Permanent Magnet Motor - Howard Johnson (Nonworking)
Summary
TLDRIn this episode of 'Failed Free and Retreat Devices,' Tanner Doozy explores the concept of magnetic motors, focusing on Howard Johnson's ideas. Johnson theorizes that properly arranged permanent magnets can create perpetual motion by interlocking their magnetic fields to generate directional thrust. Tanner experiments with different types of magnets, such as ceramic and neodymium, testing their efficiency. Despite initial successes, his system eventually slows down due to resistance. He plans to continue experimenting with magnet configurations and distances to find the ideal setup, while noting the challenges and dangers of pursuing free energy technologies.
Takeaways
- ๐ Howard Johnson's magnetic motor concept involves arranging magnets to interlock, creating a directional thrust for perpetual motion.
- ๐ The magnetic field is described as energy in constant motion, which can potentially create a system that runs indefinitely.
- ๐ Using ceramic magnets in the prototype was less effective, as they are bulky and low-powered compared to neodymium magnets.
- ๐ A banana-shaped magnet was the most challenging part of the setup, requiring careful configuration for efficiency.
- ๐ The system showed promise but faced challenges like air resistance and bearing friction, which slowed it down over time.
- ๐ The creator initially used six ceramic magnets but switched to a banana-shaped magnet, which improved efficiency significantly.
- ๐ Future experiments include increasing the magnet count to ten and fine-tuning the distance between moving and stationary magnets.
- ๐ The creator plans to move to neodymium magnets for better performance, despite concerns about secrecy and potential risks.
- ๐ The design might still not work as expected, due to the limitation of the magnets used and the nature of perpetual motion systems.
- ๐ The ideal setup would involve a single continuous magnet rather than several small magnets spaced apart.
- ๐ For optimal results, the creator suggests using neodymium magnets, precision 3D printing for components, and careful fine-tuning for the best setup.
Q & A
What is the main topic discussed in the video?
-The video discusses the concept of magnet motors, specifically focusing on the works of Howard Johnson and his ideas about perpetual motion using permanent magnets.
How does Howard Johnson propose to achieve perpetual motion with magnets?
-Howard Johnson's concept involves positioning magnets in such a way that their fields interlock, creating a directional thrust. This alignment supposedly enables the system to continue moving indefinitely, thus achieving perpetual motion.
Why does the narrator emphasize the use of neodymium magnets over ceramic magnets?
-The narrator emphasizes the use of neodymium magnets because they are more powerful and efficient than ceramic magnets, which are bulkier and offer lower energy, making them less effective in creating the required motion in the magnet motor.
What issue does the narrator encounter with the initial setup using banana-shaped ceramic magnets?
-The narrator finds that the initial setup with banana-shaped ceramic magnets works somewhat but eventually slows down due to resistance from air and possibly the bearings, preventing it from achieving perpetual motion.
How does the narrator plan to improve the setup?
-The narrator plans to improve the setup by adding more magnets, increasing the number to ten, and experimenting with the distance between the moving armature and the stationary magnets to optimize the system's efficiency.
What additional factor does the narrator believe might contribute to the inefficiency of the motor?
-The narrator suggests that the resistance from the bearings and air resistance might be contributing to the inefficiency, preventing the system from running indefinitely.
What advice does the narrator give to those attempting to recreate the magnet motor?
-The narrator advises using neodymium magnets, a 3D printer for precision components, and ensuring that the setup is as perfect as possible to maximize efficiency.
What does the narrator say about the difficulty of achieving a working magnet motor?
-The narrator acknowledges that achieving a working magnet motor might be impossible due to the inherent limitations of the system, such as the design of the magnets and the resistance factors involved.
Why does the narrator express caution about demonstrating the final working version of the magnet motor?
-The narrator expresses caution because of concerns about potential backlash or harm, referencing the fact that people have faced harm for revealing technologies that challenge established systems or control mechanisms.
What future plans does the narrator have for experimenting with the magnet motor?
-The narrator plans to continue experimenting by using more precise components like neodymium magnets and 3D printing, adjusting distances between magnets, and possibly increasing the number of magnets to refine the motor's functionality.
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