Hi Everyone,
Here is one of the MIT documents. I will try to dig up the much more in depth paper.
This is a memo, not a paper. World of difference between the two things.
It was also written after Apollo 11 landed.
To be clear it states
"Due to the presence of jet plume deflectors on the LM descent
stage, the use of +X thrusting LM jets for pitch or roll attitude control
of the CSM-docked configuration will" "cause a
serious control instability"
Yes, it does indeed state that. However, here is where you lose marks for a) intepretation and b) honest representation of the statements.
Point a): the memo is referring to the use of the LM RCS to control attitude in the CSM/LM docked configuration. During normal flight the LM RCS is not used for this, the RCS on the SM is. Only one flight used the LM RCS for any purpose in the docked configuration, and that was Apollo 13.
Point b): it refers to causing a control instability "for some mass loadings" and "if any -X thrusting jets have failed off or have been disabled". Please explain your failure to include those caveats.
Furthermore, having pointed out this specific set of circumstances that will result in
automatic control instability, it then goes on to detail exactly how this problem can be overcome by manual crew intervention.
So, in summary, you have taken a memo (
not a paper) that outlines a specific problem that may occur in some very specific (and unlikely) circumstances, and explains how to avoid the problem and correct any issues by using manual control, and suggested it somehow proves that the plume deflectors on the LM were a huge problem for successful control of the LM alone.
Further it goes onto state that less than ideal conditions will lead to a positive feedback loop that will cause
"the vehicle will spin uncontrollably
in the counter clockwise direction."
Yes, in the event that the automatic control is used in a very specific set of circumstances which are very unliley to arise in flight, which have nothing to do with independent LM flight or landing, and assuming the crew takes no manual control of the situation.
Everything I have said is here.
Yes, but you left out a lot of very important details to make your argument. Why?
I guess all you guys need to argue with MIT and not me.
No, we will argue with you, because it is your failure to correctly understand and apply this memo (again, not a paper: this is an important distinction) that is under discussion here. This memo in no way applies to control of the LM itself or to its ability to land.
Further one of the more in depth papers I read (I will try to dig up) lays it out even more explicitly stating ideal conditions consisting of weight balance, thrust balance and proper timing are requirements to ensure the craft doesn't become unstable.
Under what specific conditions?
Now can we move on and maybe give me a little respect. Thanks
If you want respect then represent the arguments you are using honestly and try to put some thought into how they might actually apply. A memo or paper that points to a possible control instability is not only nothing remarkable, it is to be expected. Any system will have potential scenarios in which control instability arises. The question is not if it happens but if it can be dealt with. This memo covers just that.
