dsolve(diff(y(x),x)=lambda*sin(lambda*x)*y(x)^2+a*cos(lambda*x)^n*y(x)-a*cos(lambda*x)^(n-1),y(x), singsol=all)
 

DSolve[D[y[x],x]==\[Lambda]*Sin[\[Lambda]*x]*y[x]^2+a*Cos[\[Lambda]*x]^n*y[x]-a*Cos[\[Lambda]*x]^(n-1),y[x],x,IncludeSingularSolutions -> True]
 

\[ \text {Solve}\left [\int _1^x-\frac {\exp \left (-\frac {a \cos ^{n+1}(\lambda K[1]) \csc (\lambda K[1]) \operatorname {Hypergeometric2F1}\left (\frac {1}{2},\frac {n+1}{2},\frac {n+3}{2},\cos ^2(\lambda K[1])\right ) \sqrt {\sin ^2(\lambda K[1])}}{(n+1) \lambda }\right ) \tan (\lambda K[1]) \left (-a \csc (\lambda K[1]) \cos ^n(\lambda K[1])+a \csc (\lambda K[1]) y(x) \cos ^{n+1}(\lambda K[1])+\lambda y(x)^2 \cos (\lambda K[1])\right )}{(\cos (\lambda K[1]) y(x)-1)^2}dK[1]+\int _1^{y(x)}\left (\frac {\exp \left (-\frac {a \cos ^{n+1}(x \lambda ) \csc (x \lambda ) \operatorname {Hypergeometric2F1}\left (\frac {1}{2},\frac {n+1}{2},\frac {n+3}{2},\cos ^2(x \lambda )\right ) \sqrt {\sin ^2(x \lambda )}}{(n+1) \lambda }\right )}{(\cos (x \lambda ) K[2]-1)^2}-\int _1^x\left (\frac {2 \exp \left (-\frac {a \cos ^{n+1}(\lambda K[1]) \csc (\lambda K[1]) \operatorname {Hypergeometric2F1}\left (\frac {1}{2},\frac {n+1}{2},\frac {n+3}{2},\cos ^2(\lambda K[1])\right ) \sqrt {\sin ^2(\lambda K[1])}}{(n+1) \lambda }\right ) \left (-a \csc (\lambda K[1]) \cos ^n(\lambda K[1])+a \csc (\lambda K[1]) K[2] \cos ^{n+1}(\lambda K[1])+\lambda K[2]^2 \cos (\lambda K[1])\right ) \sin (\lambda K[1])}{(\cos (\lambda K[1]) K[2]-1)^3}-\frac {\exp \left (-\frac {a \cos ^{n+1}(\lambda K[1]) \csc (\lambda K[1]) \operatorname {Hypergeometric2F1}\left (\frac {1}{2},\frac {n+1}{2},\frac {n+3}{2},\cos ^2(\lambda K[1])\right ) \sqrt {\sin ^2(\lambda K[1])}}{(n+1) \lambda }\right ) \left (a \csc (\lambda K[1]) \cos ^{n+1}(\lambda K[1])+2 \lambda K[2] \cos (\lambda K[1])\right ) \tan (\lambda K[1])}{(\cos (\lambda K[1]) K[2]-1)^2}\right )dK[1]\right )dK[2]=c_1,y(x)\right ] \]