Whether you are already used to dealing with LOG or managing this format the very first time, editing it should not seem like a challenge. Different formats might require particular software to open and modify them properly. Nevertheless, if you have to quickly cut number in LOG as a part of your typical process, it is advisable to find a document multitool that allows for all types of such operations without the need of additional effort.
Try DocHub for streamlined editing of LOG and also other document formats. Our platform offers easy document processing no matter how much or little previous experience you have. With all tools you need to work in any format, you will not need to switch between editing windows when working with each of your papers. Easily create, edit, annotate and share your documents to save time on minor editing tasks. You will just need to sign up a new DocHub account, and then you can start your work immediately.
See an improvement in document processing productivity with DocHub’s straightforward feature set. Edit any document quickly and easily, regardless of its format. Enjoy all the benefits that come from our platform’s simplicity and convenience.
now lets talk about graphing logarithmic functions lets go over the four basic shapes so lets say if you have log x where x and y are both positive kind of like what we did in the last lesson in this case the graph is going to travel towards quadrant one logarithmic functions are basically the inverse of an exponential function exponential functions contain a horizontal asymptote logarithmic functions contain a vertical asymptote exponential functions they increase at an increase in rate logarithmic functions they increase at a decrease in rate so lets say if we were to put 2 to the x and log to the x on the same graph this is the basic curve of 2 to the x and the graph log base 2 dx looks like this im going to highlight it in blue these two functions are inverse functions an inverse function reflects across the line y equals zero with its counterpart so lets say this is f this is the inverse of f they reflect about the line y equals x now what is the graph of log of negative x