The component that I laid out is larger in both diameter and length than the standard fairing size you list.
You are right that it would be possible to send the Apollo spacecraft and LEM to the Moon separately, to join there, but the Apollo spacecraft is 2/3 of that mass. The rocket to do the Apollo spacecraft by itself exceeds the specs that we can launch on Falcon Heavy.
It would be more doable to build a multi-stage rocket in space and fire that. So one launch for Apollo+LEM, 2 launches for 2 booster stages. Put the three together and off you go. Of course this requires designing a new rocket, designed to be carried into space, to dock robotically, and then launch. Which is doable. But also isn't current tech.
If we're going to build a new rocket ANYWAYS for this mission, I think it makes more sense to cross fingers and wait for SpaceX's SuperHeavy + Starship configuration.
Update: While looking for current news on that, I found that SpaceX building SuperHeavy rockets in two locations. And I found that, today, they reported raising a billion dollars in funding for their development efforts. Which I submitted as a news article because I think that it is of interest separately from the NASA discussion.
I agree that we don't have some components to take "off the shelf" - lunar module being the primary example. But "to put a payload on a rocket which never flew on this rocket" is not the "not current tech" - and since we have docking components, including robotic docking, existing elsewhere, I would argue that it won't require any significant time (like 5 years) to get ready.
The point is that we don't need to build rockets to go to the Moon - we have them already. We currently don't have lunar module - and we'll need to create that. Also we didn't do some specific integration of existing technologies - space boosters, docking etc. - but making that is way easier than making a new rocket.
> The component that I laid out is larger in both diameter and length than the standard fairing size you list.
It's not necessary to re-create 3rd stage of Saturn-V to fly to the Moon. Today there are better ways - using the existing launchers.
…if all goes well. If you have to pause countdown of a rocket to check some part, it is “less ideal” if that rocket is in space.
Also, if you have to cancel countdown to try again at a later date, how do you get unstable fuel such as liquid oxygen out? Venting it may seem easy, but it changes the rocket’s trajectory. Even more problematic: how do you get new fuel in, so that you can retry a launch?
You are right that it would be possible to send the Apollo spacecraft and LEM to the Moon separately, to join there, but the Apollo spacecraft is 2/3 of that mass. The rocket to do the Apollo spacecraft by itself exceeds the specs that we can launch on Falcon Heavy.
It would be more doable to build a multi-stage rocket in space and fire that. So one launch for Apollo+LEM, 2 launches for 2 booster stages. Put the three together and off you go. Of course this requires designing a new rocket, designed to be carried into space, to dock robotically, and then launch. Which is doable. But also isn't current tech.
If we're going to build a new rocket ANYWAYS for this mission, I think it makes more sense to cross fingers and wait for SpaceX's SuperHeavy + Starship configuration.
Update: While looking for current news on that, I found that SpaceX building SuperHeavy rockets in two locations. And I found that, today, they reported raising a billion dollars in funding for their development efforts. Which I submitted as a news article because I think that it is of interest separately from the NASA discussion.