I think your assignment has a typo. The MIPS
sll instruction only supports 5 bits worth of shifting. That is, the field in the instruction encoding is only 5 bits long, so only shift values in [0,31] are legal. In fact, if I try to assemble this simple program:
sll $t2, $t0, 44
I get a warning from gcc saying:
example.s: Assembler messages:
example.s:3: Warning: Improper shift amount (44)
Dissassembling the output object shows:
Disassembly of section .text:
0: 00085300 sll t2,t0,0xc
So as you can see, it's only going to actually shift by 12. It's just reduced the shift amount modulo 32. What this outcome means is that an instruction like the one provided in your assignment simply isn't legal.
Another possible answer to your question is just
0 since left-shifting any number by more than its size is might arguably logically result in a register full of zeroes. A similar argument works for right shifting, though you will either end up with
0xffffffff, depending on sign-extension behaviour and what happened to be in bit 31 when you started.