Thursday, October 31, 2019
Shuttle capability
Sunday, October 27, 2019
Friday, October 25, 2019
Tuesday, October 22, 2019
The Space Review: Can single-stage-to-orbit disrupt spaceflight?
SSTO flight IS impossible UNLESS you the off with empty LOX tanks. Thismmediately reduces take off mass by 65 to 70%!! However there is just one unique flight corridor for inflight "relocong" that enables direct ascent from earth to orbit in a single stage. For comprehensive details download "Critical Factors Affecting the Design of Reusable Spaceplanes" a JBIS publication and Lead Paper
http://www.thespacereview.com/article/3815/1
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http://www.thespacereview.com/article/3815/1
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Sunday, October 20, 2019
Retiring Space Shuttle a BIG Mistake. Get X37C FLYING !!
The following Experts said Shuttle Retirement a Mistake:
John Young, Bob Crippen, G. Abbey, Buzz Aldrin, John Glenn, Al Richardson, F. Buzzard, Bob Thompson, G. Jeff's , J. Oberg, J. Hillhouse, Larry Chiao & many others.
China & India are developing a reusable shuttle. Boeing has proposed to nasa to expand the X37B into a manned vehicle with a large payload, however Nasa not interested. Hillhouse stated : And those in Congress specializing in space are well aware that, had getting independent access to ISS for our nation really been Job #1 for NASA's leadership, then the Administration would have approved Boeing's proposal for the X-37B follow-on, the 5 crew X-37C. We are talking about a dependable spacecraft that can sit in orbit for over a year and NASA said no to making it a crewed vehicle. Why?
http://www.nasaspaceflight.com/2013/03/x-37b-expanded-capabilities-iss-missions/
YET, our present leaders do not recognize the critical need for this capability !
I think that was a mistake. Space Shuttle was and remains the most capable flying machine ever conceived, built and operated. We learned much from the thirty years of Shuttle flights, and in my opinion, we should still be flying them. Shuttle carried a crew of seven, plus nearly sixty thousand pounds of payload to low earth orbit. After transforming from a rocket into an orbital research or construction platform, it entered the atmosphere and landed on a conventional runway at the end of its mission. After around one hundred days of processing, it was ready to fly again. L. Chiao
To our present leaders, this must be corrected ASAP. Get Boeing Working on X37C!
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We Never Should Have Mothballed the Space Shuttle - Scientific American Blog Network
I think that was a mistake. Space Shuttle was and remains the most capable flying machine ever conceived, built and operated. We learned much from the thirty years of Shuttle flights, and in my opinion, we should still be flying them. Shuttle carried a crew of seven, plus nearly sixty thousand pounds of payload to low earth orbit. After transforming from a rocket into an orbital research or construction platform, it entered the atmosphere and landed on a conventional runway at the end of its mission. After around one hundred days of processing, it was ready to fly again.
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We Never Should Have Mothballed the Space Shuttle - Scientific American Blog Network
I think that was a mistake. Space Shuttle was and remains the most capable flying machine ever conceived, built and operated. We learned much from the thirty years of Shuttle flights, and in my opinion, we should still be flying them. Shuttle carried a crew of seven, plus nearly sixty thousand pounds of payload to low earth orbit. After transforming from a rocket into an orbital research or construction platform, it entered the atmosphere and landed on a conventional runway at the end of its mission. After around one hundred days of processing, it was ready to fly again.
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Saturday, October 19, 2019
What the Nation lost— Shuttle — Lost in Space - Abbey
Space shuttles have taken 355 people to space. Since their demise in 2011, the United States has been unable to put people into space except on other nations' spacecraft. It's a capability the U.S. has had since Alan Shepard's flight on May 5, 1961. The U.S. went from flying and operating the most advanced and capable spacecraft in the world, to flying as passengers under foreign command. Americans continue to journey to space on Soyuz spacecraft, but we are no longer able to work on facilities such as Hubble, or assemble large structures in space. We will look back on the space shuttle one day and realize what the nation lost, or rather, what it gave up.
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Friday, October 18, 2019
Shuttle Capability—-Reacquire
Getting Space Shuttle Capability Back
When you look at those who were against retiring shuttle , Glenn, Armstrong, Aldrin, Abbey, Jeff's, Richardson, buzzard, Oberg, plus others,
Kind of strange you don't find more people ranting about getting this critical capability back.
Look at Oberg— Six things we lost with shuttle retirement , Abbey — Lost in Space, Buzzard — Reflections on Shuttle, the evidence is OVERWHELMING that we should reacquire Capability ASAP.
Also, China & India are developing this capability!
Those who feel strongly need to speak out, blog, etc.
Sent from my iPad
Sent from my iPad
Getting Shuttle Capability Back
When you look at those who were against retiring shuttle , Glenn, Armstrong, Aldrin, Abbey, Jeff's, Richardson, buzzard, Oberg, plus others,
Kind of strange you don't find more people ranting about getting this critical capability back.
Look at Oberg— Six things we lost with shuttle retirement , Abbey — Lost in Space, Buzzard — Reflections on Shuttle, the evidence is OVERWHELMING that we should reacquire Capability ASAP.
Those who feel strongly need to speak out, blog, etc.
Sent from my iPad
Kind of strange you don't find more people ranting about getting this critical capability back.
Look at Oberg— Six things we lost with shuttle retirement , Abbey — Lost in Space, Buzzard — Reflections on Shuttle, the evidence is OVERWHELMING that we should reacquire Capability ASAP.
Those who feel strongly need to speak out, blog, etc.
Sent from my iPad
Shuttle capability
Even when CC is operational , we have inadequate/ inferior capabilities as compared to shuttle/ RMS capability! We must reacquire Shuttle Capability.
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Sent from my iPad
Shuttle capability
Thursday, October 17, 2019
Wednesday, October 16, 2019
ISRO's Space Shuttle-like Reusable Launch Vehicle will attempt its first landing in Karnataka- Technology News, Firstpost
iSRO will have an operating shuttle before USA —- our in museum !
https://www.firstpost.com/tech/science/isro-space-shuttle-like-reusable-launch-vehicle-will-attempt-its-first-landing-in-karnataka-7506051.html
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https://www.firstpost.com/tech/science/isro-space-shuttle-like-reusable-launch-vehicle-will-attempt-its-first-landing-in-karnataka-7506051.html
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Tuesday, October 15, 2019
X37C
And those in Congress specializing in space are well aware that, had getting independent access to ISS for our nation really been Job #1 for NASA's leadership, then the Administration would have approved Boeing's proposal for the X-37B follow-on, the 5 crew X-37C. We are talking about a dependable spacecraft that can sit in orbit for over a year and NASA said no to making it a crewed vehicle. Why?
http://www.nasaspaceflight.com/2013/03/x-37b-expanded-capabilities-iss-missions/
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Shuttle capability
Monday, October 14, 2019
Global newspapers
Hi -
Thank you so much for sharing such a useful resource for journalists on your page here keeptheshuttleflying.blogspot.com/2013/06/fwd-gatestone-update-harold-rhode-and.html.
Recently, I came across a great index of global newspapers https://www.websiteplanet.com/blog/complete-index-of-newspapers-across-the-globe/. This is a list that was updated in the past few days. I read a lot of similar guides before, but this one is quite thorough, and I've found it to be rather useful.
Maybe it could help your other readers, as well, if you add it to your page?
Keep up the great work!
Abby.
From Abby Brooks.
Thanks
Bobby
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Getting shuttle capability back
Kind of strange you don't find more people ranting about getting this critical capability back. Abbey, Aldrin, Cunningham, Jeff's, Al Richardson, plus a few others have been outspoken about the need for the shuttle capability.
Those who feel strongly need to speak out, blog, etc.
Thanks
Bobby
Sent from my iPad
Those who feel strongly need to speak out, blog, etc.
Thanks
Bobby
Sent from my iPad
Global newspaper index
Recently, I came across a great index of global newspapers https://www.websiteplanet.com/blog/complete-index-of-newspapers-across-the-globe/. This is a list that was updated in the past few days. I read a lot of similar guides before, but this one is quite thorough, and I've found it to be rather useful.
Sent from my iPad
Saturday, October 12, 2019
Musk— get X37C going
We need a Runwaylander per Buzz Aldrin , George Abbey & others
Sent from my iPad
Sent from my iPad
X37C
And those in Congress specializing in space are well aware that, had getting independent access to ISS for our nation really been Job #1 for NASA's leadership, then the Administration would have approved Boeing's proposal for the X-37B follow-on, the 5 crew X-37C. We are talking about a dependable spacecraft that can sit in orbit for over a year and NASA said no to making it a crewed vehicle. Why?
http://www.nasaspaceflight.com/2013/03/x-37b-expanded-capabilities-iss-missions/
What Congress does see is that if we had not gone through the nonsense of 2010, we would be much closer to our own capability to launch crews to ISS than we are today. Instead, Neil Armstrong was right–the Administration changed our nation's HSF course in secret, without consultation, and mucked things up.
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Wednesday, October 9, 2019
Tuesday, October 8, 2019
Monday, October 7, 2019
Fwd: When Debris Overwhelms Space Exploitation
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Begin forwarded message:
From: "Info@Launchspace.com" <info@launchspace.com>
Date: October 7, 2019 at 8:07:38 AM CDT
To: Bobbygmartin1938@gmail.com
Subject: When Debris Overwhelms Space Exploitation
Reply-To: info@launchspace.com
October 7, 2019Launchspace Training
_____________________________________________________________
When Debris Overwhelms Space Exploitation
(Launchspace Staff Writers)Bethesda, MD - We see more and more reports of debris concern among satellite operators and space observers. Add to this the many recent announcements of multiple broadband satellite constellations that are being funded and developed for launch in the next few years. Just focusing on low Earth orbits (LEO), there are an estimated 15,000 satellites in the works. For example, Amazon is planning to launch 3,236 satellite and SpaceX is already building the first of 4,000 multi-hundred-kilogram spacecraft. Add all of the broadband satellites to the hundreds of planned CubeSats and we have a new satellite population that is at least an order of magnitude larger than what is now in LEO. This explosion in population will be accompanied by an explosion in debris. The safety and traffic implications are extremely negative.Assuming no debris removal and control program is implemented, it is estimated that within the next decade the debris population will overwhelm LEO operations to the point that space access may be completely impossible. This cannot be allowed to happen because the world's economy will be set back for at least one or two generations. Since the military depends heavily on space, national defense capabilities will also be seriously diminished. Just imagine not having GPS, direct-to-home TV broadcasts, satellite weather, missile defense detection and many other services we now take for granted.Once the debris takes over, there is no known way to then clean up space. It is fair to say that such a cleanup, if possible, could take decades or even centuries. Without space our technological future will be quite limited. Even our present way of life will disintegrate and revert backward by at least 20 years.The bottom line is that this cannot be allowed to happen. Somebody has to pay to cleanup space, and that somebody is going to be everybody on the planet, one way or another. To paraphrase a popular muffler ad: "You can pay now, or you can pay later. However, the cost is going to be much, much higher if we wait."_________________________________Featured short course - available for customized presentation at your facilityContact Launchspace for a quote: info@launchspace.comSpace Debris: Issues, Threats and the Equatorial EpiphanyDURATION: THREE DAYSLOCATION: AT YOUR FACILITY
COURSE NO.: 1060COURSE SUMMARYSince 1957, artificial satellites and launch vehicles have created an ever growing number of orbiting debris objects, from a few microns to several meters in size. In recent years a number of international agreements have been made to limit the growth rate of debris. However, there is no serious program to reduce the amount of existing debris. Recent developments such as the proliferation of debris from the Chinese ASAT test of 2007 and the 2009 collision of an Iridium satellite with a Russian Cosmos have raised level of urgency to actively manage the debris situation. Mitigation approaches have been pursued and many reduction techniques have been suggested. Many new spacecraft are now able to maneuver out of the way at their end of life. But, little is being done to reduce existing debris. This special and timely course introduces the Equatorial Epiphany and attempts to explain the dangers and the options associated with the growing debris problem.COURSE MATERIALS:Each attendee receives a soft or hard copy of the presentation materials.WHO SHOULD ATTEND:
- Space industry executives, decision makers and analysts
- Satellite operators and program managers
- Space mission designers and operations managers
- Launch vehicle and satellite insurance underwriters
- Space policy writers and lawmakers
- Anyone wishing to gain insight into the space debris issues
WHAT YOU WILL LEARN:
- The nature and history of orbital debris and the space environment
- Debris-generated hazards of space flight
- Proliferation, propagation and collision events
- Management and mitigation approaches
- Methods of spacecraft protection
- The Equatorial Epiphany - The ultimate ecosystem solution
- Policy, legal and economic implications
COURSE OUTLINE:1. The Nature of Space Flight and Debris Production
- Dynamics of orbiting around the Earth
- The sources of space debris and what happens to it
- Description of the dangers to operating spacecraft
- Basic definitions
2. Density and Distribution of Orbiting Debris
- Description of debris sizes and numbers
- Near-term and long-term implications
- Buildup of collision events
- The "do-nothing" scenario
3. The Debris Hunters
- Tracking space debris
- Space situational awareness
- Shortcomings of today's technology
- Needed new technologies to predict debris impacts
4. International Treaties and Agreements on Space Debris
- The main debris study sources
- International committees and working groups
- Most recent findings related to debris mitigation and management
- New treaties needed to facilitate debris reduction
5. The Equatorial Epiphany - New Debris Reduction Ecosystem
- Technologies and Methods of debris reduction
- Early experiments to test possible solutions
- Debris reduction architectures
- Space control
- Cost estimates
6. Impact of Debris Reduction on the Overall Space Program and Industry
- New launch systems and spaceports for debris clean up
- Special spacecraft for debris collection and monitoring
- Maintaining normal satellite operations
- Complete space control ecosystem
7. Conclusions and Recommendations
INSTRUCTOR: DR. MARSHALL H. KAPLANMarshall H. Kaplan, Ph.D., is a recognized expert in space flight technologies, orbital mechanics and debris retrieval. He was the first to study space junk retrieval and was instrumental in the safe reentry of the Skylab Space Station in 1979. Foxnews.com recently aired a story about his four decades of research on this topic. Dr. Kaplan is one of only a few experts in the field of space debris control and reduction. He has over four decades of academic and industrial experience, having served as Professor of Aerospace Engineering at the Pennsylvania State University and presenting hundreds of courses on space technology in the U.S., Europe, South America and Asia. In addition to publishing some 100 papers, reports, and articles on aerospace technologies, he is the author of several books, including the internationally used text, Modern Spacecraft Dynamics and Control. Dr. Kaplan is a member of the AIAA Technical Committee on Space Transportation and holds advanced degrees from MIT and Stanford University.Featured short course - available for customized presentation at your facilitySpaceport Operations for Commercial ClientsDURATION: TWO DAYS
LOCATION: AT YOUR FACILITY
COURSE NO.: 6005COURSE SUMMARYThis course is specially designed for government spaceport operators who are increasingly dealing with commercial launch operations. It provides insight into spaceport operations from the viewpoint of private sector expectations and requirements. A wide variety of important topics are covered. These include procurement of commercial launch vehicles and the related procurement process, payload processing for commercial vehicles, launch campaigns with commercial launch vehicles and clients and related launch operations. A number of examples and case studies are included in a highly interactive classroom setting.COURSE MATERIALS
Attendees receive extensive notes and reference materials.COURSE OUTLINE1.0 Introduction and Course ObjectivesReview of course topics and outline. Explanation of course architecture and how it is intended to satisfy attendee expectations. Definition of terms and expressions used in the course.2.0 Launch Vehicle and Launch Procurement ProcessesReview of the Interface Requirements Document (IRD) typically used by commercial clients to procure launch vehicles and related services. Discussion of how this document flows into the acquisition of the launch site operations. Commercial vs. US Government Contracts for Launch Services. Mission Management and ICD Requirements and Verifications Management. Overview of Launch Vehicle Physical Interfaces and Configurations. Range Safety Interactions and the Range Safety Process. Meetings, Reviews and Schedules (how to manage and plan accordingly).3.0 Launch Site Payload ProcessingPayload Processing Facility Acquisition (Documents, requirements and the contract). Overview of Spacecraft Assembly, Test and Launch Operations. Electrical Power, Communication and Data Interfaces. Contamination Control and Mission Assurance. Spacecraft Processing, Special Tests, Accommodations. Launch Site Organizations and Mission Management on Site.4.0 The Launch CampaignSpacecraft Arrival, Handling Transportation and Logistics. Procedures, Safety, and Mission Assurance. Overview of Electrical and Mechanical Ground Support Equipment and Processing. Launch Vehicle Hardware Integration Overview. Horizontal vs. Vertical Processing. Multiple Payload Integration and Processing (Dual SC, multi SC, Cubesat, Primary and Secondary payloads, etc.). Ground System Electrical Interfaces, Checkout and Processing, Special tests, etc. Fairing Encapsulation and Physical Access to the Payload. Transportation Operations and Mating to the Launch Vehicle.5.0 Launch OperationsConsolidated Testing (LV and Spacecraft). Mission Dress Rehearsals and Countdown. Scrubs and Contingency Operations. Weather and Range Constraints. Lessons Learned.INSTRUCTOR: Steven VernonSteven R. Vernon has accumulated over 25 years of Spacecraft Design and Launch Vehicle payload integration and management experience. He has led launch campaigns for multiple successful space missions, launched from Eastern and Western ranges. His broad experience includes single and multiple payload missions launched on several United Launch Alliance vehicles including Atlas V, Delta II and Delta IV, and the Orbital Sciences Minotaur expendable vehicles. He has lead the spacecraft design, assembly, test and launch operation campaigns for both nuclear and conventional powered space missions. In addition, Mr. Vernon has led system integration and design tasks for several new and modified upper stage systems. He also sits on review boards and is supporting funded studies for sponsors in the civilian and military space communities including studies focused on emerging launch vehicles and systems. He has participated in many first flight articles and mission unique launch vehicle hardware development projects__________________________________________________________________________________________________Launchspace Training CoursesHere is a partial list of courses that we offer:1040 Electromagnetic Environment Effects (E3) Testing:
1050 Launch Vehicle and Spacecraft Acoustic Testing and Analysis
1065 The Technologies and Systems for Space Debris Remediation
1125 Space Principles for Satellite and Launch Vehicle Professionals
1135 Space Vehicle Mechanisms: Elements of Successful Design1140 Compliant Mechanism Design (NEW)
2010 Basic Spacecraft Bus Systems Design
2020 Orbital Mechanics
2022 Advanced Geostationary Orbital Mechanics
2025 LEO Satellite Technologies, Systems and Design
2035 Space Robotics: Design and Applications (NEW)
2080 Spacecraft Avionics Systems Design and Applications
2100 Spacecraft Dynamics and Attitude Control
2110 Spacecraft Power System Design and Analysis
2140 Human Space Exploration Systems Design3020 Satellite Communications (NEW)
5010 Reusable Launch Vehicle Design, Systems and Operations
5030 Launch System Performance and Trajectory Design (NEW)
5045 Launch Vehicle Environments and Loads and How to Design and Test for Compatibility
5060 Launch Vehicle Services Selection, Pricing, Contracting and Technical Oversight
5070 Launch Vehicle Systems Design and Engineering
5075 Launch Vehicle Payload Integration5080 Propulsion Systems for Launch Vehicles
5085 Cryogenic Propulsion System Design
5090 Solid Rocket Motor Design and Applications
5095 Liquid Rocket Engine Design
5098 Advanced Liquid Rocket Engine Design Workshop6020 Space Mission Cost Estimation (NEW)
6045 Spacecraft Program Management
6070 Facilitating Export Licensing of Space Systems
6080 Emerging Commercial Space - The Opportunity to Build Your Business CaseFor more courses see the Launchspace Catalog on our website:http://www.launchspace.com/New%20Site/Course%20Catalog.html________________________________________________________________________________Got One of These?Launchspace Training personnel have been providing special short courses to the spacecommunity since 1970. Early in his career, Dr. Marshall H. Kaplan realized that space professionals had limited resources in advancing their own space-related knowledge base and on-the-job training options. Over the last few decades this company has created and delivered hundreds of focused courses to thousands of engineers, managers and support personnel in the space community. All training subject matter and supporting materials are designed to increase knowledge and improve productivity associated with space technologies, systems and operations. These topics are not offered in a university setting.
Over the past 20 years, Launchspace has been offering company-specific courses that are tailored to the requirements of any given company to train its own personnel. These courses are presented on-site by experts in the particular subject areas. Such offerings have proven to be very cost-effective and efficient. Every major space organization in North America and Europe has taken advantage of Launchspace's Training programs. This includes government agencies such as NASA, USAF and several other offices of the Department of Defense.Course topics cover almost every aspect of space flight from launch vehicle technologies to orbital mechanics to spacecraft design. Our customized courses are offered at client locations in support of mission requirements and to expand the expertise of professional staff members. In addition, a few high-demand public classes are presented for open registration at selected conference locations. Contact us to discuss a customized training program for your professionals:See our website for a partial listing of possible course offerings www.launchspace.com_______________________________________________________________________________________________LAUNCHSPACE is an educational organization dedicated to training and continuing education for space professionals and to supporting the space community.We offer the largest array of customized client-site courses to government agencies and industry, and a full spectrum of technical and management expertise in support of space programs. Click on www.Launchspace.com to see our extensive catalog of course offerings. Any of these can be customized for your needs, or we can create a new course for you.Through our training programs we have helped thousands of engineers and managers become more productive in their careers. Our courses and programs are unique and customized for our clients. We focus on critical skills in all areas of spaceflight, spacecraft and launch systems.Our instructors are all experts in their fields and present highly interactive classes in-person and at your facilities.Please contact us for more information about our services at info@launchspace.com or +1.202.258.6133._______________________________________________________________________________________________
Launchspace Training Phone: 202 258 6133 | Email: Info@launchspace.com
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