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Let a be the vector of length 125 that when drawn in standard position makes a 144° angle with the positive x-axis. Let b be the vector of length 39 that when drawn in standard position makes a 302° angle with the positive x-axis. Find the length of v = a + b and the angle θ that v makes with the positive x-axis when drawn in standard position. Round your approximations to three decimal places.

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ZUK

Answer:

The length is 90.033 and the angle that v makes with the positive x-axis is 153.339°

Step-by-step explanation:

Firstly we will have to convert our given vectors to their rectangular Cartesian vector form as follow,

[tex]a=125(icos(144)+jsin(144))=-101.127i+73.473j\\b=39(icos(302)+jsin(302))=20.667i-33.074j[/tex]

Now that we have these, we can add them to obtain v as follows,

[tex]v=a+b\\v=-80.46i+40.399j[/tex]

Now that we have the Cartesian vector form we can calculate its length and its direction with respect to the positive x-axis as follows(In fact we usually refer the angles from the positive x-axis),

[tex]|v|=\sqrt{80.46^{2}+40.399^{2}}=90.033\\ angle(v)=tan^{-1}(40.399/(-80.46))=153.339[/tex]

So the length of the vector is 90.033 and the angle it makes with the positive x-axis is 153.339°.

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