Differential equation of the family of curves `v=A/r+B ,` where `A` and `B` are arbitrary constants, is

Find the differential equation of the family of curves, x=A\ cos n t+Bsinn t , where A and B are arbitrary constants.

Find the differential equation of the family of curves y=Ae^x+Be^-x , where A and B are arbitrary constants.

The differential equation of the family of curves y=e^x(Acosx+Bsinx), where A and B are arbitrary constants is

Find the differential equation of the family of curves y=A e^(2x)+B e^(-2x) , where A and B are arbitrary constants.

Find the differential equation of the family of curves y=A e^(2x)+B e^(-2x) , where A and B are arbitrary constants.

Find the differential equation of the family of curves y=A e^(2x)+B e^(-2x) , where A and B are arbitrary constants.

Find the differential equation of the family of curves y=A e^(2x)+B e^(-2x) , where A and B are arbitrary constants.

From the differential equation of the family of curves y=asin(x+b) , where a and b are arbitrary constants.

The differential equation of the family of curves y=e^(2x)(a cos x+b sin x) where, a and b are arbitrary constants, is given by

The differential equation of the family of curves py^(2)=3x-p is (where p is an arbitrary constant) is