Asked by Sophie
If α and β are two angles in Quadrant II such that tan α= -1/2 and tan β = -2/3, find cos(α+β)
Work:
cos(α+β) = [ 1 - (tan α)(tan β) ] / [ 1 + (tan α)(tan β)]
cos(α+β) = [ 1 - (-1/2)(-2/3) ] / [ 1 + (-1/2)(-2/3)]
cos(α+β) = [ 1 - 1/3 ] / [ 1 + 1/3 ]
cos(α+β) = [ 2/3 ] / [ 4/3 ]
cos(α+β) = 1/2
is this right?
Work:
cos(α+β) = [ 1 - (tan α)(tan β) ] / [ 1 + (tan α)(tan β)]
cos(α+β) = [ 1 - (-1/2)(-2/3) ] / [ 1 + (-1/2)(-2/3)]
cos(α+β) = [ 1 - 1/3 ] / [ 1 + 1/3 ]
cos(α+β) = [ 2/3 ] / [ 4/3 ]
cos(α+β) = 1/2
is this right?
Answers
Answered by
MathMate
Unfortunately it doesn't look right, ad... from the very start.
Could you rechceck your source from where you got the expression?
[ 1 - (tan α)(tan β) ] / [ 1 + (tan α)(tan β)]
represents, according to me,
cos(α+β)/cos(α-β).
All is not lost, though.
From
1/cos<sup>2</sup>(x)
=sec<sup>2</sup>(x)
=1+tan<sup>2</sup>(x)
tan(A+B)=(tan(A)+tan(B))/(1-tan(A)tan(B))
You have ample ammunition to get the required answer.
Post your results for a check-up if you wish, or you can substitute arbitrary numbers for tan(α) and tan(β) to check by yourself.
Could you rechceck your source from where you got the expression?
[ 1 - (tan α)(tan β) ] / [ 1 + (tan α)(tan β)]
represents, according to me,
cos(α+β)/cos(α-β).
All is not lost, though.
From
1/cos<sup>2</sup>(x)
=sec<sup>2</sup>(x)
=1+tan<sup>2</sup>(x)
tan(A+B)=(tan(A)+tan(B))/(1-tan(A)tan(B))
You have ample ammunition to get the required answer.
Post your results for a check-up if you wish, or you can substitute arbitrary numbers for tan(α) and tan(β) to check by yourself.
Answered by
Sophie
ohh okay thanks!
Answered by
Sophie
tan^-1(1/2)=x=.463648
tan^-1(2/3)=y.588003
x+y+pi/2 = -z=2.62245
z=-2.62245
cos (z) = -.868243
and
tan a= -1/2
tan b= -2/3
tan (a+b)=(tan a +tan b)/(1-tan a.tan b)
so tan (a+b)= -7/4
sec^2 x-tan^2 x=1
so
sec (a+b)=√(1+49/16)
=√(65/16)
(a+b)=1/sec (a+b)
so cos(a+b) is positive
so cos(a+b)=.48˜.5
???
tan^-1(2/3)=y.588003
x+y+pi/2 = -z=2.62245
z=-2.62245
cos (z) = -.868243
and
tan a= -1/2
tan b= -2/3
tan (a+b)=(tan a +tan b)/(1-tan a.tan b)
so tan (a+b)= -7/4
sec^2 x-tan^2 x=1
so
sec (a+b)=√(1+49/16)
=√(65/16)
(a+b)=1/sec (a+b)
so cos(a+b) is positive
so cos(a+b)=.48˜.5
???
Answered by
MathMate
tan^-1(1/2)=x=.463648
<b>α=tan<sub>-1</sub>(-1/2)=π-x=2.67795</b>
tan^-1(2/3)=y.588003
<b>β=tan<sub>-1</sub>(-2/3)=π-y=2.55359</b>
<b>α+β = 2.67795+2.55359 = 5.23154 rad. (serves as a check)
cos(α+β) = 0.49614 (as a check) </b>
and
tan a= -1/2
tan b= -2/3
tan (a+b)=(tan a +tan b)/(1-tan a.tan b)
so tan (a+b)= -7/4
sec^2 x-tan^2 x=1
so
sec (a+b)=√(1+49/16)
=√(65/16)
<b> Therefore
cos(α+β)
=√(16/65)
=4/√65</b>
since α+β is in the 4th quadrant, cos(α+β)>0
Therefore
cos(α+β) = +4/√65
</b>
<b>α=tan<sub>-1</sub>(-1/2)=π-x=2.67795</b>
tan^-1(2/3)=y.588003
<b>β=tan<sub>-1</sub>(-2/3)=π-y=2.55359</b>
<b>α+β = 2.67795+2.55359 = 5.23154 rad. (serves as a check)
cos(α+β) = 0.49614 (as a check) </b>
and
tan a= -1/2
tan b= -2/3
tan (a+b)=(tan a +tan b)/(1-tan a.tan b)
so tan (a+b)= -7/4
sec^2 x-tan^2 x=1
so
sec (a+b)=√(1+49/16)
=√(65/16)
<b> Therefore
cos(α+β)
=√(16/65)
=4/√65</b>
since α+β is in the 4th quadrant, cos(α+β)>0
Therefore
cos(α+β) = +4/√65
</b>
Answered by
Sophie
oh! thanks for your time!
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