Vector Mechanics for Engineers: Statics and Dynamics
Vector Mechanics for Engineers: Statics and Dynamics
11th Edition
ISBN: 9780073398242
Author: Ferdinand P. Beer, E. Russell Johnston Jr., David Mazurek, Phillip J. Cornwell, Brian Self
Publisher: McGraw-Hill Education
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Chapter 11.4, Problem 11.131P
To determine

The speed (vw) and direction (α) of the wind.

Expert Solution & Answer
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Answer to Problem 11.131P

The speed (vw) and direction (α) of the wind are 15.79km/h_ and 26°_.

Explanation of Solution

Given Information:

The small boat travel north at the speed (vB)y of 5km/h at an angle (θ) of 50° with centerline of the boat.

A short time later the boat travels east at the speed (vB)x of 20km/h at an angle (θ) of 50°.

Calculation:

Consider case (1) while the boat travel north.

Write the speed of ship (vB) in vector notation:

(vB)y=5j

Write the relative velocity (vA/w) of the wind with respective to boat in terms of vector notation.

(vw/B)1=(vw/B)1(sinθi+cosθj)

Substitute 50° for θ.

(vw/B)1=(vw/B)1(sin(50°)i+cos(50°)j)=(vw/B)1sin(50°)i+(vw/B)1cos(50°)j

Write the velocity vector (vW) of the wind:

vW=vwxi+vwyj

Calculate velocity vector (vW) of the wind using the relation:

vW=vB+(vB/w)1=vB(vw/B)1

Substitute vwxi+vwyj for vW, 5j for vB and (vw/B)1sin(50°)i+(vw/B)1cos(50°)j for (vw/B)1.

vwxi+vwyj=(5j)((vw/B)1sin(50°)i+(vw/B)1cos(50°)j)vwxi+vwyj=(5j)+(vw/B)1sin(50°)i(vw/B)1cos(50°)j (1)

Separate the i and j component in the equation (1).

i: vwxi=0+(vw/B)1sin(50°)i (2)

j: vwyj=(5j)(vw/B)1cos(50°)j (3)

Consider case (2) while the boat travel east,

Write the speed of ship (vB) in vector notation:

(vB)x=20i

Write the relative velocity (vw/B)2 of the wind with respective to boat in terms of vector notation.

(vw/B)2=(vw/B)2(cosθi+sinθj)

Substitute 50° for θ.

(vw/B)2=(vw/B)2(cos(50°)i+sin(50°)j)=(vw/B)2cos(50°)i+(vw/B)2sin(50°)j

Write the velocity vector (vW) of the wind:

vW=vwxi+vwyj

Calculate velocity vector (vW) of the wind using the relation:

vW=vB+(vB/w)2=vB(vw/B)2

Substitute vwxi+vwyj for vW, 20j for vB and (vw/B)2sin(50°)i+(vw/B)2cos(50°)j for (vw/B)2.

vwxi+vwyj=(20i)((vw/B)2cos(50°)i+(vw/B)2sin(50°)j)vwxi+vwyj=(20i)(vw/B)2cos(50°)i(vw/B)2sin(50°)j (4)

Separate the i and j component in the equation (1).

i: vwxi=(20i)(vw/B)2cos(50°)i (5)

j: vwyj=0(vw/B)2sin(50°)j (6)

Equate equation (2) and (5).

0+(vw/B)1sin(50°)i=(20i)(vw/B)2cos(50°)i(vw/B)1sin(50°)+(vw/B)2cos(50°)=20 (7)

Equate equation (3) and (6).

(5j)(vw/B)1cos(50°)j=0(vw/B)2sin(50°)j(vw/B)1cos(50°)(vw/B)2sin(50°)=5 (8)

Solve the equation (7) and (8) for (vw/B)1 and (vw/B)2.

The value (vw/B)1 and (vw/B)2 are 18.535km/h and 9.026km/h respectively.

Calculate the x component velocity (vwx) of the wind:

Substitute 18.535km/h for (vw/B)1 in Equation (2).

vwx=18.535sin(50°)=14.198km/h

Calculate the y component velocity (vwy) of the wind:

Substitute 18.535km/h for (vw/B)1 in Equation (3).

vwy=(5)18.535cos(50°)=511.914=6.914km/h

Write velocity (vw) of the wind using the relation:

vw=vwx2+vwy2

Substitute 14.198km/h for vwx and 6.914km/h for vwy.

vw=(14.198)2+(6.914)2=201.583+47.803=15.79km/h

Calculate the angle made by the resultant of vR using the relation:

ϕ=tan1(vwyvwx)

Substitute 14.198km/h for vwx and 6.914km/h for vwy.

ϕ=tan1(6.91414.198)=tan1(0.486)=25.9626°

Therefore, the speed (vw) and direction (α) of the wind are 15.79km/h_ and 26°_.

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Chapter 11 Solutions

Vector Mechanics for Engineers: Statics and Dynamics

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