If A + B + C = (pi)/(2), prove that si...

If A + B + C `= (pi)/(2)`, prove that
sin 2A + sin 2B + sin 2C = 4 cos A cos B cos C

Verified by Experts

The correct Answer is:

4 cos A cos B cos C

TRIGONOMETRY
SURA PUBLICATION|Exercise EXERCISE 3.8|18 Videos
TRIGONOMETRY
SURA PUBLICATION|Exercise EXERCISE 3.9|16 Videos
TRIGONOMETRY
SURA PUBLICATION|Exercise EXERCISE 3.6|21 Videos
SURAS MODEL QUESTION PAPER -2
SURA PUBLICATION|Exercise section -IV|7 Videos
TWO DIMENSIONAL ANALYTICAL GEOMETRY
SURA PUBLICATION|Exercise ADDITIONAL PROBLEMS - SECTION - D|3 Videos

Similar Questions

Explore conceptually related problems

If A + B + C = (pi)/(2) , prove that cos 2A + cos 2B + cos 2C = 1 + 4 sin A sin B cos C

If A + B + C = 180^(@) , prove that sin 2A + sin 2B + sin 2C = 4 sin A sin B sin C

If A + B + C = 180^(@) , prove that sin A + sin B + sin C = 4 cos (A)/(2) cos"" (B)/(2) cos"" (C )/(2)

If A+B+C=pi/2 prove the following (i) sin 2A+sin 2B +sin 2C=4 cos A cos B cos C (ii) cos 2A +cos 2B+cos 2C=1+4 sin A sin B sin C.

If A + B + C = 180^(@) , prove that sin^(2)A + sin^(2)B + sin^(2) C = 2 + 2 cos A cos B cos C

If A + B + C = 180^(@) , prove that sin^(2)A + sin^(2)B - sin^(2)C = 2 sin A sin B cos C

Prove that a cos A + b cos B + c cos C = 4 R sin A sin B sin C.

If A + B + C = 180^(@) , prove that cos A + cos B - cos C = -1 + 4 cos (A)/(2) cos"" (B)/(2) sin"" (C )/(2)

Prove that sin (A+B)= sin A cos B + cos A sin B.

If A + B + C = 180^(@) , prove that sin(B + C - A) + sin (C + A - B) + sin(A + B + C) = 4 sin A sin B sin C.