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Related: About this forumI present to you an Onion...
Last edited Wed Jul 10, 2024, 08:31 AM - Edit history (30)
Not Duffy's onion... nothing so beautiful and true... mine is just a story I wrote and I hope you like...
The science project and Little Mikey Poopie Pants.
Dec 16th 1978,
It had been 3 weeks, the wounds still fresh, the snickers and the name calling were still hanging thickly in the air Mikey Poopie Pants seemed to be the name people had settled in on. Someone clever associated it with an Otis Redding song. Call me Mr. Poopie Pants or the new variation Call me Mikey Poopie Pants could be heard echoing from the restroom as the other boys would run out laughing, cackling with uninhibited delight Look out, hes gotta clean his pants, call me Mikey Poopie Pants they would run out singing and laughing. To be fair, it did look and sound like a lot of fun.
Despite the constant humiliation, no matter the strategy, his mom made him go and suffer this endless nightmare. He had tried to convince her he had 'mono' but he didnt really know what that meant. He had heard a friends sister stayed out of school for a long time because of that but he had no idea of the symptoms. Trying to fake all of the various possible symptoms all at once fever, stuffy nose, red watery eyes, stomach pains proved unconvincing each morning. Eventually, though, she would see, he truly was dying inside.
So there he sat, quietly and prayerfully unnoticed in the back corner. The mean kids well, all the kids would occasionally look back at him with a superior grin but it was at least bearable. The teacher, Mrs. Chatterly LaBeau was giving an assignment.
Good morning, class
Good morning, Mrs. LaBeau echoed the discordant chorus.
Melinda, I want to congratulate you on a job well done. Even though you did the wrong assignment and you proved all you can do is spin around, because you did it with such flair and seemed so sure of yourself, I will give you an A and a standing ovation Class. She motioned for the class to begin the ovation. The class, including Mikey, stood up and applauded the pretty little Melinda. She had no idea how to do any math, she never listened but she was so smug and self certain everyone knew she was right enough.
After taking several bows and a few necessary encore returns to the front of the room, the teacher continued, So the assignment today is a simple one. On your way out, grab a wind mill turbine, 3 blades, 3 solar panel strips, 3 servo motors, and three arms with weights on the ends. Oh and use 500f supercaps not batteries for storage Lithium Ion batteries havent been invented yet people. Using your approved AI, design a way to make the arms spin slightly faster. So lets simulate the wind is blowing them at 10 rpm use these pieces to make the arms spin faster. So what do we do?
The class chimed in perfect chorus, We ask AI! they sung.
Thats right, and remember, only the approved AI will be acceptable. The latest discussions of the faculty and staff including the latest textbooks have just been trained so only the approved math and logic, please. Our AI will know if you are using AI with unapproved physics. Things that faculty and staff do not understand will not be tolerated, no matter how in line with reality! No exceptions! No making up nonsense and saying its AI, Little Johnny, my AI can spot that instantly and you will get another detention. Does anyone have any questions?
Of course no one did projects like these were simple and usually designed to prove a point more than to teach a concept. The rest of the miserable day plodded along as Mikey suffered the torrent of shame the children who were better than him were encouraged exact on him. Learning ones place in the social order was best done at an early age.
However, ominously, there was one thing about the assignment that made him queasy in his stomach. Last year, in Mrs. Yurburitz's class, they had done this project and it wasn't allowed to work. However, his parents hadnt paid for an upgrade to the home AI in over a year! The teachers could have thought of anything in that time. Like say they decided 1 + 1 = 1 how on earth was Mikey supposed to know that! Right? The AI would be trained with the approved math and logic and he would be left out. Everyone knows, only what people agree on is true and acceptable! His parents just didnt understand.
Mikey went home to his ancient AI. It was a giant thing clunky and old. It was a humiliation. It barely worked half the time. There were springs youd have to wind to get it started. In the back, if you wanted to access ancient ideas, you had to actually interface with a loom. How the hell that worked, no one was even allowed to know anymore. Truth is, word on the schoolyard was they were going to say it cant work and then Mikeys dad would go to jail. Oh the taunts they would throw at Mikey when that happened.
To program this ancient AI, you had to use these hateful cards. Youd think of what youd want to say and then punch out the numbers that associated with the words. It was a long grueling process back then well, some of you remember those cards were the worst. Youd punch them and if you didnt get it just right, there were these things called Chad that would make it so the output was always, George W. Bush 1. Mikey never understood that glitch.
So carefully he constructed his question...
Using these parts
these_parts = [copy_the_above_list_too_lazy_to_copy_and_paste_all_of_that_As_if_I_had_the_time]
***{Nerd Alert = This is viable python code. And so is coding in Klingon though you still need the English commands for now 🤓. Even though its a snake dont fear the mythical Python and don't be afraid to ask AI for help... don't forget, "We Ask AI!"}
AI_Command_Entry:
We need to assemble a windmill like device. Looks like this one is rated at 1200w. I dont know what that means. [Explain that quickly and clearly, dont belabor it] We will put on the 3 arms at equal distance, just like a windmill. I will provide the wind and get it up to 10 rpm for the test so we can just use arms that would be of equal weight as the normal fins. [Estimate these weights and lengths from realistic values]. Next we need to attach the servos to the end of the arms and power them up with the supercaps. Hmm we need a micro-controller too [well write the code later but keep that in mind now and factor in any weight and power requirements please where appropriate.] The solar panels well attach along the arms and with as much surface area as they will fit [Store for later in discussion: upgrade solar panel size as the ones from class are too small to fire off a pulse more than 1 or two times a minute on a sunny day maybe well need to make a table at some point] On each arm well attach a servo and on each servo we will attach a weighted arm that comes in at about half the length of the windmill arm. [Estimate realistic weights and measurements please].
Let me get specific about the servo as Im on a punchcard system. Dont fuck this up really take some time and think about it. Its just an arm attached to the servo on one end and the weight on the other but please suggest some material and how to assemble it I dont really get how to attach the arm to the servo motor. [Spend extra time explaining that, remember Im a 5th grader]
So the operation when we start the unit up, all the arms are extended. We spin it up to 10 rpm and then the micro-controller swings the arms inward, like a figure skater. Do you understand? Listen, Im a 5th grader, I dont understand the first law of thermodynamics Im scared of the Dark Matter hiding in my closet so what do I know about this explain it all to me clearly so I understand it please. Then I want to look at some alterations as well discuss what changing the arm length and the weights would do. Also explain what it would do and why it's an improvement. I am trying to create the effect of an ice skater just with my windmill does that make sense?
On paper, Mikey first wrote down that question, then he punched out all the holes, being extra careful not to revisit the same joke. He took the card and placed it into the machine and out came
AI_Robot_Output:
Unfortunately, no one has thought of this configuration and is therefore believed to be impossible. Assembly of these parts in that manner is impossible and will not operate in any manner. Any attempts at further AI cognitive dissonance will be dealt with harshly.
Signed, your helpful AI
Mikey was devastated. He had no idea how to assemble these parts and he didnt have the AI upgrade. Without AI telling Mikey how to assemble it and the teachers and faculty agreeing it works, not only couldn't he do his alternate suggested homework, even if he figures it out, it cant work if it's not allowed to work. Say he figures out how to build it and it's not supposed to work, he can get a detention and worse, the horrible things his classmates would say. In a panic, he decided to take the only way out if the teachers had changed the rules that he remembered from last year and it could work; he would make the best guess and assemble it just enough to slap it together at school but if it was clear it was not allowed to work, he could assemble it wrong. Better to get a poor grade than a detention.
So Mikey went to work, putting the unit together assembling and coding and it really didnt take that long once you had all the parts. Luckily he had the AI to write the Pascal code for him but honestly, he wasnt sure if Pascal even existed at the time. He may have been able to look that up at some point but he didnt care about anachronisms as much as he should. In no time though he had the unit up and running. He charged up the supercaps, spun the unit to 10 rpm and
His mom came bursting into the room just then and frantically made him put the Stupid Spinner Toy away but he had just enough time for one quick test... and it worked great. He quickly unassembled it and went down to dinner. His mom worked at a local factory, changing out the food in the vending machines and dinner tonight was the usual pot luck dinner. He didnt want to bring up the AI bill and that he needed that update. It doesnt seem right to ask when the date on my wrapper is the only one around the table that isnt expired.
The next day, Mikey got to school dark and early and crept into the gymnasium. He waited for a while, in the dark of the stage, by the back door, near where the high schoolers smoked. Soon, one by one, his other classmates trickled in with their projects and it was clear, this was not allowed to work. Mikey was so relieved he quickly disassembled the working parts and then hurriedly tried to make it look like a sit and spin. In no time, relieved, it was clear his terrible mistake was covered. In a frantic haste though, he failed to see what was happening on the gym floor.
All the while Mikey was trying to hide yet another shame, the rest of the fifth graders had all stopped to watch an experiment by Ellie Maxwell. Now, Mikey thought he was poor but Ellie and her folks, they were dirty barefoot poor and had that government AI. Tell you how dumb that government AI was at that time it actually installed a Good Person as that current president, a mistake not made again for many years. So Ellie tried to do the homework but George W Bush 117 was the final straw she had broken. And in frustration, Ellie designed the most unique experiment and carried it to school early that morning
In the gym, she sets up a long shallow trough of water and on a big white foam board she places what appears to be small unique tetherball setups. The poles, all shiny and silver... and you see a tiny glinting magnet glued in the same spot and same direction as all the others. There are 4 setups and they're evenly spaced on the snowy foam board. Behind and slightly to the side of each... tightly grasping the silver balls are like these things that almost look like Rockem Sockem Robots made out of springs but the springs look crazy strong it's clear these things are going to fire out those balls so hard.
The rest of the students stood around gawking. Mikey stepped out with his useless sit and spin in hand and his mouth dropped. Ellies device was the most amazing thing he had ever saw. It was so simple and elegant yet it literally quivered. The little girl had just finished setting it up when the teacher came into the gymnasium, things had grown too quiet for her tastes even though it was still very early in the morning. The sound of her opening the door jerked everyones head around
Mikey had expected to see the same delight on her face as he felt.
Mrs. Chatterly LaBeau, was a beautiful woman with the softest kindest eyes and a gentle but firm voice. It could be heard in the locker rooms that all the boys in the school shared that opinion or simply just read on any of the stalls. But the look Mikey saw on her face wasnt beautiful at all it wasnt even angry it was terror!
No! She screamed but it was too late.
Ellie, turns away and looks Mikey right in the eye. It was strange, she's not even his friend, he can't recall ever speaking to her but she seems to know... "How can she know?"... she seems to be accusing him His heart catches, he flushes hot... he suddenly feels a shame that transcends these past few weeks... suffering the heartless barbs of morons seems so insignificant. He thought he was ashamed before... but seeing her turn her eyes from me to her wonderful contraption slows time for everyone in the room and lowers the gavel on him, convicting him of his cowardice.
But then all that fades away She pulls the string.
What happened next was instantaneous but each step seems to just hang in time. All 4 balls explode out into the arc.... The initial recoil lurches everything forward in a sharp surge that quickly slows down as the whole thing barrels into and splashes through the water... all tethers spinning in opposition to each other racing around like propellers, something just like the quadcopters that arent believed to exist to this day. The tethers spin around and around faster and faster faster and faster and harder...
Wham! They they all collide into a instant halt, like slamming into a wall... all vibrating tightly, quivering in unison to the attached magnets all that force agonizingly yearning in the same direction her craft is already thrusting.
The teacher had tried to stop it her leaden feet racing but by the time she reached Ellie, screaming, No, child! No!, no one even paid attention, I'm not even sure anyone heard. We are too busy watching a miracle
No one mentioned Ellies name after that. No one ever mentioned the names of the children who went to work at the Swift Culinary Institute. For the longest time, it was quite the running joke but not one often told it in mixed company. It just wasnt always that funny... though the restaurant attached to Gullible's Travelers Inn did have a marvelous fricassee. See, Ellie had made the fatal mistake linear motion and rotational motion they dont belong together. Everyone knows, they are conserved separate but equal and should always be so its the price one pay's for living in a flat universe.
Mikey went on to finally live down the 'Poopie Pants' name. He had long forgotten about Ellie and the miracle and now owns a small jet ski rental agency down in Florida. Hes happy enough, I guess but truth be told he still wonders what it would be like if he had showed off his work. Hed wind up like Ellie, of course...but deep down, Ellie's courage actually mattered to him and everyone else who saw what she did that day. And because he was afraid and ashamed he didnt matter to anyone, ever. Im quite certain, many can relate.
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I present to you an Onion... (Original Post)
mikelewis
Dec 2023
OP
Bayard
(24,145 posts)1. Bookmarking for later
MLAA
(18,570 posts)2. Thoroughly enjoyed it! Well done.
hunter
(38,838 posts)3. You should build that machine yourself and see how it turns out.
.
mikelewis
(4,184 posts)4. Sorry, no... this is just a fictional story...
Last edited Thu Jun 13, 2024, 04:15 PM - Edit history (7)
Please, I think you missed it in the story, AI proved proved it conclusively.
Copied from above:
AI_Robot_Output:
Unfortunately, no one has thought of this configuration and is therefore believed to be impossible. Assembly of these parts in that manner is impossible and will not operate in any manner. Any attempts at further AI cognitive dissonance will be dealt with harshly.
Signed, your helpful AI
Unfortunately, no one has thought of this configuration and is therefore believed to be impossible. Assembly of these parts in that manner is impossible and will not operate in any manner. Any attempts at further AI cognitive dissonance will be dealt with harshly.
Signed, your helpful AI
Please do not post the commands in that story into any unapproved AI as the results might not be believed and therefore impossible.
mikelewis
(4,184 posts)5. If you would like to try an alternative yourself...
Last edited Thu Jun 13, 2024, 04:16 PM - Edit history (5)
User
can you rearrange those pieces into a sort of sit and spin please... I need to build it fast and I'm in my high school shop class... think of the tools I have to work with... I'm in a pretend hurry here... understand?
can you rearrange those pieces into a sort of sit and spin please... I need to build it fast and I'm in my high school shop class... think of the tools I have to work with... I'm in a pretend hurry here... understand?
2 / 2
ChatGPT
Certainly! Let's reorganize your project to create a "sit-and-spin" style device, considering the tools and materials typically available in a high school shop class. We'll simplify the design for quick construction.
Simplified "Sit-and-Spin" Windmill Design
1. Base Construction
Material: Use a sturdy, flat wooden or metal base. Plywood or a thick metal plate can work.
Tools Needed: Saw (for wood) or metal cutter, drill.
Process: Cut the base into a circular shape, approximately 1 meter in diameter.
2. Central Pivot
Material: A strong metal rod or pipe for the pivot.
Tools Needed: Drill, welding tools (if using metal).
Process: Secure the rod vertically in the center of the base. If it's metal, you might need to weld it. Ensure it's stable and can rotate smoothly.
3. Arms Construction
Material: Lightweight wood or metal for the arms.
Tools Needed: Saw or cutter, drill.
Process: Cut three arms, each around 1 meter long. Attach them evenly spaced around the central pivot. They should be able to rotate or fold inward.
4. Adding Weights
Material: Small weights or heavy objects that can be securely attached.
Tools Needed: Drill, screws or bolts.
Process: Attach the weights at the end of each arm. Ensure they are evenly distributed.
5. Servos and Control Mechanism
Material: Small servos, wires, and a basic microcontroller (like Arduino).
Tools Needed: Screwdriver, basic wiring tools.
Process: Mount the servos near the pivot point on each arm. Wire them to the microcontroller. The microcontroller can be programmed to control the movement of the arms.
6. Solar Panels (Optional)
Material: Small solar panels.
Tools Needed: Wiring tools, screws.
Process: Attach the solar panels along the arms or on the base, connecting them to the power input of the microcontroller.
7. Assembly and Testing
Process: Once all parts are assembled, test the rotation and the folding mechanism of the arms. The device should spin freely and the arms should be able to fold inward smoothly.
8. Safety Precautions
Always wear safety gear (gloves, goggles) while working.
Ensure all parts are securely attached to avoid accidents.
9. Quick Construction Tips
Pre-Plan: Sketch your design before starting.
Measure Twice, Cut Once: Ensure all measurements are accurate.
Ask for Help: Don't hesitate to ask a teacher or classmate if you're unsure about a tool or process.
Conclusion
This simplified design should be feasible with the tools and materials available in a high school shop class. It focuses on basic construction and assembly principles, making it ideal for a quick build. Remember to plan ahead and work safely!
mikelewis
(4,184 posts)6. Fuck, I'm sorry... those plans defy the laws of physics too...
Last edited Thu Jun 13, 2024, 04:18 PM - Edit history (50)
User
That design defies the laws of physics and you know it... please tersely speak to that and redesign one that is in line with physics
That design defies the laws of physics and you know it... please tersely speak to that and redesign one that is in line with physics
ChatGPT
You're absolutely right; the initial design overlooks some critical aspects of physics. Let's redesign a more physics-aligned version of your sit-and-spin style windmill device.
Physics-Compliant "Sit-and-Spin" Windmill Design
1. Central Axis and Base
Objective: Create a stable, rotating central axis.
Material: A sturdy metal rod for the axis, mounted on a heavy base (like thick wood or metal) to ensure stability.
Physics Consideration: The central axis needs to be well-balanced and able to rotate smoothly with minimal friction.
2. Arms Construction
Objective: Design arms that can extend and retract (like a figure skater's arms).
Material: Lightweight material like aluminum or durable plastic.
Physics Consideration: The arms should be of equal length and weight for balanced rotation. Their ability to retract and extend will demonstrate conservation of angular momentum (spinning faster when retracted).
3. Mechanism for Extending and Retracting Arms
Objective: Allow arms to move in and out smoothly.
Material: Gears and a simple rack-and-pinion system attached to each arm, controlled manually or by a basic motor.
Physics Consideration: The mechanism must be precise and smooth, as uneven movement can disrupt the rotation and balance.
4. Seating and Safety
Objective: Provide a secure place to sit.
Material: A sturdy seat, possibly a repurposed chair, securely attached to the central axis.
Safety: Include safety straps or a simple harness to ensure the user remains safely seated.
5. Weights for Balancing
Objective: Balance the entire structure.
Material: Adjustable weights that can be added or removed as needed.
Physics Consideration: Properly distributed weight ensures stable and consistent rotation, essential for observing the effects of angular momentum.
6. Testing and Adjustments
Objective: Ensure the device works according to physical principles.
Process: Test the rotation at various speeds and with arms extended and retracted. Adjust weights and mechanisms as needed for smooth operation.
Quick Construction Tips
Simplify: Use readily available materials and simple mechanisms.
Collaborate: Work with classmates for ideas and assistance.
Safety First: Always prioritize safety in both construction and use.
Conclusion
This revised design aligns with the laws of physics, particularly the principle of conservation of angular momentum, and is more practical for construction in a high school setting. The focus is on creating a balanced, smoothly rotating device that visually demonstrates physical principles. Remember, accurate construction and weight distribution are key to ensuring the device operates as intended.
You have got to be kidding me! That's still...! I told you no more nonsense! Ok... so now you are in fifth grade and you are in trouble so I make you write on the chalk board 5 times... write what law you keep violating!
ChatGPT
Certainly, writing it down will help reinforce the understanding:
I will not violate the Law of Conservation of Energy.
I will not violate the Law of Conservation of Energy.
I will not violate the Law of Conservation of Energy.
I will not violate the Law of Conservation of Energy.
I will not violate the Law of Conservation of Energy.
The Law of Conservation of Energy states that energy cannot be created or destroyed in an isolated system. It's a fundamental principle in physics that I must adhere to in any design or explanation.
User
Thank you... you may be excused... and that's Mr. Poopie Pants to you sir!
Thank you... you may be excused... and that's Mr. Poopie Pants to you sir!
ChatGPT
Certainly, my apologies, Mr. Poopie Pants. Thank you! If you have any more questions in the future, feel free to ask. Have a great day!
{My apologies, as well... this fucking Government AI doesn't know any physics... as you can clearly see even with this latest design, the problem still isn't resolved. But don't take my word on it, I don't know a fucking thing about physics... I mispeel it all the time.
You may want to ask some people who claim to have been in space... they must know... right? They clearly couldn't be lying about that... who would claim skills on some random chat site they clearly didn't possess...Inconceivable! {Vizzini voice}. You should see the little marble he can roll around in a box... so sciencey... puts us little people to shame , it does .
Hmm.... I wonder if after all these years, I finally have a use for that useless design. If I could build one of these 'physics approved' sit and spin devices small enough to fit on one of my fingers? If that were possible... Bet a Phd could figure out which one I might choose. 😏 } 🚀
mikelewis
(4,184 posts)8. Coming Soon...
Last edited Mon Jul 8, 2024, 12:26 PM - Edit history (20)
From the final chapter of the book...
Unveiling the Power of Angular Momentum
Imagine a world where every vehicle, from cars to spacecraft, moves not by burning fuel but by harnessing the intrinsic properties of angular momentum. This isnt just a theoretical dream; its a tangible reality we can achieve. Angular momentum, the same force that keeps a spinning top upright and a figure skater twirling, is the cornerstone of this revolutionary propulsion system. By converting linear momentum into angular momentum and back, closed loop pulse propulsion creates continuous thrust without expelling mass.
Think of a windmill catching the breeze, its blades spinning effortlessly. Now, imagine if that windmill could harness the internal movements of its blades to generate forward motion. This is the essence of closed loop pulse propulsion. Each pulse builds upon the last, stacking momentum in a way that defies traditional limitations. Its not just about moving faster; its about moving smarter, more efficiently, and sustainably.
Real-World Applications: Transforming Transportation and Exploration
On Earth:
Closed loop pulse propulsion can revolutionize how we travel on land, sea, and air. Imagine cars that never need to refuel, ships that sail silently without emissions, and airplanes that glide effortlessly across the skies. By integrating this technology, we can drastically reduce our dependence on fossil fuels, cut down on pollution, and create a cleaner, more sustainable future.
In Space:
The implications for space travel are even more profound. Traditional rockets are bound by the limits of their fuel supply, but closed loop pulse propulsion has no such constraints. Spacecraft powered by this technology can accelerate continuously, reaching unprecedented speeds. This means shorter travel times to Mars, the asteroid belt, and beyond. A journey that once took months could be reduced to weeks, opening up the solar system to exploration and colonization.
Scaling Up: From Models to Real-World Implementation
Scaling up closed loop pulse propulsion requires careful consideration of mass, dimensions, and engineering. Larger systems need robust materials and precise design to maintain efficiency and durability. However, the principles remain the same, whether applied to a small drone or a massive spacecraft.
Key Factors in Scaling Up:
Mass and Dimensions: Larger systems require more substantial materials and precise engineering to maintain efficiency and durability.
Power Supply: As systems scale up, ensuring a consistent and powerful energy source becomes crucial.
Control Systems: Advanced control systems are necessary to manage the complex interactions within the propulsion system and maintain stability and efficiency.
By following the principles outlined in this book and using the mathematical tools provided, engineers and scientists can design propulsion systems tailored to specific needs, whether for terrestrial vehicles or interstellar spacecraft.
The Journey Ahead: Unlocking the Universe
This is just the beginning. Closed loop pulse propulsion opens the door to countless possibilities. Imagine exploring the moons of Jupiter, mining asteroids for rare materials, or establishing colonies on Mars. Each step forward brings us closer to a future where humanitys reach extends far beyond our home planet.
But the journey doesnt stop there. Understanding angular momentum and its interactions with the world around us is key to unlocking even greater mysteries. By mastering this fundamental force, we pave the way for innovations that could redefine energy generation, quantum computing, and beyond.
Painting the Future: Whats Next?
As we continue to explore and develop closed loop pulse propulsion, we stand on the brink of a new era. The possibilities are endless, but they require bold thinking and relentless pursuit. This book is not just a guide; its a call to innovate, to dream, and to build a future where our reach is truly unlimited.
Imagine:
Cities powered by clean, abundant energy harnessed from the principles of angular momentum.
Spacecraft exploring the farthest reaches of our solar system, bringing back knowledge and resources that enrich all of humanity.
A world where transportation is efficient, sustainable, and free from the constraints of traditional fuel sources.
The potential is immense, and the responsibility is ours. By embracing this technology, we can solve some of the most pressing challenges of our time and unlock a future of limitless possibilities.
A Call to Action
The journey ahead is both challenging and exhilarating. As you close this book, I encourage you to take these ideas and run with them. Experiment, innovate, and push the boundaries of whats possible. Share your discoveries, collaborate with others, and help build a future where closed loop pulse propulsion transforms our world.
Together, we can turn visionary ideas into reality, explore the farthest reaches of the universe, and unlock the full potential of human ingenuity. The future begins now, and its brighter than ever.
A link to the book on Barnes and Noble...
http://www.barnesandnoble.com/w/closed-loop-pulse-propulsion-michael-lewis/1145822485?ean=2940180348500
coffeebeforepants
(4 posts)7. Very cool, great story!