SpaceShipTwo Design and Pics Released

An anonymous reader writes "Designs and photos for Scaled Composites and Virgin Galactic's new suborbital spacecraft, SpaceShipTwo, and its carrier aircraft, WhiteKnightTwo, have been released." Lots of specs and numbers if you're interested in that sort of thing although nothing hugely detailed.

A LOT to see here

[Somegeek]

This is not about advancing the state of the art in rocket design, no one ever claimed that it was.
They are learning how to build an infrastructure that could take paying customers to orbit.

They are gaining experience carrying passengers and a spaceship up to the edge of space.
They are gaining experience dealing with novice 'astronauts' and what it takes to prepare them and what they should expect from them in a weightless environment.
They are gaining experience designing and building and flying carrier aircraft.
I would imagine that the next generation will use a different rocket design, go significantly faster, and start using heat shielding, with yet a bigger carrier aircraft.
Once they have that in place, the next generation can upgrade the 'spaceship' to something with serious rockets that have the capability of reaching orbital speeds.

Or should they have gone for orbit first and hope everything else works at the same time?

Re:Nothing to see here

[Plekto]

***This was a very good point, IMO***
**quote**
As I mentioned before, I was in error about how much delta v it takes, including gravity losses, to get in orbit, 9500 m/s instead of 11km/s. So about a quarter of the necessary delta v was provided by the motor and a further 300 or so m/s by the plane. Given that SpaceShipTwo goes a bit higher and has more downrange than SpaceShipOne, it probably has a little more delta v. So you're too low by at least a factor of 2 in your delta v estimate. And there's still higher ISP fuels. For example, they can use liquid oxygen in their hybrid to boost ISP. And higher mass ratios will obviously be needed. But I see no reason orbital delta v can't be reached.
****
Twice the thrust is probably attainable with more engines(check) and a little more fuel that has a higher energy output(I hate acronyms - a pet peeve of mine). The ship itself that launches them can also without a doubt be made to go faster, especially not IF, but WHEN we get scramjets and similar technologies working. 4000m/sec from the module and 1-2000m/sec from the booster/plane/etc is suddenly not so far off the mark.

IME, when you start talking about engineering problems and the difference between making it happen and the prototypes is a matter of 2-3x the test results, it's a matter of figuring it out more than being in the realm of "not possible". I don't think Scaled Composites second design can get into orbit, but it's a good step in the right direction, make no mistake about it.

I have to give them props for trying at least. Their goal is to get into space and not just give joy-rides, after all.