" 2."[1+((dy)/(dx))^(2)]^(3/2)=(d^(2)y)/(dx^(2))

The order and degree of the differential equation [1+((dy)/(dx))^(2)]^((3)/(2))=(d^(2)y)/(dx^(2)) are respectively -

What is the order and the degree of the equation [1-((dy)/(dx))^(2)]^(3//2)=k(d^(2)y)/(dx^(2))?

The degree of the differential equation [1+((dy)/(dx))^(2)]^(3//2)=(d^(2)y)/(dx^(2))"is"

The degree of the differential equation [1+((dy)/(dx))^(2)]^(3//2)=(d^(2)y)/(dx^(2))"is"

If (x-a)^(2)+(y-b)^(2)=c^(2) , then prove that ([1+((dy)/(dx))^(2)]^(3//2))/((d^(2)y)/(dx^(2))) is a constant and independent of a and b.

The degree of the differential equation [1+((dy)/(dx))^(2)]^((3)/(2))=(d^(2)(y)/(dx^(2)))

The degree and order of the differential equation [1+2((dy)/(dx))^(2)]^((3)/(2)) = 5(d^(2)y)/(dx^(2)) are

The degree of the differential equation [1+((dy)/(dx))^(2)]^((3)/(4))=((d^(2)y)/(dx^(2)))^((1)/(3)) is -

The order of the differential equation [(d^(2)y)/(dx^(2)) + ((dy)/(dx))^(2)]^(-3//2) = k (d^(2)y)/(dx^(2)) is