Once the program that created the linked list is closed without deleting the dynamic memory and I know that dynamic memory needs to be deleted then how can i get it back to work after reopening the program and if i can't get back the linked list then what is the use of linked list
When you exit the program everything it has is gone. Including linked and unlinked lists, arrays, solo object and all.
If you want something to persist you must save it, then load it bask. Like in a text editor you use load and save.
There are full libraries to help the issue, you may start with boost::serialization .
A linked list on its own has nothing to do with data persisting.
A linked list, when compared to other data structure has specific performance characteristics. It is unknown how long it might take to find a specific element, one might have to traverse the entire list(linear time), however insertions and deletions always take the same small fixed amount of time(constant time).
You might want to read about the STL containers as they have similar data structure inside them: In which scenario do I use a particular STL Container?
If you want data to persist beyond the running time of your application you research reading/writing to files, databases, network communication or whatever persistence mechanism might meet your specific needs.
The point of a linked list is that it's a flexible data structure for your code to use - it doesn't have a fixed length like an array, so you can add and remove items as much as you need to.
The reason people talk about dynamic memory allocation is because it's memory allocation which depends on the runtime behaviour of your program, which could change based on data which it reads. This is as opposed to static memory allocation, which is largely the same for a given code path for every run, and is much harder to work with for some problems. However, on some embedded systems it's your only option, and working within static memory allocation can also be faster in some cases (dynamic allocation tends to have a speed penalty associated with it).
The whole topic is quite complicated actually, and frequently gives me a headache.
Dynamically-allocated memory does not persist between runs of a program - the operating system cleans it all up when the program shuts down - so there is no relationship between dynamic memory allocation and data persistence. You have to use other mechanisms, usually storing on disc somewhere, for that. You can't get the memory back after the process has gone, that's the essence of the modern 'protected memory' model of multitasking where you can't access or even see memory which belongs to other processes. 'Other processes' includes subsequent runs of the same executable.