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Frequently Asked Questions (FAQS);faqs.508
NASA CENTERS
NASA Headquarters (NASA HQ)
Washington DC 20546
Ask them questions about policy, money, and things of political
nature. Direct specific questions to the appropriate center.
NASA Ames Research Center (ARC)
Moffett Field, CA 94035
Some aeronautical research, atmosphere reentry, Mars and Venus
planetary atmospheres. "Lead center" for Helicopter research,
V/STOL, etc. Runs Pioneer series of space probes.
NASA Ames Research Center
Dryden Flight Research Facility [DFRF]
P. O. Box 273
Edwards, CA 93523
Aircraft, mostly. Tested the shuttle orbiter landing
characteristics. Developed X-1, D-558, X-3, X-4, X-5, XB-70, and of
course, the X-15.
NASA Goddard Space Flight Center (GSFC)
Greenbelt, MD 20771
[Outside of Washington DC]
Earth orbiting unmanned satellites and sounding rockets. Developed
LANDSAT.
NASA Lewis Research Center (LeRC)
21000 Brookpark Rd.
Cleveland, OH 44135
Aircraft/Rocket propulsion. Space power generation. Materials
research.
NASA Johnson Manned Space Center (JSC)
Houston, TX 77058
JSC manages Space Shuttle, ground control of manned missions.
Astronaut training. Manned mission simulators.
NASA Kennedy Space Flight Center (KSC)
Titusville, FL 32899
Space launch center. You know this one.
NASA Marshall Space Flight Center (MSFC)
Huntsville, AL 35812
Development, production, delivery of Solid Rocket Boosters, External
Tank, Orbiter main engines. Propulsion and launchers.
NASA Langley Research Center (LaRC)
Hampton, VA 23665
[Near Newport News, VA]
Original NASA site. Specializes in theoretical and experimental
flight dynamics. Viking. Long Duration Exposure Facility.
Wallops Flight Center
Wallops Island, Virginia 23337
Aeronautical research, sounding rockets, Scout launcher.
Jet Propulsion Laboratory [JPL/CIT]
California Institute of Technology
4800 Oak Grove Dr.
Pasadena, CA 91109
The "heavies" in planetary research probes and other unmanned
projects (they also had a lot to do with IRAS). They run Voyager,
Magellan, Galileo, and will run Cassini, CRAF, etc. etc.. For
images, probe navigation, and other info about unmanned exploration,
this is the place to go.
JPL is run under contract for NASA by the nearby California
Institute of Technology, unlike the NASA centers above. This
distinction is subtle but critical. JPL has different requirements
for unsolicited research proposals and summer hires. For instance in
the latter, an SF 171 is useless. Employees are Caltech employees,
contractors, and for the most part have similar responsibilities.
They offer an alternative to funding after other NASA Centers.
Manager, Technology Utilization Office
NASA Scientific and Technical Information Facility
Post Office Box 8757
Baltimore, Maryland 21240
Specific requests for software must go thru COSMIC at the Univ. of
Georgia, NASA's contracted software redistribution service. You can
reach them at cosmic@uga.bitnet.
NOTE: Foreign nationals requesting information must go through their
Embassies in Washington DC. These are facilities of the US Government
and are regarded with some degree of economic sensitivity. Centers
cannot directly return information without high Center approval. Allow
at least 1 month for clearance. This includes COSMIC.
The US Air Force Space Command can be contacted thru the Pentagon along with
other Department of Defense offices. They have unacknowledged offices in
Los Angeles, Sunnyvale, Colorado Springs, and other locations. They have
a budget which rivals NASA in size.
ARIANESPACE HEADQUARTERS
Boulevard de l'Europe
B.P. 177
91006 Evry Cedex
France
ARIANESPACE, INC.
1747 Pennsylvania Avenue, NW Suite 875
Washington, DC 20006
(202)-728-9075
EUROPEAN SPACE AGENCY
955 L'Enfant Plaza S.W.
Washington, D.C. 20024
(202)-488-4158
NATIONAL SPACE DEVELOPMENT AGENCY (NASDA)
4-1 Hamamatsu-Cho, 2 Chome
Minato-Ku, Tokyo 105, JAPAN
SOYUZKARTA
45 Vologradsij Pr.
Moscow 109125
USSR
SPACE CAMP
Alabama Space and Rocket Center U.S. SPACE CAMP
1 Tranquility Base 6225 Vectorspace Blvd
Huntsville, AL 35805 Titusville FL 32780
(205)-837-3400 (407)267-3184
Registration and mailing list are handled through Huntsville -- both
camps are described in the same brochure.
Programs offered at Space Camp are:
Space Camp - one week, youngsters completing grades 4-6
Space Academy I - one week, grades 7-9
Aviation Challenge - one week high school program, grades 9-11
Space Academy II - 8 days, college accredited, grades 10-12
Adult Program - 3 days (editorial comment: it's great!)
Teachers Program - 5 days
SPACE COMMERCE CORPORATION (U.S. agent for Soviet launch services)
504 Pluto Drive 69th flr, Texas Commerce Tower
Colorado Springs, CO 80906 Houston, TX 77002
(719)-578-5490 (713)-227-9000
SPACEHAB
600 Maryland Avenue, SW
Suite 201 West
Washington, DC 20004
(202)-488-3483
SPOT IMAGE CORPORATION
1857 Preston White Drive,
Reston, VA 22091
(FAX) (703)-648-1813 (703)-620-2200
OTHER COMMERCIAL SPACE BUSINESSES
Vincent Cate maintains a list with addresses and some info for a variety
of companies in space-related businesses. This is mailed out on the
space-investors list he runs (see the "Network Resources" FAQ) and is also
available by anonymous ftp from furmint.nectar.cs.cmu.edu (128.2.209.111) in
/usr/vac/ftp/space-companies.
NEXT: FAQ #9/15 - Schedules for space missions, and how to see them
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From: leech@mahler.cs.unc.edu (Jon Leech)
Newsgroups: sci.space,news.answers
Subject: Space FAQ 14/15 - How to Become an Astronaut
Keywords: Frequently Asked Questions
Message-ID: <astronaut_723318291@cs.unc.edu>
Date: 2 Dec 92 17:44:55 GMT
Expires: 6 Jan 93 17:44:51 GMT
References: <diffs_723318039@cs.unc.edu>
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HOW TO BECOME AN ASTRONAUT
First the short form, authored by Henry Spencer, then an official NASA
announcement.
Q. How do I become an astronaut?
A. We will assume you mean a NASA astronaut, since it's probably impossible
for a Westerner to get into the Soviet program, and the other nations
have so few astronauts (and fly even fewer) that you're better off
hoping to win a lottery. Becoming a shuttle pilot requires lots
of fast-jet experience, which means a military flying career; forget
that unless you want to do it anyway. So you want to become a
shuttle "mission specialist".
If you aren't a US citizen, become one; that is a must. After that,
the crucial thing to remember is that the demand for such jobs vastly
exceeds the supply. NASA's problem is not finding qualified people,
but thinning the lineup down to manageable length. It is not enough
to be qualified; you must avoid being *dis*qualified for any reason,
many of them in principle quite irrelevant to the job.
Get a Ph.D. Specialize in something that involves getting your hands
dirty with equipment, not just paper and pencil. Forget computer
programming entirely; it will be done from the ground for the fore-
seeable future. Degree(s) in one field plus work experience in
another seems to be a frequent winner.
Be in good physical condition, with good eyesight. (DO NOT get a
radial keratomy or similar hack to improve your vision; nobody knows
what sudden pressure changes would do to RKed eyes, and long-term
effects are poorly understood. For that matter, avoid any other
significant medical unknowns.) If you can pass a jet-pilot physical,
you should be okay; if you can't, your chances are poor.
Practise public speaking, and be conservative and conformist in
appearance and actions; you've got a tough selling job ahead, trying
to convince a cautious, conservative selection committee that you
are better than hundreds of other applicants. (And, also, that you
will be a credit to NASA after you are hired: public relations is
a significant part of the job, and NASA's image is very prim and
proper.) The image you want is squeaky-clean workaholic yuppie.
Remember also that you will need a security clearance at some point,
and Security considers everybody guilty until proven innocent.
Keep your nose clean.
Get a pilot's license and make flying your number one hobby;
experienced pilots are known to be favored even for non-pilot jobs.
Work for NASA; of 45 astronauts selected between 1984 and 1988,
43 were military or NASA employees, and the remaining two were
a NASA consultant and Mae Jemison (the first black female astronaut).
If you apply from outside NASA and miss, but they offer you a job
at NASA, ***TAKE IT***; sometimes in the past this has meant "you
do look interesting but we want to know you a bit better first".
Think space: they want highly motivated people, so lose no chance
to demonstrate motivation.
Keep trying. Many astronauts didn't make it the first time.
NASA
National Aeronautics and Space Administration
Lyndon B. Johnson Space Center
Houston, Texas
Announcement for Mission Specialist and Pilot Astronaut Candidates
==================================================================
Astronaut Candidate Program
---------------------------
The National Aeronautics and Space Administration (NASA) has a need for
Pilot Astronaut Candidates and Mission Specialist Astronaut Candidates
to support the Space Shuttle Program. NASA is now accepting on a
continuous basis and plans to select astronaut candidates as needed.
Persons from both the civilian sector and the military services will be
considered.
All positions are located at the Lyndon B. Johnson Space Center in
Houston, Texas, and will involved a 1-year training and evaluation
program.
Space Shuttle Program Description
---------------------------------
The numerous successful flights of the Space Shuttle have demonstrated
that operation and experimental investigations in space are becoming
routine. The Space Shuttle Orbiter is launched into, and maneuvers in
the Earth orbit performing missions lastling up to 30 days. It then
returns to earth and is ready for another flight with payloads and
flight crew.
The Orbiter performs a variety of orbital missions including deployment
and retrieval of satellites, service of existing satellites, operation
of specialized laboratories (astronomy, earth sciences, materials
processing, manufacturing), and other operations. These missions will
eventually include the development and servicing of a permanent space
station. The Orbiter also provides a staging capability for using higher
orbits than can be achieved by the Orbiter itself. Users of the Space
Shuttle's capabilities are both domestic and foreign and include
government agencies and private industries.
The crew normally consists of five people - the commander, the pilot,
and three mission specialists. On occasion additional crew members are
assigned. The commander, pilot, and mission specialists are NASA
astronauts.
Pilot Astronaut
Pilot astronauts server as both Space Shuttle commanders and pilots.
During flight the commander has onboard responsibility for the vehicle,
crew, mission success and safety in flight. The pilot assists the
commander in controlling and operating the vehicle. In addition, the
pilot may assist in the deployment and retrieval of satellites utilizing
the remote manipulator system, in extra-vehicular activities, and other
payload operations.
Mission Specialist Astronaut
Mission specialist astronauts, working with the commander and pilot,
have overall responsibility for the coordination of Shuttle operations
in the areas of crew activity planning, consumables usage, and
experiment and payload operations. Mission specialists are required to
have a detailed knowledge of Shuttle systems, as well as detailed
knowledge of the operational characteristics, mission requirements and
objectives, and supporting systems and equipment for each of the
experiments to be conducted on their assigned missions. Mission
specialists will perform extra-vehicular activities, payload handling
using the remote manipulator system, and perform or assist in specific
experimental operations.
Astronaut Candidate Program
===========================
Basic Qualification Requirements
--------------------------------
Applicants MUST meet the following minimum requirements prior to
submitting an application.
Mission Specialist Astronaut Candidate:
1. Bachelor's degree from an accredited institution in engineering,
biological science, physical science or mathematics. Degree must be
followed by at least three years of related progressively responsible,
professional experience. An advanced degree is desirable and may be
substituted for part or all of the experience requirement (master's
degree = 1 year, doctoral degree = 3 years). Quality of academic
preparation is important.
2. Ability to pass a NASA class II space physical, which is similar to a
civilian or military class II flight physical and includes the following
specific standards:
Distant visual acuity:
20/100 or better uncorrected,
correctable to 20/20, each eye.
Blood pressure:
140/90 measured in sitting position.
3. Height between 60 and 76 inches.
Pilot Astronaut Candidate:
1. Bachelor's degree from an accredited institution in engineering,
biological science, physical science or mathematics. Degree must be
followed by at least three years of related progressively responsible,
professional experience. An advanced degree is desirable. Quality of
academic preparation is important.
2. At least 1000 hours pilot-in-command time in jet aircraft. Flight
test experience highly desirable.
3. Ability to pass a NASA Class I space physical which is similar to a
military or civilian Class I flight physical and includes the following
specific standards:
Distant visual acuity:
20/50 or better uncorrected
correctable to 20/20, each eye.
Blood pressure:
140/90 measured in sitting position.
4. Height between 64 and 76 inches.
Citizenship Requirements
Applications for the Astronaut Candidate Program must be citizens of
the United States.
Note on Academic Requirements
Applicants for the Astronaut Candidate Program must meet the basic
education requirements for NASA engineering and scientific positions --
specifically: successful completion of standard professional curriculum
in an accredited college or university leading to at least a bachelor's
degree with major study in an appropriate field of engineering,
biological science, physical science, or mathematics.
The following degree fields, while related to engineering and the
sciences, are not considered qualifying:
- Degrees in technology (Engineering Technology, Aviation Technology,
Medical Technology, etc.)
- Degrees in Psychology (except for Clinical Psychology, Physiological
Psychology, or Experimental Psychology which are qualifying).
- Degrees in Nursing.
- Degrees in social sciences (Geography, Anthropology, Archaeology, etc.)
- Degrees in Aviation, Aviation Management or similar fields.
Application Procedures
----------------------
Civilian
The application package may be obtained by writing to:
NASA Johnson Space Center
Astronaut Selection Office
ATTN: AHX
Houston, TX 77058
Civilian applications will be accepted on a continuous basis. When NASA
decides to select additional astronaut candidates, consideration will be
given only to those applications on hand on the date of decision is
made. Applications received after that date will be retained and
considered for the next selection. Applicants will be notified annually
of the opportunity to update their applications and to indicate
continued interest in being considered for the program. Those applicants
who do not update their applications annually will be dropped from
consideration, and their applications will not be retained. After the
preliminary screening of applications, additional information may be
requested for some applicants, and person listed on the application as
supervisors and references may be contacted.
Active Duty Military
Active duty military personnel must submit applications to their
respective military service and not directly to NASA. Application
procedures will be disseminated by each service.
Selection
---------
Personal interviews and thorough medical evaluations will be required
for both civilian and military applicants under final consideration.
Once final selections have been made, all applicants who were considered
will be notified of the outcome of the process.
Selection rosters established through this process may be used for the
selection of additional candidates during a one year period following
their establishment.
General Program Requirements
Selected applicants will be designated Astronaut Candidates and will be
assigned to the Astronaut Office at the Johnson Space Center, Houston,
Texas. The astronaut candidates will undergo a 1 year training and
evaluation period during which time they will be assigned technical or
scientific responsibilities allowing them to contribute substantially to
ongoing programs. They will also participate in the basic astronaut
training program which is designed to develop the knowledge and skills
required for formal mission training upon selection for a flight. Pilot
astronaut candidates will maintain proficiency in NASA aircraft during
their candidate period.
Applicants should be aware that selection as an astronaut candidate does
not insure selection as an astronaut. Final selection as an astronaut
will depend on satisfactory completion of the 1 year training and
evaluation period. Civilian candidates who successfully complete the
training and evaluation and are selected as astronauts will become
permanent Federal employees and will be expected to remain with NASA for
a period of at least five years. Civilian candidates who are not
selected as astronauts may be placed in other positions within NASA
depending upon Agency requirements and manpower constraints at that
time. Successful military candidates will be detailed to NASA for a
specified tour of duty.
NASA has an affirmative action program goal of having qualified
minorities and women among those qualified as astronaut candidates.
Therefore, qualified minorities and women are encouraged to apply.
Pay and Benefits
----------------
Civilians
Salaries for civilian astronaut candidates are based on the Federal
Governments General Schedule pay scales for grades GS-11 through GS-14,
and are set in accordance with each individuals academic achievements
and experience.
Other benefits include vacation and sick leave, a retirement plan, and
participation in group health and life insurance plans.
Military
Selected military personnel will be detailed to the Johnson Space Center
but will remain in an active duty status for pay, benefits, leave, and
other similar military matters.
NEXT: FAQ #15/15 - Orbital and Planetary Launch Services
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From: leech@mahler.cs.unc.edu (Jon Leech)
Newsgroups: sci.astro,sci.space,news.answers
Subject: Space FAQ 06/15 - Constants and Equations
Keywords: Frequently Asked Questions
Message-ID: <constants_723318204@cs.unc.edu>
Date: 2 Dec 92 17:43:30 GMT
Expires: 6 Jan 93 17:43:24 GMT
References: <diffs_723318039@cs.unc.edu>
Sender: news@cs.unc.edu
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Organization: University of North Carolina, Chapel Hill
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CONSTANTS AND EQUATIONS FOR CALCULATIONS
This list was originally compiled by Dale Greer. Additions would be
appreciated.
Numbers in parentheses are approximations that will serve for most
blue-skying purposes.
Unix systems provide the 'units' program, useful in converting
between different systems (metric/English, etc.)
NUMBERS
7726 m/s (8000) -- Earth orbital velocity at 300 km altitude
3075 m/s (3000) -- Earth orbital velocity at 35786 km (geosync)
6378 km (6400) -- Mean radius of Earth
1738 km (1700) -- Mean radius of Moon
5.974e24 kg (6e24) -- Mass of Earth
7.348e22 kg (7e22) -- Mass of Moon
1.989e30 kg (2e30) -- Mass of Sun
3.986e14 m^3/s^2 (4e14) -- Gravitational constant times mass of Earth
4.903e12 m^3/s^2 (5e12) -- Gravitational constant times mass of Moon
1.327e20 m^3/s^2 (13e19) -- Gravitational constant times mass of Sun
384401 km ( 4e5) -- Mean Earth-Moon distance
1.496e11 m (15e10) -- Mean Earth-Sun distance (Astronomical Unit)
1 megaton (MT) TNT = about 4.2e15 J or the energy equivalent of
about .05 kg (50 gm) of matter. Ref: J.R Williams, "The Energy Level
of Things", Air Force Special Weapons Center (ARDC), Kirtland Air
Force Base, New Mexico, 1963. Also see "The Effects of Nuclear
Weapons", compiled by S. Glasstone and P.J. Dolan, published by the
US Department of Defense (obtain from the GPO).
EQUATIONS
Where d is distance, v is velocity, a is acceleration, t is time.
For constant acceleration
d = d0 + vt + .5at^2
v = v0 + at
v^2 = 2ad
Acceleration on a cylinder (space colony, etc.) of radius r and
rotation period t:
a = 4 pi**2 r / t^2
For circular Keplerian orbits where:
Vc = velocity of a circular orbit
Vesc = escape velocity
M = Total mass of orbiting and orbited bodies
G = Gravitational constant (defined below)
u = G * M (can be measured much more accurately than G or M)
K = -G * M / 2 / a
r = radius of orbit (measured from center of mass of system)
V = orbital velocity
P = orbital period
a = semimajor axis of orbit
Vc = sqrt(M * G / r)
Vesc = sqrt(2 * M * G / r) = sqrt(2) * Vc
V^2 = u/a
P = 2 pi/(Sqrt(u/a^3))
K = 1/2 V**2 - G * M / r (conservation of energy)
The period of an eccentric orbit is the same as the period
of a circular orbit with the same semi-major axis.
Change in velocity required for a plane change of angle phi in a
circular orbit:
delta V = 2 sqrt(GM/r) sin (phi/2)
Energy to put mass m into a circular orbit (ignores rotational
velocity, which reduces the energy a bit).
GMm (1/Re - 1/2Rcirc)
Re = radius of the earth
Rcirc = radius of the circular orbit.
Classical rocket equation, where
dv = change in velocity
Isp = specific impulse of engine
Ve = exhaust velocity
x = reaction mass
m1 = rocket mass excluding reaction mass
g = 9.80665 m / s^2
Ve = Isp * g
dv = Ve * ln((m1 + x) / m1)
= Ve * ln((final mass) / (initial mass))
Relativistic rocket equation (constant acceleration)
t (unaccelerated) = c/a * sinh(a*t/c)
d = c**2/a * (cosh(a*t/c) - 1)
v = c * tanh(a*t/c)
Relativistic rocket with exhaust velocity Ve and mass ratio MR:
at/c = Ve/c * ln(MR), or
t (unaccelerated) = c/a * sinh(Ve/c * ln(MR))
d = c**2/a * (cosh(Ve/C * ln(MR)) - 1)
v = c * tanh(Ve/C * ln(MR))
Converting from parallax to distance:
d (in parsecs) = 1 / p (in arc seconds)
d (in astronomical units) = 206265 / p
Miscellaneous
f=ma -- Force is mass times acceleration
w=fd -- Work (energy) is force times distance
Atmospheric density varies as exp(-mgz/kT) where z is altitude, m is
molecular weight in kg of air, g is local acceleration of gravity, T
is temperature, k is Bolztmann's constant. On Earth up to 100 km,
d = d0*exp(-z*1.42e-4)
where d is density, d0 is density at 0km, is approximately true, so
d@12km (40000 ft) = d0*.18
d@9 km (30000 ft) = d0*.27
d@6 km (20000 ft) = d0*.43
d@3 km (10000 ft) = d0*.65
Titius-Bode Law for approximating planetary distances:
R(n) = 0.4 + 0.3 * 2^N Astronomical Units (N = -infinity for
Mercury, 0 for Venus, 1 for Earth, etc.)
This fits fairly well except for Neptune.
CONSTANTS
6.62618e-34 J-s (7e-34) -- Planck's Constant "h"
1.054589e-34 J-s (1e-34) -- Planck's Constant / (2 * PI), "h bar"
1.3807e-23 J/K (1.4e-23) - Boltzmann's Constant "k"
5.6697e-8 W/m^2/K (6e-8) -- Stephan-Boltzmann Constant "sigma"
6.673e-11 N m^2/kg^2 (7e-11) -- Newton's Gravitational Constant "G"
0.0029 m K (3e-3) -- Wien's Constant "sigma(W)"
3.827e26 W (4e26) -- Luminosity of Sun
1370 W / m^2 (1400) -- Solar Constant (intensity at 1 AU)
6.96e8 m (7e8) -- radius of Sun
1738 km (2e3) -- radius of Moon
299792458 m/s (3e8) -- speed of light in vacuum "c"
9.46053e15 m (1e16) -- light year
206264.806 AU (2e5) -- \
3.2616 light years (3) -- --> parsec
3.0856e16 m (3e16) -- /
Black Hole radius (also called Schwarzschild Radius):
2GM/c^2, where G is Newton's Grav Constant, M is mass of BH,
c is speed of light
Things to add (somebody look them up!)
Basic rocketry numbers & equations
Aerodynamical stuff
Energy to put a pound into orbit or accelerate to interstellar
velocities.
Non-circular cases?
Atmosphere scale height for various planets.
NEXT: FAQ #7/15 - Astronomical Mnemonics
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From: leech@mahler.cs.unc.edu (Jon Leech)
Newsgroups: sci.space,news.answers
Subject: Space FAQ 12/15 - Controversial Questions
Keywords: Frequently Asked Questions
Message-ID: <controversy_723318270@cs.unc.edu>
Date: 2 Dec 92 17:44:38 GMT
Expires: 6 Jan 93 17:44:30 GMT
References: <diffs_723318039@cs.unc.edu>
Sender: news@cs.unc.edu
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Organization: University of North Carolina, Chapel Hill
Lines: 239
Approved: news-answers-request@MIT.Edu
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Archive-name: space/controversy
Last-modified: $Date: 92/12/02 12:34:34 $
CONTROVERSIAL QUESTIONS
These issues periodically come up with much argument and few facts being
offered. The summaries below attempt to represent the position on which
much of the net community has settled. Please DON'T bring them up again
unless there's something truly new to be discussed. The net can't set
public policy, that's what your representatives are for.
WHAT HAPPENED TO THE SATURN V PLANS
Despite a widespread belief to the contrary, the Saturn V blueprints
have not been lost. They are kept at Marshall Space Flight Center on
microfilm.
The problem in re-creating the Saturn V is not finding the drawings, it
is finding vendors who can supply mid-1960's vintage hardware (like
guidance system components), and the fact that the launch pads and VAB
have been converted to Space Shuttle use, so you have no place to launch
from.
