One example of where you would use a binary search tree would be a sorted list of values where you want to be able to quickly add elements.

Consider using an array for this purpose. You have very fast access to read random values, but if you want to add a new value, you have to find the place in the array where it belongs, shift everything over, and then insert the new value.

With a binary search tree, you simply traverse the tree looking for where the value would be if it were in the tree already, and then add it there.

Also, consider if you want to find out if your sorted array contains a particular value. You have to start at one end of the array and compare the value you’re looking for to each individual value until you either find the value in the array, or pass the point where it would have been. With a binary search tree, you greatly reduce the number of comparisons you are likely to have to make. Just a quick caveat, however, it is definitely possible to contrive situations where the binary search tree requires more comparisons, but these are the exception, not the rule.