2.2 Coordinate systems and components of a vector (Page 4/15)

University physics volume 1 Page 4 / 15

Let us return to the right triangle in [link] . The quotient of the adjacent side $A_{x}$ to the hypotenuse A is the cosine function of direction angle $θ_{A}$ , $A_{x} / A = cos θ_{A}$ , and the quotient of the opposite side $A_{y}$ to the hypotenuse A is the sine function of $θ_{A}$ , $A_{y} / A = sin θ_{A}$ . When magnitude A and direction $θ_{A}$ are known, we can solve these relations for the scalar components:

{\begin{matrix} A_{x} = A cos θ_{A} \\ A_{y} = A sin θ_{A} \end{matrix} .

When calculating vector components with [link] , care must be taken with the angle. The direction angle $θ_{A}$ of a vector is the angle measured counterclockwise from the positive direction on the x -axis to the vector. The clockwise measurement gives a negative angle.

Components of displacement vectors

A rescue party for a missing child follows a search dog named Trooper. Trooper wanders a lot and makes many trial sniffs along many different paths. Trooper eventually finds the child and the story has a happy ending, but his displacements on various legs seem to be truly convoluted. On one of the legs he walks 200.0 m southeast, then he runs north some 300.0 m. On the third leg, he examines the scents carefully for 50.0 m in the direction

30 °

west of north. On the fourth leg, Trooper goes directly south for 80.0 m, picks up a fresh scent and turns

23 °

west of south for 150.0 m. Find the scalar components of Trooper’s displacement vectors and his displacement vectors in vector component form for each leg.

Strategy

Let’s adopt a rectangular coordinate system with the positive x -axis in the direction of geographic east, with the positive y -direction pointed to geographic north. Explicitly, the unit vector

\hat{i}

of the x -axis points east and the unit vector

\hat{j}

of the y -axis points north. Trooper makes five legs, so there are five displacement vectors. We start by identifying their magnitudes and direction angles, then we use [link] to find the scalar components of the displacements and [link] for the displacement vectors.

Solution

On the first leg, the displacement magnitude is

L_{1} = 200.0 m

and the direction is southeast. For direction angle

θ_{1}

we can take either

45 °

measured clockwise from the east direction or

45 ° + 270 °

measured counterclockwise from the east direction. With the first choice,

θ_{1} = −45 °

. With the second choice,

θ_{1} = + 315 °

. We can use either one of these two angles. The components are

\begin{array}{l} L_{1 x} = L_{1} cos θ_{1} = (200.0 m) cos 315 ° = 141.4 m, \\ L_{1 y} = L_{1} sin θ_{1} = (200.0 m) sin 315 ° = −141.4 m . \end{array}

The displacement vector of the first leg is

{\vec{L}}_{1} = L_{1 x} \hat{i} + L_{1 y} \hat{j} = (141.4 \hat{i} - 141.4 \hat{j}) m .

On the second leg of Trooper’s wanderings, the magnitude of the displacement is $L_{2} = 300.0 m$ and the direction is north. The direction angle is $θ_{2} = + 90 °$ . We obtain the following results:

\begin{matrix} L_{2 x} & = & L_{2} cos θ_{2} = (300.0 m) cos 90 ° = 0.0, \\ L_{2 y} & = & L_{2} sin θ_{2} = (300.0 m) sin 90 ° = 300.0 m, \\ {\vec{L}}_{2} & = & L_{2 x} \hat{i} + L_{2 y} \hat{j} = (300.0 m) \hat{j} . \end{matrix}

On the third leg, the displacement magnitude is $L_{3} = 50.0 m$ and the direction is $30 °$ west of north. The direction angle measured counterclockwise from the eastern direction is $θ_{3} = 30 ° + 90 ° = + 120 °$ . This gives the following answers:

\begin{matrix} L_{3 x} & = & L_{3} cos θ_{3} = (50.0 m) cos 120 ° = −25.0 m, \\ L_{3 y} & = & L_{3} sin θ_{3} = (50.0 m) sin 120 ° = + 43.3 m, \\ {\vec{L}}_{3} & = & L_{3 x} \hat{i} + L_{3 y} \hat{j} = (−25.0 \hat{i} + 43.3 \hat{j}) m . \end{matrix}

On the fourth leg of the excursion, the displacement magnitude is $L_{4} = 80.0 m$ and the direction is south. The direction angle can be taken as either $θ_{4} = −90 °$ or $θ_{4} = + 270 °$ . We obtain

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Practice Key Terms 8

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Source: OpenStax, University physics volume 1. OpenStax CNX. Sep 19, 2016 Download for free at http://cnx.org/content/col12031/1.5

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