1. Home
  2. Physics - grade 10 [caps 2011]
  3. Physics - grade 10 [caps 2011]
  4. Motion in one dimension

0.2 Motion in one dimension  (Page 13/16)

<< Chapter < Page
  Physics - grade 10 [caps 2011]     Page 13 / 16
Chapter >> Page >

The velocity vs. time graph of a truck is plotted below. Calculate the distance and displacement of the truck after 15 seconds.

  1. We are asked to calculate the distance and displacement of the car. All we need to remember here is that we can use the area between the velocity vs. time graph and the time axis to determine the distance and displacement.

  2. Break the motion up: 0 – 5 seconds, 5 – 12 seconds, 12 – 14 seconds and 14 – 15 seconds.

    For 0 – 5 seconds: The displacement is equal to the area of the triangle on the left:

    Area = 1 2 b × h = 1 2 × 5 s × 4 m · s - 1 = 10 m
    For 5 – 12 seconds: The displacement is equal to the area of the rectangle:
    Area = × b = 7 s × 4 m · s - 1 = 28 m 2

    For 12 – 14 seconds the displacement is equal to the area of the triangle above the time axis on the right:

    Area = 1 2 b × h = 1 2 × 2 s × 4 m · s - 1 = 4 m
    For 14 – 15 seconds the displacement is equal to the area of the triangle below the time axis:
    Area = 1 2 b × h = 1 2 × 1 s × 2 m · s - 1 = 1 m

  3. Now the total distance of the car is the sum of all of these areas:

    Δ x = 10 m + 28 m + 4 m + 1 m = 43 m

  4. Now the total displacement of the car is just the sum of all of these areas. HOWEVER, because in the last second (from t = 14 s to t = 15 s) the velocity of the car is negative, it means that the car was going in the opposite direction, i.e. back where it came from! So, to find the total displacement, we have to add the first 3 areas (those with positive displacements) and subtract the last one (because it is a displacement in the opposite direction).

    Δ x = 10 m + 28 m + 4 m - 1 m = 41 m in the positive direction

The position vs. time graph below describes the motion of an athlete.

  1. What is the velocity of the athlete during the first 4 seconds?
  2. What is the velocity of the athlete from t = 4 s to t = 7 s?

  1. The velocity is given by the gradient of a position vs. time graph. During the first 4 seconds, this is

    v = Δ x Δ t = 4 m - 0 m 4 s - 0 s = 1 m · s - 1

  2. For the last 3 seconds we can see that the displacement stays constant. The graph shows a horisontal line and therefore the gradient is zero. Thus v = 0 m · s - 1 .

The acceleration vs. time graph for a car starting from rest, is given below. Calculate the velocity of the car and hence draw the velocity vs. time graph.

  1. The motion of the car can be divided into three time sections: 0 – 2 seconds; 2 – 4 seconds and 4 – 6 seconds. To be able to draw the velocity vs. time graph, the velocity for each time section needs to be calculated. The velocity is equal to the area of the square under the graph:

    For 0 – 2 seconds:

    Area = × b = 2 s × 2 m · s - 2 = 4 m · s - 1
    The velocity of the car is 4 m · s - 1 at t = 2s.For 2 – 4 seconds:
    Area = × b = 2 s × 0 m · s - 2 = 0 m · s - 1
    The velocity of the car is 0 m · s - 1  from t = 2 s to t = 4 s.For 4 – 6 seconds:
    Area = × b = 2 s × - 2 m · s - 2 = - 4 m · s - 1
    The acceleration had a negative value, which means that the velocity is decreasing. It starts at a velocity of 4 m · s - 1  and decreases to 0 m · s - 1 .

  2. The velocity vs. time graph looks like this:

<< Chapter < Page Page > Chapter >>

Read also:

Get Jobilize Job Search Mobile App in your pocket Now!

Get it on Google Play Download on the App Store Now




Source:  OpenStax, Physics - grade 10 [caps 2011]. OpenStax CNX. Jun 14, 2011 Download for free at http://cnx.org/content/col11298/1.3
Google Play and the Google Play logo are trademarks of Google Inc.

Notification Switch

Would you like to follow the 'Physics - grade 10 [caps 2011]' conversation and receive update notifications?

Ask