The firmware file is the Executable and Linkable File, usually processed to a binary (.bin) or text represented binary (.hex).
This binary file is the exact memory that is written to the embedded flash. When you first power the board, an internal bootloader will redirect the execution to your firmware entry point, normally at the address 0x0.
From there, it is your code that is running, this is why you have a startup code (usually startup.s file) that will configure clock, stack pointer registers, vector table, load the data section to RAM (your initialized variables), clear the zero initialized section, maybe you will want to copy your code to RAM and jump to the copy to avoid running code from FLASH (can be faster on some platforms), and so on.
When running over an Operational System, all these platform choices and resources are not in control of user code, there you can only link to the OS libraries and use the provided API to do low level actions. In embedded, it is 100% user code, you access the hardware and manage its resources.
Not surprisingly, Operational Systems are booted in a similar manner as firmware, since both are there in touch with the processor, memory and I/Os.
All of that, to say: the structure of a firmware is similar to the structure of any compiled program. There's the data sections and code sections that are organized in memory during the load by the Operational System, or by the program itself when running on embedded.
One main difference is the memory addressing in the firwmare binary, usually addresses are physical RAM address, since you do not have memory mapping feature on most of micro-controllers. This is transparent to the user, the compiler will abstract it.
Other significant difference is the stack pointer, on OSs user code will not reserve memory for the stack by itself, it relays on OS for that. When on firmware, you have to do it in user code for the same reason as before, there's no middle man to manage it for you. The linker script of the compiler will reserve Stack and Heap memory accordingly configured and there will be a
stack_pointer symbol on your .map file letting you know where it points to. You won't find it in OSs program's map files.