15.2 VERIFYING TRIG IDENTITIES. Verifying trig identities algebraically involves transforming one...
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Transcript of 15.2 VERIFYING TRIG IDENTITIES. Verifying trig identities algebraically involves transforming one...
![Page 1: 15.2 VERIFYING TRIG IDENTITIES. Verifying trig identities algebraically involves transforming one side of the equation into the same form as the other.](https://reader036.fdocuments.in/reader036/viewer/2022083009/5697bfde1a28abf838cb2381/html5/thumbnails/1.jpg)
15.2 VERIFYING TRIG IDENTITIES
![Page 2: 15.2 VERIFYING TRIG IDENTITIES. Verifying trig identities algebraically involves transforming one side of the equation into the same form as the other.](https://reader036.fdocuments.in/reader036/viewer/2022083009/5697bfde1a28abf838cb2381/html5/thumbnails/2.jpg)
Verifying trig identities algebraically involves transforming one side of the equation into the same form as the other side using basic trig identities and properties of algebra.
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Procedure for Verifying Trig Identities
1. Draw a vertical line below the equal sign in the equation.
2. Determine which side of the identity to change (usually the more complicated side)
3. Use fundamental trig identities and algebraic properties to change the chosen side into the other.
![Page 4: 15.2 VERIFYING TRIG IDENTITIES. Verifying trig identities algebraically involves transforming one side of the equation into the same form as the other.](https://reader036.fdocuments.in/reader036/viewer/2022083009/5697bfde1a28abf838cb2381/html5/thumbnails/4.jpg)
Suggestions/Strategies for Verifying
Start with the more complicated side – you are trying to get it to match the simpler side
Get a common denominator Substitute one or more basic trig functions
i.e. you see a 1 and you can replace it with Factor or multiply to simplify expressions
i.e. Multiply expression by an expression of 1
Remember the fancy form of 1, or
Express all trig functions in terms of sine and cosine i.e. you see and you replace it with
sin2 x + cos2 x
sin2 x−cos2 x= sinx−cosx( ) sinx+ cosx( )
same#
same#
same expression
same expression
1
cos x
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Remember, there are many different ways to transform the equations so there isn’t necessarily one right way to simplify!
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Review of the Pythagorean Identities
Write four different ways:
sin2θ + cos2θ =1
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Write two different ways
tan2θ +1=sec2θ
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Write two different ways
cot2θ +1=csc2θ
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Verify the identity.
1. csc x−sinx=cosxcotx
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Verify the identity.
2. cos x + sinxtanx=secx
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Verify the identity.
3. sec x csc x−cotxcosx( ) =tanx
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Verify the identity.
4. sec x csc x−sinx( ) =cotx
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Verify the identity.
5. tan x + cotx( )2 =csc2 xsec2 x
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Verify the identity.
6. csc x−sinx( )2 =cot2 x−cos2 x