If `alpha,beta` are the different values of `x` satisfying `acosx+bsinx=c` then `tan((alpha+beta)/2)` is

If alpha,beta are the different values of x satisfying a cos x+b sin x=c then tan((alpha+beta)/(2)) is

alphaand beta are the positive acute angles and satisfying equation 5sin2 beta=3sin2 alpha andtan beta=3tan alpha simultaneously.Then the value of tan alpha+tan beta is

If 2tan alpha=3tan beta then tan(alpha-beta)=

If alpha and beta are the roots of the equation x^(2)+alpha x+beta=0 such that alpha ne beta , then the number of integral values of x satisfying ||x-beta|-alpha|lt1 is

If alpha and beta are acute angles satisfying cos2 alpha=(3cos2 beta-1)/(3-cos2 beta), then tan alpha=sqrt(2)tan beta (b) (1)/(sqrt(2))tan beta(c)sqrt(2)cot beta(d)(1)/(sqrt(2))cot beta

If alpha, beta are the roots of equation 3x^(2)-4x+2=0 , then the value of (alpha)/(beta)+(beta)/(alpha) is

If alpha , beta alpha ne beta satisfies the question a costheta + b sin theta = c , then the value of tan ( (alpha + beta)/(2) ) is :

If alpha and beta are two positive acute angles satisfying alpha-beta=15^(@) and sin alpha=cos2 beta then the value of alpha+beta

If alpha and beta are two positive acute angles satisfying alpha-beta=15^(@) and sin alpha=cos2 beta then find the value of alpha+beta

If alpha and beta are two positive acute angles satisfying alpha-beta=15^(@) and sin alpha=cos2 beta then the value of alpha+beta is equal to -(A)35^(@) (B) 55^(@) (C) 65^(@) (D) 85^(@)