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Figure shows a boy cycles from A to B, and then from B to C.
i ) Calculate the distance travelled by the boy and the displacement of the boy.
ii ) Calculate the speed and the velocity of the boy if the boy took 10 s to cycle from A to B and then to C.
iii) then the boy travelled back to A from C, calculate the total distance and displacement travelled by the boy.
Tips to answer this question :
Distance is the actual distance that was covered
Distance depends on the path, from point A --> B --> C in the figure.
Distance (symbol d) does not have a direction, so it is a scalar . It always positive
Displacement (symbol s) is the shortest distance from the starting point to the endpoint.
Distance independent of path taken , from point A to C in the figure.
Displacement has direction and is therefore a vector. It can be positive or negative
Speed is rate of change of distance. Speed is scalar quantity
Velocity is rate of change of displacement. Velocity vector quantity.
Answer :
Distance from A to B and then to is
3 m + 4 m
= 7 m
Displacement from A to B and then to C is 5 m.
Speed from A to B and then to C
7 m / 10 s
= 0.7 m/s
Velocity from A to B and then to C is
5 m /10 s
= 0.5 m/s.
Distance from A-> B-> C -> B -> C is
3 m + 4 m + 3 m + 4 m
= 14 m
Displacement from A-> B-> C -> B -> C is
5 m - 5 m
= 0 m
( Because the boy's location is the same as his starting location, we use negative sign to indicate opposite direction )
Difference between scalar and vector quantities ,
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Monday, February 28, 2011
Distance and displacement
Figure shows a boy cycles from A to B, and then from B to C.
i ) Calculate the distance travelled by the boy and the displacement of the boy.
ii ) Calculate the speed and the velocity of the boy if the boy took 10 s to cycle from A to B and then to C.
iii) then the boy travelled back to A from C, calculate the total distance and displacement travelled by the boy.
Tips to answer this question :
Distance is the actual distance that was covered
Distance depends on the path, from point A --> B --> C in the figure.
Distance (symbol d) does not have a direction, so it is a scalar . It always positive
Displacement (symbol s) is the shortest distance from the starting point to the endpoint.
Distance independent of path taken , from point A to C in the figure.
Displacement has direction and is therefore a vector. It can be positive or negative
Speed is rate of change of distance. Speed is scalar quantity
Velocity is rate of change of displacement. Velocity vector quantity.
Answer :
Distance from A to B and then to is
3 m + 4 m
= 7 m
Displacement from A to B and then to C is 5 m.
Speed from A to B and then to C
7 m / 10 s
= 0.7 m/s
Velocity from A to B and then to C is
5 m /10 s
= 0.5 m/s.
Distance from A-> B-> C -> B -> C is
3 m + 4 m + 3 m + 4 m
= 14 m
Displacement from A-> B-> C -> B -> C is
5 m - 5 m
= 0 m
( Because the boy's location is the same as his starting location, we use negative sign to indicate opposite direction )
Sunday, February 27, 2011
Understanding scalar and vector quantities
In this unit you should be able to
- define scalar and vector quantities
- give examples of scalar and vector quantities.
Difference between scalar and vector quantities ,
1. Scalar quantities are quantities that have magnitude but no direction.
2. Vector quantities are quantities that have both magnitude and direction.
Examples of scalar and vector quantities:
Scalar Quantities | Vector Quantities |
Distance | Displacement |
Speed | Velocity |
Work | Acceleration |
Area | Force |
Length | Momentum |