>"the situation kind of reminds me the issues we have trying to achieve fusion energy, in both cases we know the that phisics work, we know is a desirable outcome but we need to workout the engineering problems"

Sometimes, engineering problems can themselves be insurmountable or simply not worth implementing. It's not a great feeling, but it's happened in the past and will happened again.

Nonetheless, the low payload capacities of SSTOs are a big risk because there may simply not be a worthwhile market for such small sizes. So many people focus on kilos to Low Earth Orbit while failing to take into account any other factor. It matters very little if you can get 1 kilogram to orbit for mere pennies at a time if no one wants to launch something that small, and a lot of payloads require additional space or higher orbits that any near-future SSTO would be hard pressed to accommodate.

Have you ever tried playing Kerbal space program? If you get into it you'll very rapidly understand why SSTO designs are not worth it.

Every kilogram of mass you have to lift to orbit requires multiple kilograms of fuel. And that extra fuel itself requires fuel to lift it. Staging allows you to jettison mass part way, meaning you need to carry significantly less fuel over all.

First stage reuse is a solved problem, and there's multiple very cool ideas for second stage reuse in development right now. We're so close to cracking this.

> how do we know till start developing it?

Because even the most optimistic assumptions about it, are already beaten by Falcon 9.

So if you can't even make it work on paper, how are you gone make it in real live?

> are we condemned to live with refining 1950 designs forever?

I mean you are stretching the definition of 'refining'. Starship is a just as much an upgrade over 1950 rockets then Skylon.

In fact, Skylon is actually how many people in the 1950 imagine the future, while Starship is the reality checked version of what will actually work.

> is that the best we can do?

If you want to really go invest in the future design, how about an air breathing nuclear turbofan. But I think that might cause some opposition.

You also need to consider that money is limited. Every $ going into air breathing engine isn't going into something that has potentially much greater effect. The investment done into Sabre engine would have yield far better results if it has been invested in reusable FFSC. Or something like a closed cycle expander areospike. Or many other things that that have far greater potential then Sabre.

The reality is that Sabre and Skylon are a product of a British team, a team of people that basically spend 20 years designing a bunch of paper rocket, having little experience what so with actual rocket flight operation and they came out with a concept they was so over-the-top that they thought they could get some serious research money finally.

Why should they? They haven't presented a working prototype of their engines in 30 years, and there are a lot of questions about that design.

And even what they propose to do with it (Skylon) isn't really a good idea.

Disagree. Money can be invested much better. Their technology isn't that great and their vehicle is mostly fantasy. It would take absurd amount of money and likely they couldn't make it work at all.

For that same price you could build way more useful things for space flight.