A-level Physics (Advancing Physics)/Vectors/Worked Solutions
1. Which of the following are vectors?
- 20 cm is scalar, not a vector - it does not have a directional component.
- 9.81 ms^{−2} towards the centre of the earth is a vector.
- 5 km south-east is a vector.
- 500 ms^{−1} on a bearing of 285.3° is a vector.
2. A displacement vector a is the resultant vector of two other vectors, 5 m north and 10 m south-east. What does a equal, as a displacement and a bearing?
Displacement (m) | Bearing (°) | Horizontal Displacement (m) | Vertical Displacement (m)' |
5 | 000 | 0 | 5 |
10 | 135 | , so | , so |
So, for the resultant vector:
This gives us a right-angled triangle. So:
°, so the bearing equals 90° + 16.3° = 106.3°.
3. If I travel at a velocity of 10 ms^{−1} on a bearing of 030°, at what velocity am I travelling north and east?
4. An alternative method of writing vectors is in a column, as follows:
,
where x and y are the vertical and horizontal components of the vector respectively. Express |a| and the angle between a and in terms of x and y.
By Pythagoras' theorem:
Let θ be the angle between a and .
This angle θ is known as the argument of a.
5. A more accurate method of modelling the trajectory of a ball is to include air resistance as a constant force F. How would this be achieved?
Once the arrow representing the acceleration due to gravity has been added on, add an horizontal arrow pushing against the motion of the ball. Since F = ma, the magnitude of this acceleration is F divided by m.
Note that this model is still not perfect. In fact, F is not constant - it depends on the horizontal component of the ball's velocity.