Transform the equation `x^(2)+y^(2)=ax` into polar form.

Transform the equation y = x tan alpha to polar form.

Transform the equation x^(2)-3xy+11x-12y+36=0 to parallel axes through the point (-4, 1) becomes ax^(2)+bxy+1=0 then b^(2)-a=

Transform the equation x^(2)-3xy+11x-12y+36=0 to parallel axes through the point (-4, 1) becomes ax^(2)+bxy+1=0 then b^(2)-a=

If the axes are turned through 45^(@) , find the transformed form of the equation 3x^(2)+3y^(2)+2xy=2 .

Transform the equation r = 2 a cos theta to cartesian form.

The transform equation of r^(2)cos^(2)theta = a^(2)cos 2theta to cartesian form is (x^(2)+y^(2))x^(2)=a^(2)lambda , then value of lambda is

Simplify the equation x^2 + y^2 + 8x-6y -25=0 to the form Ax^2 + By^2 = K , by shifting the origin to a suitable point.

The substituion y=z^(alpha) transforms the differential equation (x^(2)y^(2)-1)dy+2xy^(3)dx=0 into a homogeneous differential equation for

Reduce the equation x+2y=3 to the intercept form .

Find the real value of m for which the substitution y=u^m will transform the differential equation 2x^4y(dy)/(dx)+y^4=4x^6 in to a homogeneous equation.