Asked by Ranajoy
If sin-1(x/a) + sin-1(y/b) = sin-1(c^2/ab) then show that b^2x^2 + 2xy(a^2b^2 + c4) + a^2y^2 = c^4.
Answers
Answered by
Steve
use the sum of sines formula:
sin(A+B) = sinA cosB + cosA sinB
We have
A = arcsin(x/a), so cosA = √(a^2-x^2)/a
B = arcsin(y/b), so cosB = √(b^2-y^2)/b
C = arcsin(c^2/ab)
That gives us sin(A+B) = sinC
(x/a)(√(b^2-y^2)/b) + (√(a^2-x^2)/a)(y/b) = c^2/ab
Hmmm. That's getting complicated. There is clearly some tricky insight needed. I'll think on it. Need to relate a,b,c in some way.
sin(A+B) = sinA cosB + cosA sinB
We have
A = arcsin(x/a), so cosA = √(a^2-x^2)/a
B = arcsin(y/b), so cosB = √(b^2-y^2)/b
C = arcsin(c^2/ab)
That gives us sin(A+B) = sinC
(x/a)(√(b^2-y^2)/b) + (√(a^2-x^2)/a)(y/b) = c^2/ab
Hmmm. That's getting complicated. There is clearly some tricky insight needed. I'll think on it. Need to relate a,b,c in some way.
Answered by
Ranajoy
Thanks for your help, its solved.
There are no AI answers yet. The ability to request AI answers is coming soon!
Submit Your Answer
We prioritize human answers over AI answers.
If you are human, and you can answer this question, please submit your answer.