If the acceleration vector of an object is zero, its velocity vector
(A) is also zero.
(B) is not changing.
(C) can turn but cannot change in length.
(D) can change length but cannot turn.
If the acceleration vector of an object is zero, its velocity vector
(A) is also zero.
No.
Only if it starts out zero.
If the acceleration vector of an object is zero, its velocity vector
(C) can turn but cannot change in length.
No. That would hold for circular motion
acceleration not zero!
If the acceleration vector of an object is zero, its velocity vector
(D) can change length but cannot turn.
No.
That's linear motion
and it can have acceleration.
If the acceleration vector of an object is zero, its velocity vector
(B) is not changing.
Yes.
It's rate of change is zero.