer data to and from a device. This metric is especially important for electronics that use apps, such as smartphones and computers. The ratings are A1 and A2, with the latter performing more than twice as fast as the first standard.

Formats and Transfer Speeds: 

There are other nuances in microSD cards to consider, such as SDHC versus SDXC formats. MicroSDHC stands for Secure Digital High Capacity; this format includes lower capacity cards, up to 32 gigabytes. MicroSDXC stands for Secure Digital Extra Capacity. As you might guess, this format is for cards with higher capacity, between 32 gigabytes and 2 terabytes. It’s not simply a matter of capacity, though. Certain tech is only compatible with certain card types, so make sure your microSD card will work in the device you need it to. MicroSDXC cards are more common, though microSDHC options are often still available and can often be cheaper.

So... what is the brand that I suggest?

1. Samsung Evo Select with Adapter 128GB

2. Sandisk Ultra 128 GB

3. KINGSTON Canvas Go! Plus 128GB

4. PNY Pro Elite 1TB

5. LEXAR 1000x 128GB

6. KINGSTON Canvas React Plus with Adapters 128GB

Ukraine Starlink Satellite Internet Is Now In Danger

Earlier this year, SpaceX has been bolstered Ukraine’s war effort with about 20,000 of its Starlink satellite-internet terminals. It cost SpaceX around USD 80 million and it will exceed USD 100 million by the end of the year.

SpaceX’s Starlink donations are costing the company $20 million a month. “In addition to terminals, we have to create, launch, maintain & replenish satellites & ground stations & pay telcos for access to Internet via gateways,” he said. “We’ve also had to defend against cyberattacks & jamming, which are getting harder.”

Now, SpaceX CEO Elon Musk is saying his company cannot continue paying for the service. Musk said that the Pentagon should fund any future terminals and service, Musk wrote a letter in  September 8 to the US Department of Defense (DoD).

The Hawthorne, California-based space company has been providing Starlink satellite internet terminals and services since last spring. Since then, the Starlink service has proven pivotal in Ukraine’s fight against Russia, as Moscow’s targeted attacks have destroyed regular cellular phone and internet networks there. Ukraine’s military uses the satellites to stay in communication, while organizing the fight against Russian troop incursions.

Based on what SpaceX estimates a USD 124 million cost for more terminals and ongoing service costs between now and the end of the year. A full year would cost around USD 380 million, according to the letter.

How Can F1 Cars Go Very Fast?

Aerodynamics

In every practical sense, Formula 1 cars are topsy turvy airplanes. While the wings of a plane give lift, F1 carss use the contrary impact — called downforce — to keep them adhered to the track. Be that as it may, it means quite a bit to track down the right harmony among downforce and drag.

Downforce is perfect, as it pushes down on the tires to keep the car adhered to the track. Having said that, F1 cars produce more downforce as they speed up, which can dial them back on straightaways. This gives aerodynamicists a huge cerebral pain, as they need to boost straight-line speed while keeping up with adequate downforce for the corners.

Groups normally got around this peculiarity by building front wings that flex at the very high velocities you'd anticipate on straightaways. While the wing flexes, it diminishes its approach, taking into account all the more straight-line speed from the vehicle at the expense of less downforce.

Fortunately, F1 thought of another arrangement called the Drag Reduction System (DRS) — first carried out during the 2011 season. It brought down one of the folds in the back wing at the press of a button to diminish the drag and downforce. During the race, there are sure zones where drivers can enact DRS when they are something like one second behind the car in front.

Material Science

Formula 1 cars should be areas of strength for inconceivably being heavy. For this reason most of parts on an Formula 1 cars are made totally out of carbon fiber — a material that was first made for use in racing cars.

In any case, these parts dissipated all through the vehicle need to adapt to immensely unique strength and temperature prerequisites. Carbon fiber is made by winding around carbon "filaments" and holding them together in a resin. Teams can play with carbon-fiber layups — various weaves — as well as various resin to advance the thermal and underlying respectability of various parts. Team are continuously endeavoring to make parts that are precisely essentially serious areas of strength for as they should be. Excessively solid and they'll burden the car pointlessly; excessively feeble, and they'll fizzle.

Tires

Being the quickest racing cars on the planet, Formula 1 vehicles need tires that can adapt to outrageous cornering powers and similarly savage impetus from the motor. To offer some viewpoint, F1 vehicles use turbocharged 1.6-liter mixture motors that wrench out an expected 1,000 strength and 500 ft-lb of force; they additionally have enough downforce to produce up to four Gs in the corners.

Right away, you'll probably see that F1 cars utilize smooth tires (with practically no tread) that are a lot more extensive than those in any street cars. This absence of tread takes into account more everything to become real — consequently expanding footing. That is perfect, however these race-explicit tires produce close to no hold when they're cold. F1 racing elastic rubber is intended to work at a lot higher temperatures from the outrageous burdens they experience during a racing lap.

A ton of the F1 tire's performance has to do with its elastic compound, which is a lot stickier (and subsequently less solid) than you'd track down on a street vehicle. While the tires on your street cars are made to endure, Formula 1 elastic will not really come to the furthest limit of a race — drivers are expected to make a refueling break (pit stop).