1.4 Acceleration (Page 5/10)

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Calculate acceleration: a subway train slowing down

Now suppose that at the end of its trip, the train in [link] (a) slows to a stop from a speed of 30.0 km/h in 8.00 s. What is its average acceleration while stopping?

Strategy

A velocity vector arrow pointing toward the right with initial velocity of thirty point zero kilometers per hour and final velocity of 0. An acceleration vector arrow pointing toward the left, labeled a equals question mark.

In this case, the train is decelerating and its acceleration is negative because it is toward the left. As in the previous example, we must find the change in velocity and the change in time and then solve for acceleration.

Solution

1. Identify the knowns. $v_{0} = 30 .0 km/h$ , $v_{f} = 0 km/h$ (the train is stopped, so its velocity is 0), and $Δ t = 8.00 s$ .

2. Solve for the change in velocity, $Δ v$ .

Δ v = v_{f} - v_{0} = 0 - 30 . 0 km/h = - 30 .0 km/h

3. Plug in the knowns, $Δ v$ and $Δ t$ , and solve for $\bar{a}$ .

\bar{a} = \frac{Δ v}{Δ t} = \frac{- 30 . 0 km/h}{8 . 00 s}

4. Convert the units to meters and seconds.

\bar{a} = \frac{Δ v}{Δ t} = (\frac{- 30.0 km/h}{8.00 s}) (\frac{10^{3} m}{1 km}) (\frac{1 h}{3600 s}) = {−1.04 m/s}^{2} .

Discussion

The minus sign indicates that acceleration is to the left. This sign is reasonable because the train initially has a positive velocity in this problem, and a negative acceleration would oppose the motion. Again, acceleration is in the same direction as the change in velocity, which is negative here. This acceleration can be called a deceleration because it has a direction opposite to the velocity.

The graphs of position, velocity, and acceleration vs. time for the trains in [link] and [link] are displayed in [link] . (We have taken the velocity to remain constant from 20 to 40 s, after which the train decelerates.)

Three graphs. The first is a line graph of position in meters versus time in seconds. The line begins at the origin and has a concave up shape from time equals zero to time equals twenty seconds. It is straight with a positive slope from twenty seconds to forty seconds. It is then convex up from forty to fifty seconds. The second graph is a line graph of velocity in meters per second versus time in seconds. The line is straight with a positive slope beginning at the origin from 0 to twenty seconds. It is flat from twenty to forty seconds. From forty to fifty seconds the line is straight with a negative slope back down to a velocity of 0. The third graph is a line graph of acceleration in meters per second per second versus time in seconds. The line is flat with a positive constant acceleration from zero to twenty seconds. The line then drops to an acceleration of 0 from twenty to forty seconds. The line drops again to a negative acceleration from forty to fifty seconds. — (a) Position of the train over time. Notice that the train's position changes slowly at the beginning of the journey, then more and more quickly as it picks up speed. Its position then changes more slowly as it slows down at the end of the journey. In the middle of the journey, while the velocity remains constant, the position changes at a constant rate. (b) Velocity of the train over time. The train's velocity increases as it accelerates at the beginning of the journey. It remains the same in the middle of the journey (where there is no acceleration). It decreases as the train decelerates at the end of the journey. (c) The acceleration of the train over time. The train has positive acceleration as it speeds up at the beginning of the journey. It has no acceleration as it travels at constant velocity in the middle of the journey. Its acceleration is negative as it slows down at the end of the journey.

Calculating average velocity: the subway train

What is the average velocity of the train in part b of [link] , and shown again below, if it takes 5.00 min to make its trip?

The train moves toward the left, from an initial position of 5 point 25 kilometers to a final position of 3 point 75 kilometers.

Strategy

Average velocity is displacement divided by time. It will be negative here, since the train moves to the left and has a negative displacement.

Solution

1. Identify the knowns. ${x'}_{f} = 3 .75 km$ , ${x'}_{0} = 5.25 km$ , $Δ t = 5.00 min$ .

2. Determine displacement, $Δ x'$ . We found $Δ x'$ to be $- 1.5 km$ in [link] .

3. Solve for average velocity.

\bar{v} = \frac{Δ x'}{Δ t} = \frac{- 1.50 km}{5.00 min}

4. Convert units.

\bar{v} = \frac{Δ x'}{Δ t} = (\frac{- 1 . 50 km}{5 . 00 min}) (\frac{60 min}{1 h}) = - 18 .0 km/h

Discussion

The negative velocity indicates motion to the left.

Calculating deceleration: the subway train

Finally, suppose the train in [link] slows 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:

A velocity vector arrow pointing to the left with initial velocity of negative twenty point 0 kilometers per hour and a final velocity of 0. An acceleration vector arrow pointing toward the right, labeled a equals question mark.

As before, we must find the change in velocity and the change in time to calculate average acceleration.

Solution

1. Identify the knowns. $v_{0} = - 20 km/h$ , $v_{f} = 0 km/h$ , $Δ t = 10 . 0 s$ .

2. Calculate $Δ v$ . The change in velocity here is actually positive, since

Δ v = v_{f} - v_{0} = 0 - (- 20 km/h) = + 20 km/h .

3. Solve for $\bar{a}$ .

\bar{a} = \frac{Δ v}{Δ t} = \frac{+ 20 .0 km/h}{10 . 0 s}

4. Convert units.

\bar{a} = (\frac{+ 20 . 0 km/h}{10 . 0 s}) (\frac{10^{3} m}{1 km}) (\frac{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 the change in velocity, which is positive here. As in [link] , this acceleration can be called a deceleration since it is in the direction opposite to the velocity.

Questions & Answers

if three forces F1.f2 .f3 act at a point on a Cartesian plane in the daigram .....so if the question says write down the x and y components ..... I really don't understand

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it is the force or component of the force that the surface exert on an object incontact with it and which acts perpendicular to the surface

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Acceleration is a rate of change in velocity.

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t =r×f

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Source: OpenStax, Sample chapters: openstax college physics for ap® courses. OpenStax CNX. Oct 23, 2015 Download for free at http://legacy.cnx.org/content/col11896/1.9

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