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Form the differential equation of family...

Form the differential equation of family of lines situated at a constant distance `p` from the origin.

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All such lnes are tangent to circle of radius p.
Equation of tangent to circle `x^(2)+y^(2)=p^(2)`, having slope m is `y=mx+psqrt(1+m^(2))`, where `m=(dy)/(dx)`
`therefore y=(dy)/(dx)+psqrt(1+((dy)/(dx))^(2)`
or `(y-x(dy)/(dx))^(2)=p^(2)(1+((dy)/(dx))^(2))`
Which is required differential equation.
Here, order is 1 and degree is 2.
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  9. Solve log((dy)/(dx))=4x-2y-2 , given that y=1 when x=1.

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  11. Solve the differential equation x y(dy)/( dx)=(1+y^2)/(1+x^2)(1+x+x^2)

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  13. Solve (dy)/(dx)=(1+y)^2

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  14. Solve : (dy)/(dx) sqrt(1+x+y) =x+y-1

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  15. Show that the differential equation (x^(2)+xy)dy=(x^(2)+y^(2))dx is ho...

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  16. Show that the given differential equation xdy-ydx=sqrt(x^(2)+y^(2)) dx...

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  17. Solve xsin(y/x)dy=(ysin(y/x)-x)dx.

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  18. Solve (1+e^((x)/(y)))dx + e^((x)/(y)) (1-(x)/(y))dy = 0

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  19. Solve x dy=(y+x(f(y/x))/(f^(prime)(y/x)))dx

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  20. Find the real value of m for which the substitution y=u^m will transfo...

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