char **argv, holds the input that you can give to your c application. Each argv position will hold a string, string in c are represented by array of chars.
So since you can give more than one argument to your application, this means that you can have more that one string, therefore more that one array of char. Thus char **argv.
When you do ./your_application 1 10 3. argv holds 1 10 3 like this:
argv = "1";
argv = "10";
argv = "3";
Argc will tell you the number of arguments that your_application received. In this example argc = 3.
When you know the size you can do something like this char array[M] when you don't know by hand the size you do char *array;. Basically saying that variable array will point to the first memory position of the future array of chars.
You can go deeper, you what to have multiple string so you can do char array[N][M] or if you don't know the size char **array. Following the same line of though, the first pointer points to the first memory position of the array of chars, and the second pointer to the char of the first array of chars.
Why does **argv point to the first char and not the whole string?
Because argv is an array of array of chars, so the first point already points to the first array of chars, and therefore the second pointer will point to the first char of this array.
So *argv, is the same because the pointer points to the array of chars, and you specify the position that you want, in this case is zero so it will be the first char of the array you point to.
You could also specify the array of char that you want doing something like argv, in this case you are pointing to the first char of the second array.
The 2D array are sequentially allocated in memory, that why **argv points to the first position of the 2D array, because you have to know where did the 2D arrays will start.
After the 2D is allocated in memory, you can know specify directly the position on want to access by doing for example 2D_array;