John Taylor Classical Mechanics Chapter 1 Problem 22

AI Thread Summary
The discussion revolves around proving the trigonometric identity cos(alpha - beta) = cos(alpha)cos(beta) + sin(alpha)sin(beta) using the dot product of two vectors a and b in the xy plane. Participants express difficulty in setting up the problem and relate the components of vectors to their angles with the x-axis. A suggestion is made to start by expressing vector a in terms of its components using the angles alpha and beta. The conversation highlights the challenge of transitioning from the dot product formula to the desired trigonometric identity. Overall, the focus remains on understanding the relationship between vector components and angles in the context of the dot product.
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Homework Statement


The two vectors a and b lie in the xy plane and make angles (alpha and beta) with the x axis. a. by evaluating a dot b in two ways prove the well known trig identity cos(alpha-beta)=cosalphacosbeta +sinalphasinbeta


Homework Equations


adotb=abcostheta=axbx+ayby


The Attempt at a Solution


Could not really come to the proper set-up.
 
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karmonkey98k said:

Homework Statement


The two vectors a and b lie in the xy plane and make angles (alpha and beta) with the x axis. a. by evaluating a dot b in two ways prove the well known trig identity cos(alpha-beta)=cosalphacosbeta +sinalphasinbeta


Homework Equations


adotb=abcostheta=axbx+ayby


The Attempt at a Solution


Could not really come to the proper set-up.

How are the x,y components of a vector related to the angle they make with the x axis?

ehild
 
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the angle they make is in the problem; the cos of the difference of the angles equals that result. i just cud not go from the dot product to that.
 
hi karmonkey98k! :smile:

start with a = |a|cosαi + |a|sinαj :wink:
 

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