Lesson Worksheet: Position, Displacement, and Distance Mathematics

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In this worksheet, we will practice differentiating between position, displacement, and distance traveled, including problems that use vector notation.

Q1:

You traveled 213 miles from California to San Francisco. Does the “213 miles” represent distance or displacement?

ADisplacement
BDistance

Q2:

Using the given figure, calculate the distance, , covered by a body that moves from point to point then returns to point and its displacement, .

Q3:

A person ran 160 m east and then 175 m north. Find the total distance covered by the person.

Q4:

A car moved east and then north. Find the magnitude and direction of its displacement, rounding the angle to the nearest minute.

A meters, north of east
B meters, north of west
C375 meters, north of east
D meters, south of east
E meters, north of east

Q5:

According to the figure, a body moved from to along the line segment , and then it moved to along . Finally, it moved to along and stopped there. Find the distance covered by the body and the magnitude of its displacement .

Q6:

A particle started moving in a straight line. After seconds, its position relative to a fixed point is given by Find the displacement of the particle during the first five seconds.

A5 m
B6 m
C40 m
D12 m

Q7:

If the position vector of a body at time is given by , find its displacement .

Q8:

The position vector of a particle relative to the point is given by the relation , where is a fixed unit vector and is the time. Find the displacement of the particle after 3 seconds.

Q9:

A moving particle has a position vector given by the relation , where and are the unit vectors. Find the magnitude of the particle’s displacement during the interval 2 to 6 seconds.

Q10:

Using point and direction vector , give the position vector of the point on this line corresponding to parameter .

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