VIDEO First Time Ever Seen: Secret of Light: 140 Year old mystery solved! Crookes Radiometer

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First Time Ever Seen: Secret of Light: 140 Year old mystery solved! Crookes Radiometer In a fascinating YouTube video titled "First Time Ever Seen: Secret of Light: 140 Year old mystery solved! Crookes Radiometer," the host delves deep into the long-standing enigmas surrounding the Crookes radiometer, a device first invented over a century ago. This device, often thought to be a mere curiosity, has raised profound questions in the field of physics, particularly concerning light and thermodynamics. Highlights of the Presentation The demonstration begins with the host showcasing how different wavelengths of light interact with the crookes radiometer. While traditional theories suggest that the vanes spin due to variations in thermal radiation and light pressure, the host challenges these ideas. Using a low-intensity LED light, they highlight that only specific wavelengths—particularly in the purple spectrum—effectively drive the vanes into motion, while others like red and green fail to do so under the same conditions. Challenging Established Science A significant argument presented is that despite over a century of scientific investigation, no consensus exists regarding the operational principles of the Crookes radiometer. The host criticizes modern science for relying too heavily on established theories without robust proof, suggesting that many scientists merely propagate outdated ideas. Enthusiasts will find the host's claim of having discovered a new understanding of the phenomena intriguing; they describe light as a "coaxial circuit" and propose that modern interpretations are fundamentally flawed. Takeaway Messages

1. Light Wavelength and Capacitance: The discussion emphasizes a new insight into how capacitance and the wavelength of light play crucial roles in the device's functionality. The host claims that a higher capacitance associated with blue and purple light leads to increased effectiveness in spinning the radiometer's vanes.
2. Critique of Academic Rigor: The host doesn’t shy away from expressing dissatisfaction with the peer review system and the often unchallenged conclusions of established science, positioning themselves as an outsider bringing fresh insights.
3. Encouragement of DIY Experiments: The video encourages viewers to engage with science practically. The Crookes radiometer can be easily built or purchased cheaply, inviting everyone to explore its operation themselves. Engagement with the Community As this video unfolds, I'd love to hear from you all—what are your thoughts on the ideas presented here? Have you ever experimented with a Crookes radiometer or tried to explore the science of light yourself? Let's discuss how our understanding of science evolves and how curious minds can challenge conventional theories! Feel free to check out related threads or share your own experiences with scientific experiments in the comments below!