Final answer:
The object moves 32.5 meters east while it is accelerating, based on the given initial velocity, constant acceleration, and time duration.
Step-by-step explanation:
To calculate the displacement of an object undergoing constant acceleration, we can use one of the kinematic equations derived from the principles of classical mechanics. Specifically, we can use the equation:
s = ut + 1/2at²
Where:
- s is the displacement
- u is the initial velocity
- a is the acceleration
- t is the time
Given an initial velocity (u) of 2.0 m/s, a constant acceleration (a) of 1.80 m/s², and a time (t) of 5.00 s, we substitute these values into the equation:
s = (2.0 m/s)(5.00 s) + 1/2(1.80 m/s²)(5.00 s)²
Calculating the displacement:
s = 10.0 m + 1/2(1.80 m/s²)(25.0 s²)
s = 10.0 m + 1/2(45.0 m)
s = 10.0 m + 22.5 m
s = 32.5 m
Therefore, the object moves 32.5 meters east while it is accelerating.