Write r hat and theta hat in terms of i hat and j hat in matrix form. Now you will get the answer by inverting the matrix.

You need to derive the appropriate Newton's equations for an accelerating reference frame. You can find these equations in classical mechanics textbooks.

@@ProfJeffreyChasnov Thanks for your reply. Yes but we're not talking about simple LINEAR motion in an accelerating (non-inertial) reference frame, which is what you'll find in the typical mechanics text. That would be trivial enough. I'm talking about a ROTATING object in such an accelerating reference frame (so the frame itself can also be rotating or just accelerating linearly). Clearly, it's not as simple as the correction one would apply for an object in linear motion in such an accelerating (e.g. rotating) frame. Unless you're saying that all we do is add the components of acceleration ä of the origin of the accelerating frame to the r hat and theta hat components of the object's acceleration in that frame to get that object's acceleration in an inertial frame. If you are, surely this isn't trivial, is it? For example take a spinning object B (with its own r hat and theta hat acceleration components) in the frame of another spinning object A (whose centre, for the sake of argument is fixed). So the r hat and theta hat components of acceleration of the CENTRE of spinning object B would first have be obtained (using a polar coordinate system whose origin is the centre of object A). Then we would have to get the r hat and theta hat components of object B using a polar coordinate system whose origin this time is the centre of spinning object B. Are you saying the respective r hat and theta hat components of objects A and B can just be added together then. Surely that can't be the case. From what I understand, we can't add components "across" two polar coordinate systems (with different origins) like this, can we? Maybe you're not saying this at all, sorry.🙂 If not, can you say how one would proceed in this case. Cheers.

​​@@ProfJeffreyChasnov Hi I was wondering if you had any ideas about the scenario I describe in the post above. Thanks.

​@@ProfJeffreyChasnov I was really hoping you could give advice on this particular scenario. Pity it's gone unanswered. 😕