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1 futureis here_governor
1. The Future is Here:
Emerging
Technology, Jobs,
Curricula, Students
and Partnerships
2. “In West Texas, McDonalds gets 40 applicants for
every job and I get one applicant for every 40 jobs.
Aviation technicians start at $30,000 per year at
American Eagle.” –Harley Hall, American Eagle, Abilene
3. “The IT computer
phenomena of the
late 1990’s is
prevalent today with
technology fields in
general. We are
seeing high school
technical programs
go out the window.
We are concerned.
We are worried.”
–Bruce Mabrito,
4. “Over the next ten years, 26 of
the top 30 fastest growing jobs
will require some post-
secondary education or
training...The demand for
skilled workers is outpacing
supply, resulting in attractive,
high-paying jobs going
unfilled.” Emily Stover De Rocco
Assistant Secretary of Labor for Education and Training
5. “Over the next ten years, 26 of
the top 30 fastest growing jobs
will require some post-
secondary education or
training...The demand for
skilled workers is outpacing
supply, resulting in attractive,
high-paying jobs going
unfilled.” Emily Stover De Rocco
Assistant Secretary of Labor for Education and Training
6. “We need to prepare a
high tech workforce or we
will have to import workers
from the outside.”
--Mayor Charmain Tavares, Maui
7. Butler Community College
April 7 to 11, 2008
Wichita Metro
Chamber of Commerce
What is your biggest challenge?
“Workforce… We keep doing the
same thing over and over and
expecting a different result.”
–Bryan
“We are losing institutional
knowledge and skill.”
--Jim
--Bryan Derreberry, President & CEO &
Jim Schwarzenberger, VP
9. National Institute
for Aviation
Research
“If we don’t have a
trained workforce,
we’ll create
technology and
export jobs.”
-- John Tomblin, Executive
Director
Butler Community College
April 7 to 11, 2008
10. Butler County
Economic
Development
“In the world of economic
development, people talk
about the importance of
location, location,
location… but without the
labor force location means
nothing.”
--David Alfaro, Director Butler
County Economic Develoipment
Butler Community College
April 7 to 11, 2008
16. 16
Where Are The Jobs?
Source: Achieve Texas: Lifelong Success for All
Students, p. 3
17. 17
Where Are The Jobs?
Source: Career Pathways: Education with a
Purpose, p. 35
Source: Achieve Texas: Lifelong Success for All
Students, p. 3
1950 2004
18. The number of jobs
requiring technical
training is growing at
five times the rate of
other occupations.
Innovate America, U.S. Council on Competitiveness
19. Highest Paying Majors 1 Year Post-Graduation:
Bachelors & Associates Degrees Only
College Major Exit Level Annual Pay
1. Health Professions/Clinical Sciences BA $47,306
2. Engineering BA $45,278
3. Health Professions/Clinical Sciences AAS $44,230
4. Construction Trades AAS $40,120
5. Engineering Technologies/Technicians BA $39,677
6. Science Technologies/ Technicians AAS $37,968
7. Architectural & Related Services AAS $36,737
8. Precision Production AAS $34,167
9. Computer & Information Sciences BA $33,276
10. Business, Mgmt. & Marketing BA $30,851
**Avg. earnings for entire graduating cohort, not for individual graduates
20. “TSTC grads’ entry-
level pay is $32K-to-
$44K per year. They
make a lot more
because they get
double-time after 9
hours of OT. My
lowest paid tech
made ~$69K, the
average was ~$85K
and the highest paid
was ~$120K.”
–Nat Lopez, AT&T
Network Services
21. “In 2006, demand was off the charts.
Every graduate had a job 6 months
before graduation. Chemical
Technology Graduates typically start
at $35K and it is not uncommon for
them to make $60K-to-$70K per
year.” –Robert Hernandez, TSTC
22. Auto Collision
$30K - $40K in
the Valley
$42K plus
home, auto,
health and life
insurance plus
a car
26. Nurses use to be able to
depend on their ability to
care for patients… now
they have to be more
technical and work
computers, equipment,
understanding best
practices and managing
inventory.”
–Pam Craig, Chief Nursing
Officer, Brownwood
Regional Medical Center
27.
28. Brownwood Regional Medical
Center Workforce Projections
Allied Health Occupation Salary*
Currently
Employed
Openings
Today
New Jobs do
to Attrition in 3
Years
New Jobs due to
Growth in 3 Years
Registered Nurse
$37,440 to
$56,160
100 15 30 80*
Occupational
Therapist
$62,400 to
$78,000
2 2 0 2
Physical Therapist
$62,400 to
$78,000
6 to 8 2 2 0
Medical Lab Techs
$29,120 to
$45,760
~12 ~3 ~3 0
Respiratory Therapists
$31,200 to
$52,000
10 1 1 0
LVN
$22,880 to
$37,440
100 ~3 - -
*Salaries are normally much higher in reality given shift differentials, weekend differentials, over time, charge differentials, and clinical latters
Example: An enrty RN making $37,440 will likely make closer to $45,760 given differentials and other factors.
**Given adequate supply
Source: Interview with John Sharp, CFO, Brownwood Regional Medical Center, Conducted on 3/22/2007
29. “US DOL states that health careers will grow faster than any other sector of the
labor market at about 30%. Three out of every 10 new jobs in the next 20
years will be in health-related fields. In Texas, according to state labor
projections, employment in health care facilities will increase 44-46% in Willacy,
Hildago and Starr counties.”
--Barbara Bennett, CDA, RDH, MS, TSTC Dental and Health Programs
30. “Turbine Techs earn
$28-$40K a year… Many
techs earning $40K -
$80K a year with OT.”
– Bryan Gregory, Jr.
11.1.2006, TSTC West TX, Sweetwater
31. “In most industries
you have
electricians,
mechanics and IT, in
wind, you are
expected to do
everything.”
-- Bryan Gregory, Jr.
11.1.2006, TSTC West TX, Sweetwater
35. “Every system
on a car is
monitored or
controlled by a
computer.
Technicians
have to be more
analytical and
process
oriented.”
--Russell Carrigan, TSTC
West, TX, Sweetwater,
36. “It used to be the
sledgehammer
mechanic. These days,
the technology has
advanced so much that
our most important tool
is our brain. It is more
of a thinking man’s
game now.”
Jeff Nelson
Service Manager
CAT
Skill Mergers
38. “We are looking for
someone who can look at
the mechanical, the
electrical and the control
and understand these
systems. We need people
who are capable of
crossing over between
these various areas.”
--Don Sheffield
Senior Recruiter
GlobalSantaFe
TSTC West TX, Sweetwater
39. “We need
people who
have integrated
skills related to
mechanical,
electronic,
hydraulics and
pneumatics.”
Bill Biffinger, HR,
Superior Essex
TSTC West TX
40. “….we had to upgrade our basic
mechanic skills to include
programmable logic controllers and
electrical systems.”
--Dr. Ron Lentsch, Allergan
4/2007, TSTC Waco
46. Tolerances are getting tighter and tighter, we need
people who can work with their heads and their hands.
47. “In this plant, in
the next three
years we will need
nine
Instrumentation
and Numerical
Control (INC)
technicians.”
Edward C. Trump
Plant Manager
Entergy
4/2007, TSTC Marshall
55. Jobs Analysis
• 1950’s Jobs vs Millennium Jobs
• KSA Mergers (Ph.D. to Operator)
• Job Mergers = Academic Mergers
(K&S)
• Systems Thinkers and Do’ers
(multi-skill)
56. www.tstc.edu
Forecast Emerging Technologies
… of offering
critical and
emerging
technologies, TSTC
is leading a
consortium of
college and
industry partners
developing a
statewide
curriculum in fuel
cell technology.
60. Wichita Metro
Chamber of Commerce
“Alignment is the issue…
We need to start in 5th
or
6th
grade...” --Bryan
“We need to build a
[human capital] supply
chain…” --Jim
--Bryan Derreberry, President & CEO
and Jim Schwarzenberger, VP Butler Community College
April 7 to 11, 2008
61. “No one gets left
behind but no one is
going anywhere.”
--Bruce Butler, STEM Chair, Maui
Community College
62. “Not all kids learn the
same way—we need
to bridge the gaps.”
–Rose Yamada, Elder
63. “If the end goal is innovation,
creativity, problem solving,
critical thinking… We can not
continue to look at the world
through a pin hole.”
--Dr. Warren Hitz, Kamehameha
Schools
65. K-12
CTC – Workforce &
Technical Programs
University
Employers
Industry, Government, Military
and Civil Society
Environmental System of Forces
Globalization, Demography, Science & Technology
67. Flip Side
“Like many school systems, Maryland's Charles County
Public Schools had different tracks for high school
students who were going on to college and those pursuing
vocational training. This outdated model ultimately reduced
the status of voc ed to a lower level than academic
programs. James Richmond, our district
superintendent, championed the idea of a 21st-
century school that would bring vocational and
academic students together in one facility.”
77. L3 Scholarship Model
Semester 1, 2, 3
Eligibility for part-time employment at L3
Semester 4, 5
Tuition paid for first three semesters
Part-time employment at L3
Tuition paid directly by L3
Upon Graduation
Two-year employment contract with L3
78. Students Education Industry
Clear path to career
Reduced student debt
Real work experience
Purposeful investment
HIGHER SUCCESS RATES
Fulfilling the mission
Aligned curriculum with industry needs
Grow programs in demand
Anticipate new program needs
INCREASED ENROLLMENT
Leveraged investment
Positive ROI
Not subject to supply
Engaged in production
QUALITY WORKFORCE
79. Willard R. Daggett, Ed.D.,
President of the International
Center for Leadership in Education
Academics
ARTSCTE
America’s Top
Performing Schools
81. Sarah
“It’s a stepping stone.”
Nash
“We rotate through the ER,
pediatrics, surgery, ICU, new
born, labor and delivery and
oncology.”
Sarah
“I am going to the University of
MHB, then into nursing and
hopefully to medical school.”
Nash
“I am going to become an
emergency medical technician
next year at TSTC through dual
enrollment and I want to go onto
specialize and work in the
emergency room.”
Cindy Bengston, RN, BSN
“CNA’s in the dual enrollment
program with TSTC have a 100%
pass rate. Most classes are 40%-
to50%. It’s unheard of…”
82. “Understanding
systems is the
core. Today’s
technicians have
to play different
roles. They have
to know
electronics, com-
puters and
mechanical
systems and
how they
interact.”
--Diego Villarreal
91. Educational environment which
facilitates student pursuit of :
• Licensures/Certifications
• College Credits through Dual Credit
• Academic Excellence and CTE Relevance
• Knowledge/skills that will increase earning
potential and better prepare students for
post-secondary college and career goals
92. “We need to
integrate and expand
CTE systematically.”
--Bruce Henderson, Superintendant,
CAS, Maui
93. Butler Community College
April 7 to 11, 2008
Kansas Board of Regents,
TEA
“We need to be able to
be able to move beyond
pilots in order to scale to
the entire state.“
–Blake Flanders, Kansas Board of
Regents, Kansas Post Secondary
Technical Ed Authority
103. Lower Rio Grande Valley
o College transition rates,
all students: 56.7%
o College transition rates,
Tech Prep (2005
cohort): 65.7%
State of Texas
o College transition rates,
all students: 55.3%
o College transition rates
(2005 cohort): Tech
Prep: 55.6%
Source: High School College Linkages, THECB Fall 2006 Preliminary
Enrollment, (2005-2006 Data), in Patricia G. (Pat) Bubb
18% Increase in College Attendance
104. Focus on CTE
medium-high
skill and
professional
vocations
CTE perception
low skill or no
skill -- Blue Collar
CTE Position &
Perception
Shifting
118. “There is hidden poverty in Maui…”
“The Indian reservation on the
mainland is like home—I see
poverty, alcohol abuse, drug
abuse… the same problems.”
“There are more native Hawaiians
in jail per capita than any other
population in the US.”
119. “There are kids on Maui
who have never been to
the top of the mountain or
to Hana much less have
they traveled off of the
island.”
http://www.flickr.com/photos/fotographis/528878003/sizes/o/
“There are kids on Maui who have never been to the
top of the Halealaka or to Hana much less have they
traveled off of the island.”
120. The key 21st
Century issues:
war, environmental
degradation, globalization,
population explosion,
hunger, poverty and the…
121. The key 21st
Century issues:
…competitiveness of the
military, companies, students
and workers.
122. “I do not think Maui is any
different than the
mainland…post
industrialization has
placed greater demands
on math and education.”
–Rose Yamada, elder
123. “We need to prepare a
high tech workforce or we
will have to import workers
from the outside.”
--Mayor Charmain Tavares, Maui
135. $7.5 million project that immerses students in the hectic environment of a
hospital's intensive care unit and places them in a first-person role as a health-
care professional. Funded by the U.S. Office of Naval Research, Pulse!! is being
developed by Texas A&M-Corpus Christi, which in turn hired Hunt Valley (Md.)-
based BreakAway to produce and design the platform. –Business Week
http://www.businessweek.com/innovate/content/apr2006/id20060410_051875.htm
Pulse!!
136. USC ISI and Tactical Language Training
(ITSEC 2005)
138. Yang Cai, Ingo Snel, Betty Chenga, Suman
Bharathi, Clementine Klein d, Judith Klein-
Seetharaman; Carnegie Mellon University,
University of Frankfurt, Research Institute,
University of Pittsburgh School of
Medicine.
www.andrew.cmu.edu/~ycai/biogam
139. Yang Cai, Ingo Snel, Betty Chenga, Suman
Bharathi, Clementine Klein d, Judith Klein-
Seetharaman; Carnegie Mellon University,
University of Frankfurt, Research Institute,
University of Pittsburgh School of
Medicine.
www.andrew.cmu.edu/~ycai/biogame.pdf
149. Vienna University of Technology
Players operate track switches
and adjusting the speed of virtual trains to prevent virtual trains
from colliding. Researchers Daniel Wagner, Thomas Pintaric and
160. “This is a plasma
deposition
machine…. We
are working to
put solar cells on
virtually any
surface—roof,
car, etc.”
–Scott Weeker,
Director of Business
Development
168. If you have an automobile made in the past 10
years, your car has more computing power than
rockets used to put man on the moon.
TSTC West TX, Sweetwater, 10.31.2006
169. http://www.xpcarteam.com/
XP Vehicle Systems
Features: Over 2500 mile range using our patented XPack Multi-Core(TM) power plant, energy is delivered
to you when you need it, inflatable frame technology, extensive ability to customize and mitigate
obsolescence (EVERYTHING is upgradeable), you assemble or dealer assemble, direct ships to
you, some models can change bodies, some models fold after assemble for storage or parking.
182. Inflatable exoskeleton
This prototype "power jacket" from
Matsushita Electric Industrial is
designed to help patients recover from
partial paralysis.
Sensors at the elbow and wrist allow a
healthy arm to control the eight artificial
muscles, which are powered by
compressed air, on the paralyzed side.
188. The number of jobs
requiring technical
training is growing at
five times the rate of
other occupations.
Innovate America, U.S. Council on Competitiveness
190. “Our goal is
to reduce the
cost of
installed
material
2/3rds and to
double the
performance
of the best
performing
pv in the
market
today.” –Dan
O’Conneell,
CEO
191. “We are the first bio-diesel company in the US.” –
Kelly Takaya King, Co-Founder
192. “Organic requires integration, more
science, more diversity, more
complexity, more information
intensity.”--Ann Emmsley, Agriculture Program
Coordinator
195. “65% of the people moving
here between now and
2020 will be retirement
age… Over the same
period we will lose 80% of
our nurses on Maui.”
–Nancy Johnson, MCC, Nursing
Chair
200. “Turbine Techs earn
$28-$40K a year… Many
techs earning $40K -
$80K a year with OT.”
– Bryan Gregory, Jr.
11.1.2006, TSTC West TX, Sweetwater
201. “In most industries
you have electricians,
mechanics and IT, in
wind, you are
expected to do
everything.”
-- Bryan Gregory, Jr.
11.1.2006, TSTC West TX, Sweetwater
215. Butler Community College
April 7 to 11, 2008
Spirit
AeroSystems
“1,000 workers a
year needed for
the aerospace
cluster… 2,000
plus when we are
on the up side.”
--Jeff Turner,
CEO
216. Frontier El Dorado Refining,
Butler Community College
April 7 to 11, 2008
231. Butler Community College
April 7 to 11, 2008
“BCC has 2+2 programs with Wichita State University,
Kansas State, and Pittsburg State University.”
–Buford Pringle, Integrated Manufacturing Technology
239. Lubbock – North Texas
Regional Center for
Innovation and
Commercialization
Notes de l'éditeur
Cybernetics is a theory of the communication and control of regulatory feedback. The term cybernetics stems from the Greek kybernetes (meaning steersman, governor, pilot, or rudder). Cybernetics is the discipline that studies communication and control in living beings and in the machines built by humans.
A more philosophical definition, suggested in 1958 by Louis Couffignal, one of the pioneers of cybernetics in the 1930s, considers cybernetics as "the art of assuring efficiency of action" (see external links for reference).
Cybernetics is a theory of the communication and control of regulatory feedback. The term cybernetics stems from the Greek kybernetes (meaning steersman, governor, pilot, or rudder). Cybernetics is the discipline that studies communication and control in living beings and in the machines built by humans.
A more philosophical definition, suggested in 1958 by Louis Couffignal, one of the pioneers of cybernetics in the 1930s, considers cybernetics as "the art of assuring efficiency of action" (see external links for reference).
Cybernetics is a theory of the communication and control of regulatory feedback. The term cybernetics stems from the Greek kybernetes (meaning steersman, governor, pilot, or rudder). Cybernetics is the discipline that studies communication and control in living beings and in the machines built by humans.
A more philosophical definition, suggested in 1958 by Louis Couffignal, one of the pioneers of cybernetics in the 1930s, considers cybernetics as "the art of assuring efficiency of action" (see external links for reference).
Workforce Knowledge and Skill Mergers
1. Skilled (Blue)-Professional (White)
2. Mecha-Computers-Electronics
3. Engineering-Technical-Scientific
K-12 Mergers
1. CTE-Gen acad-Arts
2. Applied, theoretical, contextual
3. K-12-CTC-University-Industry
4. Technical-Engineering-Scientific
TSTC Strategic Mergers
IT-Mecha-Graphics and all programsa almost
Workforce Knowledge and Skill Mergers
1. Skilled (Blue)-Professional (White)
2. Mecha-Computers-Electronics
3. Engineering-Technical-Scientific
K-12 Mergers
1. CTE-Gen acad-Arts
2. Applied, theoretical, contextual
3. K-12-CTC-University-Industry
4. Technical-Engineering-Scientific
TSTC Strategic Mergers
IT-Mecha-Graphics and all programsa almost
Workforce Knowledge and Skill Mergers
1. Skilled (Blue)-Professional (White)
2. Mecha-Computers-Electronics
3. Engineering-Technical-Scientific
K-12 Mergers
1. CTE-Gen acad-Arts
2. Applied, theoretical, contextual
3. K-12-CTC-University-Industry
4. Technical-Engineering-Scientific
TSTC Strategic Mergers
IT-Mecha-Graphics and all programsa almost
Cybernetics is a theory of the communication and control of regulatory feedback. The term cybernetics stems from the Greek kybernetes (meaning steersman, governor, pilot, or rudder). Cybernetics is the discipline that studies communication and control in living beings and in the machines built by humans.
A more philosophical definition, suggested in 1958 by Louis Couffignal, one of the pioneers of cybernetics in the 1930s, considers cybernetics as "the art of assuring efficiency of action" (see external links for reference).
http://todayinspacehistory.wordpress.com/2007/10/04/october-4-1957-the-russians-launch-sputnik/
LG SPUT IMAGE
« October 3, 1962 - Sigma 7 launches into orbit, Mercury-Atlas 8
October 5, 1929 - Astronaut Richard Gordon, Jr., is born »
Ads by GoogleSputnik
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Sputnik items.
Yahoo.com3D Earth Screensaver
Watch Realistic Animated 3D Earth
On Your Desktop. Free Download!
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The modern space age was birthed on October 4, 1957 when the Soviet’s launched the first man-made object to orbit the Earth, Sputnik.
Wikipedia says:
“Sputnik 1 was launched on October 4, 1957. The satellite was 58 cm (about 23 in) in diameter and weighed approximately 83.6 kg (about 183 lb). Each of its elliptical orbits around the Earth took about 96 minutes. Monitoring of the satellite was done by Amateur radio operators. The first long-range flight of the R-7 booster used to launch it had occurred on August 21 and was described in Aviation Week. Sputnik 1 was not visible from Earth but the casing of the R-7 booster, traveling behind it, was.”
Quotes:
“Both countries [Russia and the United States] knew that preeminence in space was a condition of their national security. That conviction gave both countries a powerful incentive to strive and compete. The Soviets accomplished many important firsts, and this gave us a great incentive to try harder.
The space program also accomplished another vital function in that it kept us out of a hot war. It gave us a way to compete technologically, compete as a matter of national will. It may have even prevented World War III, with all the conflict and fighting focused on getting to the moon first, instead of annihilating each other. There’s no evidence of that, but as eyewitness to those events, I think that’s what happened.”
- American astronaut Scott Carpenter quoted in Into that Silent Sea (p. 138).
___________________
www.globalsecurity.org/.../imint/u-2_tt.htm
U-2 Product
SS-6 / Sputnik Launch Pad, Baikonur
TOP of LAUNCH
IMAGE
Sputnik on the launch pad being prepared for liftoff
However, another event that occurred in the Soviet Union in 1960 is generally recognized as the single greatest disaster in the history of rocketry. The event was not directly related to manned space flight, but to the development of an intercontinental ballistic missile (ICBM). In the early days of space flight, both the US and Soviet space programs were very much intertwined with the development of ICBMs. These vehicles were designed to launch nuclear warheads over great distances, leaving no part of the world safe from the threat of nuclear destruction. However, the technologies pioneered for these weapons of war served a secondary purpose of providing the first generation of rockets for space exploration.
Sputnik on the launch pad being prepared for liftoff
In fact, the early flights of Sputnik and Yuri Gagarin in the USSR as well as those of Explorer I and John Glenn in the US were all conducted using modified ballistic missiles. The primary Soviet launch vehicle of the period was the R-7 rocket, modified versions of which are still used even today for most Russian space flights. The R-7 was originally developed as an ICBM under the direction of Sergei Korolev, the Soviet Union's pre-eminent rocket designer of the day. The R-7 successfully completed a number of test flights between 1957 and 1959, including launching the first two artificial satellites. While only four examples of the R-7 were ever deployed as ballistic missiles from 1960 to 1968, the same basic design has remained in use throughout the Russian space program. Modern variants of the R-7 continue to launch satellites as well as manned Soyuz flights, and the type had achieved a success rate of nearly 98% in over 1,600 launches by the year 2000.
_____________
Apollo 17
http://www.phys.ncku.edu.tw/~astrolab/mirrors/apod/ap031109.html
Apollo 17 _ 1
http://xpda.com/junkmail/junk162/GPN-2000-001876.jpg
Apollo 17 _ 2
Apollo 17 launch, December 17, 1972:
http://xpda.com/junkmail/junk162/junk162.htm
Mars
http://whyfiles.org/194spa_travel/images/mars.gif
Moon
http://www.rc-astro.com/php/phpthumb/cache/phpThumb_cache_rc-astro.com_srcfadbb9057f0dac8e921d1bffc3590ce0_par0ddf367c5f01d9ba090bf356b6761f52_dat1168633826.jpeg
Kennedy
http://www.historicaldocuments.com/JohnFKennedysLastSpeech.gif
November 21, 1963
Dedication Ceremony of the New Facilities of the School of
Aerospace Medicine at Brooks Air Force Base, Texas
http://www.historicaldocuments.com/JohnFKennedysLastSpeech.htm
SPACE TEAMS
MCD
KANE
Toursit
Russian
http://science.qj.net/Microsoft-billionaire-joins-ISS-bound-Russian-space-flight/pg/49/aid/88814
U.S. software mogul Charles Simonyi became the world's fifth space tourist - "space flight participant," as officials call them - to go into orbit. Simonyi, who helped developed Microsoft Word, paid US$ 25M for the opportunity to join the crew of the Russian spacecraft Soyuz TMA-10.
The 58-year-old Hungary-born billionaire is making a 12-day round trip to the International Space Station (ISS). Joining him on the trip were Russian cosmonauts Fyodor Yurchikhin and Oleg Kotov of the 15th ISS crew. The spacecraft Simonyi and the Russian cosmonauts lifted off from the Bainokur Cosmodrome in Kazakhstan at 11:31 P.M. local time (1:31 P.M. EDT). They are due to dock with the ISS on Monday.
Simonyi will be treating the current occupants of the ISS to a gourmet meal three days after arriving at the space station. The meal will be held in honor of Cosmonauts' Day, the Russian holiday commemorating Yuri Gagarin's historic 1961 space flight. Everybody else mentioned who prepared the meal so we won't. Suffice to say, she's famous, knows her way around a house, and looked good in orange.
In this Associated Press photo: In this image made from NASA-TV, U.S. billionaire Charles Simonyi, front row right, flips upside down during a news conference after he, Fyodor Yurchikhin, left, and Russian cosmonaut Oleg Kotov, front center, docked at the international space station Monday, April 9, 2007. A Russian-built Soyuz capsule carrying the American billionaire who helped develop Microsoft Word docked at the international space station late Monday, to the earthbound applause of Martha Stewart and others at Mission Control. In the back row, Commander Michael Lopez-Alegria can be seen. (AP Photo/NASA TV)
___________
Tito
http://cache.viewimages.com/xc/1310822.jpg?v=1&c=ViewImages&k=2&d=17A4AD9FDB9CF1939057D9939C83F106174681002B4CEC415A5397277B4DC33E
MIR
http://solarsystem.nasa.gov/people/images/inset-LucidS-5-large.jpg
http://csatweb.csatolna.hu/tagok/csa/mars/rover.jpg
RICHS TECHNOLOGY CAMERA - BODY
HAWKING
http://gozerog.com/images/Hawking_001.jpg
Public Domain. Suggested credit: NASA or National Aeronautics and Space Administration via pingnews.
KENNEDY SPACE CENTER, FLA. -- Noted physicist Stephen Hawking (center) enjoys zero gravity during a flight aboard a modified Boeing 727 aircraft owned by Zero Gravity Corp. (Zero G). Hawking, who suffers from amyotrophic lateral sclerosis (also known as Lou Gehrig's disease) is being rotated in air by (right) Peter Diamandis, founder of the Zero G Corp., and (left) Byron Lichtenberg, former shuttle payload specialist and now president of Zero G. Kneeling below Hawking is Nicola O'Brien, a nurse practitioner who is Hawking's aide. At the celebration of his 65th birthday on January 8 this year, Hawking announced his plans for a zero-gravity flight to prepare for a sub-orbital space flight in 2009 on Virgin Galactic's space service. Additional information from source:
No copyright protection is asserted for this photograph. If a recognizable person appears in this photograph, use for commercial purposes may infringe a right of privacy or publicity. It may not be used to state or imply the endorsement by NASA employees of a commercial product, process or service, or used in any other manner that might mislead. Accordingly, it is requested that if this photograph is used in advertising and other commercial promotion, layout and copy be submitted to NASA prior to release.
Source Physicist Stephen Hawking in Zero Gravity (NASA)
Date April 27, 2007 at 22:11
Zero Gravity's price tag for the daylong tour is $2,950, which includes preflight training and a postflight party.
From the Go Zero G Website:
The once-in-a-lifetime opportunity to fly like Superman can now be yours. Train with an expert coach, board our specially modified aircraft, G-FORCE ONE, and experience the unforgettable.
Experience zero gravity the only way possible without going to space. Parabolic flight is the same method NASA has used to train its astronauts for the last 45 years and the same way Tom Hanks floated in Apollo 13.
Book a seat on one of our regular flights conveniently based in Las Vegas, Nevada and at the Kennedy Space Center, near Orlando, Florida. The aircraft is also available for charter flights anywhere in the United States for groups, incentive trips, parties or team building.
http://todayinspacehistory.wordpress.com/2007/10/04/october-4-1957-the-russians-launch-sputnik/
LG SPUT IMAGE
« October 3, 1962 - Sigma 7 launches into orbit, Mercury-Atlas 8October 5, 1929 - Astronaut Richard Gordon, Jr., is born »October 4, 1957 - the Russian’s launch Sputnik
Ads by GoogleSputnik
Huge selection, great deals on
Sputnik items.
Yahoo.com3D Earth Screensaver
Watch Realistic Animated 3D Earth
On Your Desktop. Free Download!
www.CrawlerTools.com/3DEarth
The modern space age was birthed on October 4, 1957 when the Soviet’s launched the first man-made object to orbit the Earth, Sputnik.
Wikipedia says:
“Sputnik 1 was launched on October 4, 1957. The satellite was 58 cm (about 23 in) in diameter and weighed approximately 83.6 kg (about 183 lb). Each of its elliptical orbits around the Earth took about 96 minutes. Monitoring of the satellite was done by Amateur radio operators. The first long-range flight of the R-7 booster used to launch it had occurred on August 21 and was described in Aviation Week. Sputnik 1 was not visible from Earth but the casing of the R-7 booster, traveling behind it, was.”
Quotes:
“Both countries [Russia and the United States] knew that preeminence in space was a condition of their national security. That conviction gave both countries a powerful incentive to strive and compete. The Soviets accomplished many important firsts, and this gave us a great incentive to try harder.
The space program also accomplished another vital function in that it kept us out of a hot war. It gave us a way to compete technologically, compete as a matter of national will. It may have even prevented World War III, with all the conflict and fighting focused on getting to the moon first, instead of annihilating each other. There’s no evidence of that, but as eyewitness to those events, I think that’s what happened.”
- American astronaut Scott Carpenter quoted in Into that Silent Sea (p. 138).
___________________
www.globalsecurity.org/.../imint/u-2_tt.htm
U-2 Product
SS-6 / Sputnik Launch Pad, Baikonur
TOP of LAUNCH
IMAGE
Sputnik on the launch pad being prepared for liftoff
However, another event that occurred in the Soviet Union in 1960 is generally recognized as the single greatest disaster in the history of rocketry. The event was not directly related to manned space flight, but to the development of an intercontinental ballistic missile (ICBM). In the early days of space flight, both the US and Soviet space programs were very much intertwined with the development of ICBMs. These vehicles were designed to launch nuclear warheads over great distances, leaving no part of the world safe from the threat of nuclear destruction. However, the technologies pioneered for these weapons of war served a secondary purpose of providing the first generation of rockets for space exploration.
Sputnik on the launch pad being prepared for liftoff
In fact, the early flights of Sputnik and Yuri Gagarin in the USSR as well as those of Explorer I and John Glenn in the US were all conducted using modified ballistic missiles. The primary Soviet launch vehicle of the period was the R-7 rocket, modified versions of which are still used even today for most Russian space flights. The R-7 was originally developed as an ICBM under the direction of Sergei Korolev, the Soviet Union's pre-eminent rocket designer of the day. The R-7 successfully completed a number of test flights between 1957 and 1959, including launching the first two artificial satellites. While only four examples of the R-7 were ever deployed as ballistic missiles from 1960 to 1968, the same basic design has remained in use throughout the Russian space program. Modern variants of the R-7 continue to launch satellites as well as manned Soyuz flights, and the type had achieved a success rate of nearly 98% in over 1,600 launches by the year 2000.
_____________
Apollo 17
http://www.phys.ncku.edu.tw/~astrolab/mirrors/apod/ap031109.html
Apollo 17 _ 1
http://xpda.com/junkmail/junk162/GPN-2000-001876.jpg
Apollo 17 _ 2
Apollo 17 launch, December 17, 1972:
http://xpda.com/junkmail/junk162/junk162.htm
Mars
http://whyfiles.org/194spa_travel/images/mars.gif
Moon
http://www.rc-astro.com/php/phpthumb/cache/phpThumb_cache_rc-astro.com_srcfadbb9057f0dac8e921d1bffc3590ce0_par0ddf367c5f01d9ba090bf356b6761f52_dat1168633826.jpeg
Kennedy
http://www.historicaldocuments.com/JohnFKennedysLastSpeech.gif
November 21, 1963
Dedication Ceremony of the New Facilities of the School of
Aerospace Medicine at Brooks Air Force Base, Texas
http://www.historicaldocuments.com/JohnFKennedysLastSpeech.htm
SPACE TEAMS
MCD
KANE
Toursit
Russian
http://science.qj.net/Microsoft-billionaire-joins-ISS-bound-Russian-space-flight/pg/49/aid/88814
U.S. software mogul Charles Simonyi became the world's fifth space tourist - "space flight participant," as officials call them - to go into orbit. Simonyi, who helped developed Microsoft Word, paid US$ 25M for the opportunity to join the crew of the Russian spacecraft Soyuz TMA-10.
The 58-year-old Hungary-born billionaire is making a 12-day round trip to the International Space Station (ISS). Joining him on the trip were Russian cosmonauts Fyodor Yurchikhin and Oleg Kotov of the 15th ISS crew. The spacecraft Simonyi and the Russian cosmonauts lifted off from the Bainokur Cosmodrome in Kazakhstan at 11:31 P.M. local time (1:31 P.M. EDT). They are due to dock with the ISS on Monday.
Simonyi will be treating the current occupants of the ISS to a gourmet meal three days after arriving at the space station. The meal will be held in honor of Cosmonauts' Day, the Russian holiday commemorating Yuri Gagarin's historic 1961 space flight. Everybody else mentioned who prepared the meal so we won't. Suffice to say, she's famous, knows her way around a house, and looked good in orange.
In this Associated Press photo: In this image made from NASA-TV, U.S. billionaire Charles Simonyi, front row right, flips upside down during a news conference after he, Fyodor Yurchikhin, left, and Russian cosmonaut Oleg Kotov, front center, docked at the international space station Monday, April 9, 2007. A Russian-built Soyuz capsule carrying the American billionaire who helped develop Microsoft Word docked at the international space station late Monday, to the earthbound applause of Martha Stewart and others at Mission Control. In the back row, Commander Michael Lopez-Alegria can be seen. (AP Photo/NASA TV)
___________
Tito
http://cache.viewimages.com/xc/1310822.jpg?v=1&c=ViewImages&k=2&d=17A4AD9FDB9CF1939057D9939C83F106174681002B4CEC415A5397277B4DC33E
MIR
http://solarsystem.nasa.gov/people/images/inset-LucidS-5-large.jpg
http://csatweb.csatolna.hu/tagok/csa/mars/rover.jpg
RICHS TECHNOLOGY CAMERA - BODY
HAWKING
http://gozerog.com/images/Hawking_001.jpg
Public Domain. Suggested credit: NASA or National Aeronautics and Space Administration via pingnews.
KENNEDY SPACE CENTER, FLA. -- Noted physicist Stephen Hawking (center) enjoys zero gravity during a flight aboard a modified Boeing 727 aircraft owned by Zero Gravity Corp. (Zero G). Hawking, who suffers from amyotrophic lateral sclerosis (also known as Lou Gehrig's disease) is being rotated in air by (right) Peter Diamandis, founder of the Zero G Corp., and (left) Byron Lichtenberg, former shuttle payload specialist and now president of Zero G. Kneeling below Hawking is Nicola O'Brien, a nurse practitioner who is Hawking's aide. At the celebration of his 65th birthday on January 8 this year, Hawking announced his plans for a zero-gravity flight to prepare for a sub-orbital space flight in 2009 on Virgin Galactic's space service. Additional information from source:
No copyright protection is asserted for this photograph. If a recognizable person appears in this photograph, use for commercial purposes may infringe a right of privacy or publicity. It may not be used to state or imply the endorsement by NASA employees of a commercial product, process or service, or used in any other manner that might mislead. Accordingly, it is requested that if this photograph is used in advertising and other commercial promotion, layout and copy be submitted to NASA prior to release.
Source Physicist Stephen Hawking in Zero Gravity (NASA)
Date April 27, 2007 at 22:11
Zero Gravity's price tag for the daylong tour is $2,950, which includes preflight training and a postflight party.
From the Go Zero G Website:
The once-in-a-lifetime opportunity to fly like Superman can now be yours. Train with an expert coach, board our specially modified aircraft, G-FORCE ONE, and experience the unforgettable.
Experience zero gravity the only way possible without going to space. Parabolic flight is the same method NASA has used to train its astronauts for the last 45 years and the same way Tom Hanks floated in Apollo 13.
Book a seat on one of our regular flights conveniently based in Las Vegas, Nevada and at the Kennedy Space Center, near Orlando, Florida. The aircraft is also available for charter flights anywhere in the United States for groups, incentive trips, parties or team building.
http://todayinspacehistory.wordpress.com/2007/10/04/october-4-1957-the-russians-launch-sputnik/
LG SPUT IMAGE
« October 3, 1962 - Sigma 7 launches into orbit, Mercury-Atlas 8October 5, 1929 - Astronaut Richard Gordon, Jr., is born »October 4, 1957 - the Russian’s launch Sputnik
Ads by GoogleSputnik
Huge selection, great deals on
Sputnik items.
Yahoo.com3D Earth Screensaver
Watch Realistic Animated 3D Earth
On Your Desktop. Free Download!
www.CrawlerTools.com/3DEarth
The modern space age was birthed on October 4, 1957 when the Soviet’s launched the first man-made object to orbit the Earth, Sputnik.
Wikipedia says:
“Sputnik 1 was launched on October 4, 1957. The satellite was 58 cm (about 23 in) in diameter and weighed approximately 83.6 kg (about 183 lb). Each of its elliptical orbits around the Earth took about 96 minutes. Monitoring of the satellite was done by Amateur radio operators. The first long-range flight of the R-7 booster used to launch it had occurred on August 21 and was described in Aviation Week. Sputnik 1 was not visible from Earth but the casing of the R-7 booster, traveling behind it, was.”
Quotes:
“Both countries [Russia and the United States] knew that preeminence in space was a condition of their national security. That conviction gave both countries a powerful incentive to strive and compete. The Soviets accomplished many important firsts, and this gave us a great incentive to try harder.
The space program also accomplished another vital function in that it kept us out of a hot war. It gave us a way to compete technologically, compete as a matter of national will. It may have even prevented World War III, with all the conflict and fighting focused on getting to the moon first, instead of annihilating each other. There’s no evidence of that, but as eyewitness to those events, I think that’s what happened.”
- American astronaut Scott Carpenter quoted in Into that Silent Sea (p. 138).
___________________
www.globalsecurity.org/.../imint/u-2_tt.htm
U-2 Product
SS-6 / Sputnik Launch Pad, Baikonur
TOP of LAUNCH
IMAGE
Sputnik on the launch pad being prepared for liftoff
However, another event that occurred in the Soviet Union in 1960 is generally recognized as the single greatest disaster in the history of rocketry. The event was not directly related to manned space flight, but to the development of an intercontinental ballistic missile (ICBM). In the early days of space flight, both the US and Soviet space programs were very much intertwined with the development of ICBMs. These vehicles were designed to launch nuclear warheads over great distances, leaving no part of the world safe from the threat of nuclear destruction. However, the technologies pioneered for these weapons of war served a secondary purpose of providing the first generation of rockets for space exploration.
Sputnik on the launch pad being prepared for liftoff
In fact, the early flights of Sputnik and Yuri Gagarin in the USSR as well as those of Explorer I and John Glenn in the US were all conducted using modified ballistic missiles. The primary Soviet launch vehicle of the period was the R-7 rocket, modified versions of which are still used even today for most Russian space flights. The R-7 was originally developed as an ICBM under the direction of Sergei Korolev, the Soviet Union's pre-eminent rocket designer of the day. The R-7 successfully completed a number of test flights between 1957 and 1959, including launching the first two artificial satellites. While only four examples of the R-7 were ever deployed as ballistic missiles from 1960 to 1968, the same basic design has remained in use throughout the Russian space program. Modern variants of the R-7 continue to launch satellites as well as manned Soyuz flights, and the type had achieved a success rate of nearly 98% in over 1,600 launches by the year 2000.
_____________
Apollo 17
http://www.phys.ncku.edu.tw/~astrolab/mirrors/apod/ap031109.html
Apollo 17 _ 1
http://xpda.com/junkmail/junk162/GPN-2000-001876.jpg
Apollo 17 _ 2
Apollo 17 launch, December 17, 1972:
http://xpda.com/junkmail/junk162/junk162.htm
Mars
http://whyfiles.org/194spa_travel/images/mars.gif
Moon
http://www.rc-astro.com/php/phpthumb/cache/phpThumb_cache_rc-astro.com_srcfadbb9057f0dac8e921d1bffc3590ce0_par0ddf367c5f01d9ba090bf356b6761f52_dat1168633826.jpeg
Kennedy
http://www.historicaldocuments.com/JohnFKennedysLastSpeech.gif
November 21, 1963
Dedication Ceremony of the New Facilities of the School of
Aerospace Medicine at Brooks Air Force Base, Texas
http://www.historicaldocuments.com/JohnFKennedysLastSpeech.htm
SPACE TEAMS
MCD
KANE
Toursit
Russian
http://science.qj.net/Microsoft-billionaire-joins-ISS-bound-Russian-space-flight/pg/49/aid/88814
U.S. software mogul Charles Simonyi became the world's fifth space tourist - "space flight participant," as officials call them - to go into orbit. Simonyi, who helped developed Microsoft Word, paid US$ 25M for the opportunity to join the crew of the Russian spacecraft Soyuz TMA-10.
The 58-year-old Hungary-born billionaire is making a 12-day round trip to the International Space Station (ISS). Joining him on the trip were Russian cosmonauts Fyodor Yurchikhin and Oleg Kotov of the 15th ISS crew. The spacecraft Simonyi and the Russian cosmonauts lifted off from the Bainokur Cosmodrome in Kazakhstan at 11:31 P.M. local time (1:31 P.M. EDT). They are due to dock with the ISS on Monday.
Simonyi will be treating the current occupants of the ISS to a gourmet meal three days after arriving at the space station. The meal will be held in honor of Cosmonauts' Day, the Russian holiday commemorating Yuri Gagarin's historic 1961 space flight. Everybody else mentioned who prepared the meal so we won't. Suffice to say, she's famous, knows her way around a house, and looked good in orange.
In this Associated Press photo: In this image made from NASA-TV, U.S. billionaire Charles Simonyi, front row right, flips upside down during a news conference after he, Fyodor Yurchikhin, left, and Russian cosmonaut Oleg Kotov, front center, docked at the international space station Monday, April 9, 2007. A Russian-built Soyuz capsule carrying the American billionaire who helped develop Microsoft Word docked at the international space station late Monday, to the earthbound applause of Martha Stewart and others at Mission Control. In the back row, Commander Michael Lopez-Alegria can be seen. (AP Photo/NASA TV)
___________
Tito
http://cache.viewimages.com/xc/1310822.jpg?v=1&c=ViewImages&k=2&d=17A4AD9FDB9CF1939057D9939C83F106174681002B4CEC415A5397277B4DC33E
MIR
http://solarsystem.nasa.gov/people/images/inset-LucidS-5-large.jpg
http://csatweb.csatolna.hu/tagok/csa/mars/rover.jpg
RICHS TECHNOLOGY CAMERA - BODY
HAWKING
http://gozerog.com/images/Hawking_001.jpg
Public Domain. Suggested credit: NASA or National Aeronautics and Space Administration via pingnews.
KENNEDY SPACE CENTER, FLA. -- Noted physicist Stephen Hawking (center) enjoys zero gravity during a flight aboard a modified Boeing 727 aircraft owned by Zero Gravity Corp. (Zero G). Hawking, who suffers from amyotrophic lateral sclerosis (also known as Lou Gehrig's disease) is being rotated in air by (right) Peter Diamandis, founder of the Zero G Corp., and (left) Byron Lichtenberg, former shuttle payload specialist and now president of Zero G. Kneeling below Hawking is Nicola O'Brien, a nurse practitioner who is Hawking's aide. At the celebration of his 65th birthday on January 8 this year, Hawking announced his plans for a zero-gravity flight to prepare for a sub-orbital space flight in 2009 on Virgin Galactic's space service. Additional information from source:
No copyright protection is asserted for this photograph. If a recognizable person appears in this photograph, use for commercial purposes may infringe a right of privacy or publicity. It may not be used to state or imply the endorsement by NASA employees of a commercial product, process or service, or used in any other manner that might mislead. Accordingly, it is requested that if this photograph is used in advertising and other commercial promotion, layout and copy be submitted to NASA prior to release.
Source Physicist Stephen Hawking in Zero Gravity (NASA)
Date April 27, 2007 at 22:11
Zero Gravity's price tag for the daylong tour is $2,950, which includes preflight training and a postflight party.
From the Go Zero G Website:
The once-in-a-lifetime opportunity to fly like Superman can now be yours. Train with an expert coach, board our specially modified aircraft, G-FORCE ONE, and experience the unforgettable.
Experience zero gravity the only way possible without going to space. Parabolic flight is the same method NASA has used to train its astronauts for the last 45 years and the same way Tom Hanks floated in Apollo 13.
Book a seat on one of our regular flights conveniently based in Las Vegas, Nevada and at the Kennedy Space Center, near Orlando, Florida. The aircraft is also available for charter flights anywhere in the United States for groups, incentive trips, parties or team building.
http://todayinspacehistory.wordpress.com/2007/10/04/october-4-1957-the-russians-launch-sputnik/
LG SPUT IMAGE
« October 3, 1962 - Sigma 7 launches into orbit, Mercury-Atlas 8October 5, 1929 - Astronaut Richard Gordon, Jr., is born »October 4, 1957 - the Russian’s launch Sputnik
Ads by GoogleSputnik
Huge selection, great deals on
Sputnik items.
Yahoo.com3D Earth Screensaver
Watch Realistic Animated 3D Earth
On Your Desktop. Free Download!
www.CrawlerTools.com/3DEarth
The modern space age was birthed on October 4, 1957 when the Soviet’s launched the first man-made object to orbit the Earth, Sputnik.
Wikipedia says:
“Sputnik 1 was launched on October 4, 1957. The satellite was 58 cm (about 23 in) in diameter and weighed approximately 83.6 kg (about 183 lb). Each of its elliptical orbits around the Earth took about 96 minutes. Monitoring of the satellite was done by Amateur radio operators. The first long-range flight of the R-7 booster used to launch it had occurred on August 21 and was described in Aviation Week. Sputnik 1 was not visible from Earth but the casing of the R-7 booster, traveling behind it, was.”
Quotes:
“Both countries [Russia and the United States] knew that preeminence in space was a condition of their national security. That conviction gave both countries a powerful incentive to strive and compete. The Soviets accomplished many important firsts, and this gave us a great incentive to try harder.
The space program also accomplished another vital function in that it kept us out of a hot war. It gave us a way to compete technologically, compete as a matter of national will. It may have even prevented World War III, with all the conflict and fighting focused on getting to the moon first, instead of annihilating each other. There’s no evidence of that, but as eyewitness to those events, I think that’s what happened.”
- American astronaut Scott Carpenter quoted in Into that Silent Sea (p. 138).
___________________
www.globalsecurity.org/.../imint/u-2_tt.htm
U-2 Product
SS-6 / Sputnik Launch Pad, Baikonur
TOP of LAUNCH
IMAGE
Sputnik on the launch pad being prepared for liftoff
However, another event that occurred in the Soviet Union in 1960 is generally recognized as the single greatest disaster in the history of rocketry. The event was not directly related to manned space flight, but to the development of an intercontinental ballistic missile (ICBM). In the early days of space flight, both the US and Soviet space programs were very much intertwined with the development of ICBMs. These vehicles were designed to launch nuclear warheads over great distances, leaving no part of the world safe from the threat of nuclear destruction. However, the technologies pioneered for these weapons of war served a secondary purpose of providing the first generation of rockets for space exploration.
Sputnik on the launch pad being prepared for liftoff
In fact, the early flights of Sputnik and Yuri Gagarin in the USSR as well as those of Explorer I and John Glenn in the US were all conducted using modified ballistic missiles. The primary Soviet launch vehicle of the period was the R-7 rocket, modified versions of which are still used even today for most Russian space flights. The R-7 was originally developed as an ICBM under the direction of Sergei Korolev, the Soviet Union's pre-eminent rocket designer of the day. The R-7 successfully completed a number of test flights between 1957 and 1959, including launching the first two artificial satellites. While only four examples of the R-7 were ever deployed as ballistic missiles from 1960 to 1968, the same basic design has remained in use throughout the Russian space program. Modern variants of the R-7 continue to launch satellites as well as manned Soyuz flights, and the type had achieved a success rate of nearly 98% in over 1,600 launches by the year 2000.
_____________
Apollo 17
http://www.phys.ncku.edu.tw/~astrolab/mirrors/apod/ap031109.html
Apollo 17 _ 1
http://xpda.com/junkmail/junk162/GPN-2000-001876.jpg
Apollo 17 _ 2
Apollo 17 launch, December 17, 1972:
http://xpda.com/junkmail/junk162/junk162.htm
Mars
http://whyfiles.org/194spa_travel/images/mars.gif
Moon
http://www.rc-astro.com/php/phpthumb/cache/phpThumb_cache_rc-astro.com_srcfadbb9057f0dac8e921d1bffc3590ce0_par0ddf367c5f01d9ba090bf356b6761f52_dat1168633826.jpeg
Kennedy
http://www.historicaldocuments.com/JohnFKennedysLastSpeech.gif
November 21, 1963
Dedication Ceremony of the New Facilities of the School of
Aerospace Medicine at Brooks Air Force Base, Texas
http://www.historicaldocuments.com/JohnFKennedysLastSpeech.htm
SPACE TEAMS
MCD
KANE
Toursit
Russian
http://science.qj.net/Microsoft-billionaire-joins-ISS-bound-Russian-space-flight/pg/49/aid/88814
U.S. software mogul Charles Simonyi became the world's fifth space tourist - "space flight participant," as officials call them - to go into orbit. Simonyi, who helped developed Microsoft Word, paid US$ 25M for the opportunity to join the crew of the Russian spacecraft Soyuz TMA-10.
The 58-year-old Hungary-born billionaire is making a 12-day round trip to the International Space Station (ISS). Joining him on the trip were Russian cosmonauts Fyodor Yurchikhin and Oleg Kotov of the 15th ISS crew. The spacecraft Simonyi and the Russian cosmonauts lifted off from the Bainokur Cosmodrome in Kazakhstan at 11:31 P.M. local time (1:31 P.M. EDT). They are due to dock with the ISS on Monday.
Simonyi will be treating the current occupants of the ISS to a gourmet meal three days after arriving at the space station. The meal will be held in honor of Cosmonauts' Day, the Russian holiday commemorating Yuri Gagarin's historic 1961 space flight. Everybody else mentioned who prepared the meal so we won't. Suffice to say, she's famous, knows her way around a house, and looked good in orange.
In this Associated Press photo: In this image made from NASA-TV, U.S. billionaire Charles Simonyi, front row right, flips upside down during a news conference after he, Fyodor Yurchikhin, left, and Russian cosmonaut Oleg Kotov, front center, docked at the international space station Monday, April 9, 2007. A Russian-built Soyuz capsule carrying the American billionaire who helped develop Microsoft Word docked at the international space station late Monday, to the earthbound applause of Martha Stewart and others at Mission Control. In the back row, Commander Michael Lopez-Alegria can be seen. (AP Photo/NASA TV)
___________
Tito
http://cache.viewimages.com/xc/1310822.jpg?v=1&c=ViewImages&k=2&d=17A4AD9FDB9CF1939057D9939C83F106174681002B4CEC415A5397277B4DC33E
MIR
http://solarsystem.nasa.gov/people/images/inset-LucidS-5-large.jpg
http://csatweb.csatolna.hu/tagok/csa/mars/rover.jpg
RICHS TECHNOLOGY CAMERA - BODY
HAWKING
http://gozerog.com/images/Hawking_001.jpg
Public Domain. Suggested credit: NASA or National Aeronautics and Space Administration via pingnews.
KENNEDY SPACE CENTER, FLA. -- Noted physicist Stephen Hawking (center) enjoys zero gravity during a flight aboard a modified Boeing 727 aircraft owned by Zero Gravity Corp. (Zero G). Hawking, who suffers from amyotrophic lateral sclerosis (also known as Lou Gehrig's disease) is being rotated in air by (right) Peter Diamandis, founder of the Zero G Corp., and (left) Byron Lichtenberg, former shuttle payload specialist and now president of Zero G. Kneeling below Hawking is Nicola O'Brien, a nurse practitioner who is Hawking's aide. At the celebration of his 65th birthday on January 8 this year, Hawking announced his plans for a zero-gravity flight to prepare for a sub-orbital space flight in 2009 on Virgin Galactic's space service. Additional information from source:
No copyright protection is asserted for this photograph. If a recognizable person appears in this photograph, use for commercial purposes may infringe a right of privacy or publicity. It may not be used to state or imply the endorsement by NASA employees of a commercial product, process or service, or used in any other manner that might mislead. Accordingly, it is requested that if this photograph is used in advertising and other commercial promotion, layout and copy be submitted to NASA prior to release.
Source Physicist Stephen Hawking in Zero Gravity (NASA)
Date April 27, 2007 at 22:11
Zero Gravity's price tag for the daylong tour is $2,950, which includes preflight training and a postflight party.
From the Go Zero G Website:
The once-in-a-lifetime opportunity to fly like Superman can now be yours. Train with an expert coach, board our specially modified aircraft, G-FORCE ONE, and experience the unforgettable.
Experience zero gravity the only way possible without going to space. Parabolic flight is the same method NASA has used to train its astronauts for the last 45 years and the same way Tom Hanks floated in Apollo 13.
Book a seat on one of our regular flights conveniently based in Las Vegas, Nevada and at the Kennedy Space Center, near Orlando, Florida. The aircraft is also available for charter flights anywhere in the United States for groups, incentive trips, parties or team building.
Cybernetics is a theory of the communication and control of regulatory feedback. The term cybernetics stems from the Greek kybernetes (meaning steersman, governor, pilot, or rudder). Cybernetics is the discipline that studies communication and control in living beings and in the machines built by humans.
A more philosophical definition, suggested in 1958 by Louis Couffignal, one of the pioneers of cybernetics in the 1930s, considers cybernetics as "the art of assuring efficiency of action" (see external links for reference).
Need source
Need source
Need source
The Invisible Train
The Invisible Train is the first real multi-user Augmented Reality application for handheld devices (PDAs). Unlike other projects, in which wearable devices were merely used as thin-clients, while powerful (PC-based) servers performed a majority of the computations (such as graphics rendering), our software runs independently on off-the-shelf PDAs - eliminating the need for an expensive infractructure.
The Invisible Train is a mobile, collaborative multi-user Augmented Reality (AR) game, in which players control virtual trains on a real wooden miniature railroad track. These virtual trains are only visible to players through their PDA's video see-through display as they don't exist in the physical world. This type of user interface is commonly called the "magic lens metaphor".
Players can interact with the game environment by operating track switches and adjusting the speed of their virtual trains. The current state of the game is synchronized between all participants via wireless networking. The common goal of the game is to prevent the virtual trains from colliding.
The success of the Invisible Train installation illustrates the advantages of our Studierstube software framework, a component-based system architecture that has been designed to accelerate the task of developing and deploying collaborative Augmented Reality applications on handheld devices.
Why Handheld Augmented Reality?
Augmented Reality (AR) can naturally complement mobile computing on wearable devices by providing an intuitive interface to a three-dimensional information space embedded within physical reality. However, prior work on mobile Augmented Reality has almost exclusively been undertaken with traditional "backpack"-systems that consist of a notebook computer, an HMD, cameras and additional supporting hardware. Although these systems work well within a constrained laboratory environment, they fail to fulfill several usability criteria to be rapidly deployed to inexperienced users, as they are expensive, cumbersome and require high level of expertise.
Since the early experiments in Mobile Augmented Reality, a variety of highly portable consumer devices with versatile computing capabilities has emerged. We believe that handheld computers, mobile phones and personal digital assistants have the potential to introduce Augmented Reality to large audiences outside of a constrained laboratory environment. The relative affordability of devices that are capable of running our software framework opens up new possibilities for experimenting with massively multi-user application scenarios - thereby bringing us closer to the goal of "AR anytime, anywhere".
The Invisible Train
The Invisible Train is the first real multi-user Augmented Reality application for handheld devices (PDAs). Unlike other projects, in which wearable devices were merely used as thin-clients, while powerful (PC-based) servers performed a majority of the computations (such as graphics rendering), our software runs independently on off-the-shelf PDAs - eliminating the need for an expensive infractructure.
The Invisible Train is a mobile, collaborative multi-user Augmented Reality (AR) game, in which players control virtual trains on a real wooden miniature railroad track. These virtual trains are only visible to players through their PDA's video see-through display as they don't exist in the physical world. This type of user interface is commonly called the "magic lens metaphor".
Players can interact with the game environment by operating track switches and adjusting the speed of their virtual trains. The current state of the game is synchronized between all participants via wireless networking. The common goal of the game is to prevent the virtual trains from colliding.
The success of the Invisible Train installation illustrates the advantages of our Studierstube software framework, a component-based system architecture that has been designed to accelerate the task of developing and deploying collaborative Augmented Reality applications on handheld devices.
Why Handheld Augmented Reality?
Augmented Reality (AR) can naturally complement mobile computing on wearable devices by providing an intuitive interface to a three-dimensional information space embedded within physical reality. However, prior work on mobile Augmented Reality has almost exclusively been undertaken with traditional "backpack"-systems that consist of a notebook computer, an HMD, cameras and additional supporting hardware. Although these systems work well within a constrained laboratory environment, they fail to fulfill several usability criteria to be rapidly deployed to inexperienced users, as they are expensive, cumbersome and require high level of expertise.
Since the early experiments in Mobile Augmented Reality, a variety of highly portable consumer devices with versatile computing capabilities has emerged. We believe that handheld computers, mobile phones and personal digital assistants have the potential to introduce Augmented Reality to large audiences outside of a constrained laboratory environment. The relative affordability of devices that are capable of running our software framework opens up new possibilities for experimenting with massively multi-user application scenarios - thereby bringing us closer to the goal of "AR anytime, anywhere".
Cybernetics is a theory of the communication and control of regulatory feedback. The term cybernetics stems from the Greek kybernetes (meaning steersman, governor, pilot, or rudder). Cybernetics is the discipline that studies communication and control in living beings and in the machines built by humans.
A more philosophical definition, suggested in 1958 by Louis Couffignal, one of the pioneers of cybernetics in the 1930s, considers cybernetics as "the art of assuring efficiency of action" (see external links for reference).
The goal of the Smart Dust project is to build a self-contained, millimeter-scale sensing and communication platform for a massively distributed sensor network. This device will be around the size of a grain of sand and will contain sensors, computational ability, bi-directional wireless communications, and a power supply, while being inexpensive enough to deploy by the hundreds. The science and engineering goal of the project is to build a complete, complex system in a tiny volume using state-of-the art technologies (as opposed to futuristic technologies), which will require evolutionary and revolutionary advances in integration, miniaturization, and energy management. We forsee many applications for this technology:
Weather/seismological monitoring on Mars
Internal spacecraft monitoring
Land/space comm. networks
Chemical/biological sensors
Weapons stockpile monitoring
Defense-related sensor networks
Inventory Control
Product quality monitoring
Smart office spaces
Sports - sailing, balls
For more information, see the main Smart Dust page at http://robotics.eecs.berkeley.edu/~pister/SmartDust and read our publications (see navigation button above).
Brief description of the operation of the mote:
The Smart Dust mote is run by a microcontroller that not only determines the tasks performed by the mote, but controls power to the various components of the system to conserve energy. Periodically the microcontroller gets a reading from one of the sensors, which measure one of a number of physical or chemical stimuli such as temperature, ambient light, vibration, acceleration, or air pressure, processes the data, and stores it in memory. It also occasionally turns on the optical receiver to see if anyone is trying to communicate with it. This communication may include new programs or messages from other motes. In response to a message or upon its own initiative the microcontroller will use the corner cube retroreflector or laser to transmit sensor data or a message to a base station or another mote.
Longer description of the operation of the mote:
The primary constraint in the design of the Smart Dust motes is volume, which in turn puts a severe constraint on energy since we do not have much room for batteries or large solar cells. Thus, the motes must operate efficiently and conserve energy whenever possible. Most of the time, the majority of the mote is powered off with only a clock and a few timers running. When a timer expires, it powers up a part of the mote to carry out a job, then powers off. A few of the timers control the sensors that measure one of a number of physical or chemical stimuli such as temperature, ambient light, vibration, acceleration, or air pressure. When one of these timers expires, it powers up the corresponding sensor, takes a sample, and converts it to a digital word. If the data is interesting, it may either be stored directly in the SRAM or the microcontroller is powered up to perform more complex operations with it. When this task is complete, everything is again powered down and the timer begins counting again.
Another timer controls the receiver. When that timer expires, the receiver powers up and looks for an incoming packet. If it doesn't see one after a certain length of time, it is powered down again. The mote can receive several types of packets, including ones that are new program code that is stored in the program memory. This allows the user to change the behavior of the mote remotely. Packets may also include messages from the base station or other motes. When one of these is received, the microcontroller is powered up and used to interpret the contents of the message. The message may tell the mote to do something in particular, or it may be a message that is just being passed from one mote to another on its way to a particular destination. In response to a message or to another timer expiring, the microcontroller will assemble a packet containing sensor data or a message and transmit it using either the corner cube retroreflector or the laser diode, depending on which it has. The corner cube retroreflector transmits information just by moving a mirror and thus changing the reflection of a laser beam from the base station. This technique is substantially more energy efficient than actually generating some radiation. With the laser diode and a set of beam scanning mirrors, we can transmit data in any direction desired, allowing the mote to communicate with other Smart Dust motes.
Lab-in-a-Pill – Revolutionising Bowel Cancer Screening
Sector: Medical Devices
Technology
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In the western world, colorectal cancer is now the third most frequent cancer and the second most common cause of cancer deaths. In the US nearly 150,000 new cases are being diagnosed each year and more than 56,000 people died from the disease in 2002. In the UK, where a national screening campaign will be implemented across the 20m population over 50, around 15,000 people die from the disease each year.
Current screening techniques are notoriously inaccurate, leading to many false positives which saturate resources available for follow-up diagnosis. But scientists at Glasgow University have pioneered a new sensor technology, Lab-in-a-Pill, that could have major impact on the cost and effectiveness of bowel cancer treatment.
At the core of Lab-in-a-Pill is a miniaturised sensor, processing and communications module all enclosed in a chemical-resistant capsule which currently measures around 3cm x 1cm in prototype form.
The Lab-in-a-Pill module, which would be sent to all individuals being screened, incorporates a multi-sensor array which includes a blood test. The pill is able to detect blood as it travels through the bowel, transmitting the real time measurements to a small external module worn under a patch attached to the body.
After one, or more pills have been swallowed over the required screening period, the patch is returned for the measured data to be assessed at the screening centre. So the pills themselves do not have to be recovered making the screening process much more acceptable. And because it measures the location of bleeding Lab-in-a-Pill can identify, more effectively, those individuals who are most at risk.
The Lab-in-a-Pill concept, currently undergoing in-vitro trials, overcomes the critical difficulties with the current screening scheme which is based on individuals collecting stool samples. Major benefits include:
• improved compliance and screening response rate with elimination of sample collection
• reduced false positives and improved sensitivity through measurement at the source of bleeding
So Lab-in-a-Pill reduces the pressure on valuable national resources by eliminating the need for central screening laboratories and ensuring only at-risk patients are referred for colonoscopy.
IP Status
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The intellectual property associated with this technology belongs to the University of Glasgow.
The University of Glasgow is always keen to hear from potential collaborative partners and welcomes interest from genuine parties. If you would like further information about this technology or this area of research please complete the following form and we will get back to you via telephone or email within two working days.
Enquiry Form
http://www.innovativelicences.com/index.cfm/page/licensesandtechnologies/technologyid/48
Lab-in-a-Pill – Revolutionising Bowel Cancer Screening
Sector: Medical Devices
Technology
--------------------------------------------------------------------------------
In the western world, colorectal cancer is now the third most frequent cancer and the second most common cause of cancer deaths. In the US nearly 150,000 new cases are being diagnosed each year and more than 56,000 people died from the disease in 2002. In the UK, where a national screening campaign will be implemented across the 20m population over 50, around 15,000 people die from the disease each year.
Current screening techniques are notoriously inaccurate, leading to many false positives which saturate resources available for follow-up diagnosis. But scientists at Glasgow University have pioneered a new sensor technology, Lab-in-a-Pill, that could have major impact on the cost and effectiveness of bowel cancer treatment.
At the core of Lab-in-a-Pill is a miniaturised sensor, processing and communications module all enclosed in a chemical-resistant capsule which currently measures around 3cm x 1cm in prototype form.
The Lab-in-a-Pill module, which would be sent to all individuals being screened, incorporates a multi-sensor array which includes a blood test. The pill is able to detect blood as it travels through the bowel, transmitting the real time measurements to a small external module worn under a patch attached to the body.
After one, or more pills have been swallowed over the required screening period, the patch is returned for the measured data to be assessed at the screening centre. So the pills themselves do not have to be recovered making the screening process much more acceptable. And because it measures the location of bleeding Lab-in-a-Pill can identify, more effectively, those individuals who are most at risk.
The Lab-in-a-Pill concept, currently undergoing in-vitro trials, overcomes the critical difficulties with the current screening scheme which is based on individuals collecting stool samples. Major benefits include:
• improved compliance and screening response rate with elimination of sample collection
• reduced false positives and improved sensitivity through measurement at the source of bleeding
So Lab-in-a-Pill reduces the pressure on valuable national resources by eliminating the need for central screening laboratories and ensuring only at-risk patients are referred for colonoscopy.
IP Status
--------------------------------------------------------------------------------
The intellectual property associated with this technology belongs to the University of Glasgow.
The University of Glasgow is always keen to hear from potential collaborative partners and welcomes interest from genuine parties. If you would like further information about this technology or this area of research please complete the following form and we will get back to you via telephone or email within two working days.
Enquiry Form
http://www.innovativelicences.com/index.cfm/page/licensesandtechnologies/technologyid/48
Cybernetics is a theory of the communication and control of regulatory feedback. The term cybernetics stems from the Greek kybernetes (meaning steersman, governor, pilot, or rudder). Cybernetics is the discipline that studies communication and control in living beings and in the machines built by humans.
A more philosophical definition, suggested in 1958 by Louis Couffignal, one of the pioneers of cybernetics in the 1930s, considers cybernetics as "the art of assuring efficiency of action" (see external links for reference).
http://www.nidcd.nih.gov/health/hearing/coch.htm
What is a cochlear implant?
Credit: NIH Medical ArtsEar with Cochlear implant. View larger image.A cochlear implant is a small, complex electronic device that can help to provide a sense of sound to a person who is profoundly deaf or severely hard-of-hearing. The implant consists of an external portion that sits behind the ear and a second portion that is surgically placed under the skin (see figure). An implant has the following parts:
A microphone, which picks up sound from the environment.
A speech processor, which selects and arranges sounds picked up by the microphone.
A transmitter and receiver/stimulator, which receive signals from the speech processor and convert them into electric impulses.
An electrode array, which is a group of electrodes that collects the impulses from the stimulator and sends them to different regions of the auditory nerve.
An implant does not restore normal hearing. Instead, it can give a deaf person a useful representation of sounds in the environment and help him or her to understand speech.
Top
How does a cochlear implant work?
A cochlear implant is very different from a hearing aid. Hearing aids amplify sounds so they may be detected by damaged ears. Cochlear implants bypass damaged portions of the ear and directly stimulate the auditory nerve. Signals generated by the implant are sent by way of the auditory nerve to the brain, which recognizes the signals as sound. Hearing through a cochlear implant is different from normal hearing and takes time to learn or relearn. However, it allows many people to recognize warning signals, understand other sounds in the environment, and enjoy a conversation in person or by telephone.
Top
Who gets cochlear implants?
Credit: Centers for Disease Control and Prevention (CDC)
Children and adults who are deaf or severely hard-of-hearing can be fitted for cochlear implants. According to the Food and Drug Administration’s (FDA’s) 2005 data, nearly 100,000 people worldwide have received implants. In the United States, roughly 22,000 adults and nearly 15,000 children have received them.
Adults who have lost all or most of their hearing later in life often can benefit from cochlear implants. They often can associate the sounds made through an implant with sounds they remember. This may help them to understand speech without visual cues or systems such as lipreading or sign language.
Cochlear implants, coupled with intensive postimplantation therapy, can help young children to acquire speech, language, developmental, and social skills. Most children who receive implants are between two and six years old. Early implantation provides exposure to sounds that can be helpful during the critical period when children learn speech and language skills. In 2000, the FDA lowered the age of eligibility to 12 months for one type of cochlear implant.
Top
How does someone receive a cochlear implant?
Use of a cochlear implant requires both a surgical procedure and significant therapy to learn or relearn the sense of hearing. Not everyone performs at the same level with this device. The decision to receive an implant should involve discussions with medical specialists, including an experienced cochlear-implant surgeon. The process can be expensive. For example, a person’s health insurance may cover the expense, but not always. Some individuals may choose not to have a cochlear implant for a variety of personal reasons. Surgical implantations are almost always safe, although complications are a risk factor, just as with any kind of surgery. An additional consideration is learning to interpret the sounds created by an implant. This process takes time and practice. Speech-language pathologists and audiologists are frequently involved in this learning process. Prior to implantation, all of these factors need to be considered.
Top
What does the future hold for cochlear implants?
With advancements in technology and continued follow-up studies with people who already have received implants, researchers are evaluating how cochlear implants might be used for other types of hearing loss.
NIDCD is supporting research to improve upon the benefits provided by cochlear implants. It may be possible to use a shortened electrode array, inserted into a portion of the cochlea, for individuals whose hearing loss is limited to the higher frequencies. Other studies are exploring ways to make a cochlear implant convey the sounds of speech more clearly. Researchers also are looking at the potential benefits of pairing a cochlear implant in one ear with either another cochlear implant or a hearing aid in the other ear.
ITS ROCK-HARD surface can take a full- on assault from a baseball bat, yet remains flexible enough to allow you to kick, leap and roll with perfect ease. Crafted from cutting-edge science, its unique molecular structure means that while providing armoured protection against crude concrete and even barbed wire, it remains light enough to allow you to run at high speed.
It sounds like the stuff of Batman comics - but the superhero suit is here.
http://www.sundayherald.com/news/heraldnews/display.var.1528394.0.holy_batcapes_the_age_of_the_superhero_suit_is_upon_us.php
D30
Cybernetics is a theory of the communication and control of regulatory feedback. The term cybernetics stems from the Greek kybernetes (meaning steersman, governor, pilot, or rudder). Cybernetics is the discipline that studies communication and control in living beings and in the machines built by humans.
A more philosophical definition, suggested in 1958 by Louis Couffignal, one of the pioneers of cybernetics in the 1930s, considers cybernetics as "the art of assuring efficiency of action" (see external links for reference).
Cybernetics is a theory of the communication and control of regulatory feedback. The term cybernetics stems from the Greek kybernetes (meaning steersman, governor, pilot, or rudder). Cybernetics is the discipline that studies communication and control in living beings and in the machines built by humans.
A more philosophical definition, suggested in 1958 by Louis Couffignal, one of the pioneers of cybernetics in the 1930s, considers cybernetics as "the art of assuring efficiency of action" (see external links for reference).
Cybernetics is a theory of the communication and control of regulatory feedback. The term cybernetics stems from the Greek kybernetes (meaning steersman, governor, pilot, or rudder). Cybernetics is the discipline that studies communication and control in living beings and in the machines built by humans.
A more philosophical definition, suggested in 1958 by Louis Couffignal, one of the pioneers of cybernetics in the 1930s, considers cybernetics as "the art of assuring efficiency of action" (see external links for reference).