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Thursday, November 28, 2013

Proving Trigonometric Identities, 17

Category: Trigonometry

"Published in Suisun City, California, USA"

Prove that


Solution:

Consider the given equation above


In proving the trigonometric identities, we have to choose the more complicated part. Since both sides of the equation are complicated, then we have to simplify both sides of the equation. We have to use the principles of simplifying trigonometric functions as much as we can until we get the same equation on both sides of the equation. Let's simplify the both sides of the equation as follows



but


Hence the above equation becomes




but 

and

Hence the above equation becomes





but



Hence the above equation becomes



Therefore,

 

Wednesday, November 27, 2013

Proving Trigonometric Identities, 16

Category: Trigonometry

"Published in Suisun City, California, USA"

Prove that


Solution:

Consider the given equation above


In proving the trigonometric identities, we have to choose the more complicated part which is the left side of the equation. We have to use the principles of simplifying trigonometric functions as much as we can until we get the same equation as the right side of the equation. Let's rewrite the rational and reciprocal functions into its equivalent function as follows




but


Hence the above equation becomes



Therefore,

 

Tuesday, November 26, 2013

Proving Trigonometric Identities, 15

Category: Trigonometry

"Published in Suisun City, California, USA"

Prove that


Solution:

Consider the given equation above


In proving the trigonometric identities, we have to choose the more complicated part which is the left side of the equation. We have to use the principles of simplifying trigonometric functions as much as we can until we get the same equation as the right side of the equation. Let's rewrite the trigonometric functions of negative angles into its equivalent trigonometric functions of positive angles as follows 


If an angle is negative, then it is located in the fourth quadrant. The negative angle is measured in a clockwise direction. Sine is negative, cosine is positive, tangent is negative, cosecant is negative, secant is positive, and cotangent is negative in the fourth quadrant. Hence, the above equation becomes 



Take out the negative signs at the left side of the equation, we have



Rewrite the rational and reciprocal functions as follows





but


Hence the above equation becomes




Therefore,