Host Secure .onion Tor Hidden Services on Windows, Linux, Android, Arduino Yun, Raspberry Pi A mention of the deep web can bring to mind images of drugs, hackers, and other criminal activity. Despite the presence of these elements, the Tor network is a valuable tool for preserving privacy and anonymity. And browsing the deep web and any hidden services can be as simple as downloading the Tor Browser . So what’s a hidden service? It’s pretty much the same thing as a website on the regular internet, only it uses Tor’s technology to stay secure. In some cases, someone who creates a hidden service, also known as an onion service, can remain anonymous. Anyone can create a hidden service and make them accessible via a custom onion address, as you’ll soon see. Step 1Understand How the Tor Network Works Accessing the internet directly without a proxy, VPN, or other privacy service relays information in a relatively linear fashion. A device

Who Is Using Tor? Tor has been endorsed by the EFF, The Guardian, Forbes, and Gizmodo, and Null Byte frequently encourages it for browsing or hosting. The misconception that Tor is only used by criminals is completely false. So who are these two million users accessing the Tor network every day? According to Tor: Normal people. The two most common reasons regular people use Tor is to circumvent censorship and broad mass surveillance. World news, culture, health issues, religions, and other types of information can be locked behind a national firewall that Tor can break through. Also, internet service providers (ISPs) sell our browsing records to marketers or anyone willing to pay for it, and Tor can help prevent that. Journalists and their audience. “Tor is part of SecureDrop, an open-source whistleblower submission system that media organizations can use to securely accept documents from and communicate with anonymous sources. Many reputable news organizations use SecureDrop.” Law enforcement officers. Tor allows

Synthesis of SnI 4 Direct reaction of tin metal with iodine in methylene chloride yields SnI 4 as the principal product, with formation of SnI 2 as a side reaction. Sn + 2I 2 + SnI 4 Sn + I 2 + SnI 2 SnI 4 is a red-orange solid; SnI 2 is a yellow-red solid. Color due to polarizability of I – , probably involving charge transfer (I+ Sn).   SnI 2 is polar, and SnI 4 is non-polar, As a result SnI 2 is slightly more soluble in CH 2 Cl 2 . SnI 2 is somewhat more ionic and has a higher m.p. SnI 2 m.p. 330 C SnI 4 m.p. = 143-144 C