Figure 2.22Strategy
Average velocity is displacement divided by time. It will be negative here, since the train moves to the left and has a negative displacement.
Solution1. Identify the knowns.x′f= 3.75 km,x′ 0 = 5.25 km,Δt= 5.00 min.
2. Determine displacement,Δx′. We foundΔx′to be − 1.5 kminExample 2.2.
- Solve for average velocity.
(2.19)
v- =Δx′
Δt
=−1.50 km
5.00 min
- Convert units.
(2.20)
v
-
=Δx′
Δt
=
⎛
⎝−1.50 km
5.00 min
⎞
⎠⎛
⎝60 min
1 h
⎞⎠= −18.0 km/h
Discussion
The negative velocity indicates motion to the left.Example 2.7 Calculating Deceleration: The Subway Train
Finally, suppose the train inFigure 2.22slows to a stop from a velocity of 20.0 km/h in 10.0 s. What is its average acceleration?
Strategy
Once again, let’s draw a sketch:Figure 2.23As before, we must find the change in velocity and the change in time to calculate average acceleration.
Solution1. Identify the knowns.v 0 = −20 km/h,vf= 0 km/h,Δt= 10.0 s.
2. CalculateΔv. The change in velocity here is actually positive, since
Δv=vf−v 0 = 0 −(−20 km/h)=+20 km/h. (2.21)
3. Solve for a-.
(2.22)
a-=Δv
Δt
=+20.0 km/h
10.0 s
- Convert units.
(2.23)
a
-
=
⎛
⎝+20.0 km/h
10.0 s
⎞
⎠⎛
⎝103 m
1 km
⎞
⎠⎛
⎝1 h
3600 s
⎞⎠= +0.556 m/s
2
Discussion
The plus sign means that acceleration is to the right. This is reasonable because the train initially has a negative velocity (to the left) in this
problem and a positive acceleration opposes the motion (and so it is to the right). Again, acceleration is in the same direction as thechangein50 CHAPTER 2 | KINEMATICS
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