If you edit files in various formats daily, the universality of the document tools matters a lot. If your instruments work with only some of the popular formats, you may find yourself switching between software windows to clean pattern in FTM and manage other document formats. If you want to remove the headache of document editing, go for a platform that can effortlessly handle any extension.
With DocHub, you do not need to concentrate on anything but actual document editing. You won’t have to juggle programs to work with various formats. It will help you edit your FTM as effortlessly as any other extension. Create FTM documents, edit, and share them in one online editing platform that saves you time and improves your productivity. All you need to do is sign up an account at DocHub, which takes only a few minutes or so.
You won’t need to become an editing multitasker with DocHub. Its feature set is enough for speedy papers editing, regardless of the format you need to revise. Begin with creating an account to see how effortless document management might be with a tool designed particularly to suit your needs.
[Music] welcome back to microbiology lab my name is Kevin toh cough please make sure to like this video and subscribe to my channel for future videos and notifications in this video were going to discuss a test in microbiology called fluid via glycol 8 media or FTM youll see it sometimes abbreviated ASP and this is a test that specifically determines an organisms arrow tolerance so what is arrow tolerance arrow tolerance is basically just an organisms ability to live or survive at a particular level of oxygen and so some bacteria survive or like to live at high levels of oxygen some like to live at low levels of oxygen and then theres some where theres a little bit in between okay little gray area there and so what we do is we have a test tube okay this is where our media is RF TM and towards the top of the media in all of these the top has high oxygen levels the bottom of the media has low oxygen levels and so what happens is we basically create an oxygen gradient okay so as we