if `._(1)mu_2` is `1.5,` then find the value of `lambda_1/lambda_2.`

If cos^(-1)lambda+cos^(-1)mu+cos^(-1)gamma=3 pi, then find the value of lambda mu+mu gamma+gamma lambda

The product of integral solution of the equation |||x-1|-2|-1|=2 is -lambda , then find the value of lambda

If f(x)={(x^(2)+5x+lambda)/(x^(2)-1),x!=1,(7)/(2),x=1 is continuous at x=1, then find the value of lambda

alpha , beta are roots of the equation lambda(x^(2)-x)+x+5=0. If lambda_1 and lambda_2 are the two values of lambda for which the roots alpha , beta are connected b the relation (alpha )/(beta)+(beta)/(alpha)=4 , then the value of (lambda_1)/(lambda_2)+(lambda_2)/(lambda_1) is :

If lambda_(1),lambda_(2)(lambda_(1)>lambda_(2)) are two values of lambda for which the expression f(x,y)=x^(2)+lambda xy+y^(2)-5x-7y+6 can be resolved as a product of two linear factors, then the value of 3 lambda_(1)+2 lambda_(2) is

If lambda_1 and lambda_2 , are the wavelengths of the third member of Lyman and first member of the Paschen series respectively, then the value of lambda_1:lambda_2 is:

If the matrix A = [[lambda_(1)^(2), lambda_(1)lambda_(2), lambda_(1) lambda_(3)],[lambda_(2)lambda_(1),lambda_(2)^(2),lambda_(2)lambda_(3)],[lambda_(3)lambda_(1),lambda_(3)lambda_(2),lambda_(3)^(2)]] is idempotent, the value of lambda_(1)^(2) + lambda_(2)^(2) + lambda _(3)^(2) is

If |a_i| < 1,lamda_i geq0 for i=1,2,3,...,n and lambda_1+lamda_2+...lambda_n=1 then the value of |lambda_1 a_1+lambda_2 a_2+......+lambda_n a_n| is

If |a_(i)| lt 1, lambda_(i) ge 0 for i=1,2,……n and lambda_(1)+lambda_(2)+…….+lambda_(n)=1 , then the value of |lambda_(1)a_(1)+lambda_(2)a_(2)+…….+lambda_(n)a_(n)| is