Spacecraft Propulsion
SRFP Rocket Propulsion
(Sound Resonating Frequency Propulsion)
Space Travel made faster
Can this be a reality? Can we really do this? Does this seem real? How do we know we are not over complicating space travel? What will we find when we travel into deep space.
The 2 primary and explored rocket propulsion types are – Chemical and Electric:
1> Chemical Propulsion: Using a chemical fuel to propel the rocket or satellite forward. These fuels can be both toxic and have a finite limit when its up in the sky. You can’t fill-up gas in space, can you? What do you do when you run out of this? Your velocity maintains, but you have no control on your trajectory or your speed.
2> Electric Propulsion (Ion Thruster, Electrothermal Thruster, Electromagnetic Thruster, Electromagnetic catapult: In simple terms, using electronic ions and magnetism to propel the craft further. Maybe this is the future. The main drawback being, low thrust. You just can’t pull a tank with a mouse right, you need pure horsepower. Same concept – Low thrust will limit what you can do, but can work with primary propulsion techniques as a supplementary source of fuel.
These types of propulsion techniques can get us where we want, but at a snail-pace. Because of which we will take generations to even clear our own galaxy let alone explore for life on other galaxies. It is just not practical. What we need is a propellent which can provide continuous thrust, without exhausting itself out.
Nikola Tesla once said – if you want to find the secrets of the Universe, think in terms of Energy, frequency and vibration. Science has found that Energy vibrates in different frequencies when breaking down matter. In addition to everything vibrating, all matter that seems solid, liquid or gas, is empty space. The electrons, protons and neutrons in the atom are in constant motion. Ancient civilizations were well-aware of it. Words carry energy and the intention behind the words convey the vibration. The energy you put behind the word will carry the meaning more deeply. Every molecule or atom in this universe vibrates at a particular frequency. A molecule in free space can vibrate, because the atoms that make up the molecule can move in different directions relative to the position of the whole molecule. Atoms and molecules have energy, even at Zero Kelvin. This energy causes them to vibrate.
Once you know the resonance frequency, you can amplify its waves to such a higher level that it will break or destroy the object. The power of vibration can be analyzed through cymatics. The universe is formed by light in the form of photon variations, with the absorption and emission of photon energy. Even without adding sound vibrations, the vibrations are always present in the form of photon oscillations. It is because the Universe is never at absolute ZERO.
What is the impact of audio frequency in microbiology? Anthony Holland, an associate professor, and Director of Music at Skidmore college, Discovered the ability of Oscillating Pulsed Electric Fields (OPEF) to destroy cancer cells and MRSA in laboratory experiments. If 2 tuning forks are tuned to the same note, then they resonate together. This is how energy is transmitted to two vibrating objects of the same natural frequency. Research indicates that Egyptians had some device that could be tuned to a specific frequency and with it they could cut massive stones.
Harmonic tune might just be a real source of energy. In 1987, Dr. David Deaks designed and built an acoustic levitation chamber as a micro-gravity experiment for NASA. By applying a continuous resonant sound wave, and by adjusting the amplitude and phase relationship amongst the speakers, he was able to achieve controlled levitation and movement in all 3 axis (x,y &z).
Now lets talk about the vacuum of space. Is space really a complete vacuum? Space is not a perfect vacuum. The near vacuum of space can actually carry sound waves, just not sound waves that we humans can hear. Sound waves are pressure waves in a medium and in a perfect vacuum there is no pressure, so no pressure wave. But the Vacuum of space isn’t actually a prefect vacuum, there are atoms floating around and then occasionally bumping into each and while the density of vacuum is way lower than the atmosphere we are used to, it is still an atmosphere according to the laws of physics. It can sustain pressure and by extension it can sustain pressure waves or sound. So physics tells us that the vacuum can infact carry sounds waves and we can figure out the speed of sound in a vacuum. Using these and the above mentioned principles and experiments, can we generate a resonating frequency in space that will provide controlled directional acceleration for a spacecraft? If so, what speeds could we achieve? Could we achieve or even go faster than the speed of sound?
Hypothetically lets name this type of propulsion as Sound Resonating Frequency Propulsion (SRFP). Can SRFP alone propel a spacecraft? Or would we need it to work hand in hand with the other types of propulsions mentioned above? Why hasn’t anyone talked about this uptill now? Maybe someone already has, but times have changed and we have the technological knowhow to perform what we never could.
Elon Musk, NASA & ISRO – Your comments please?
Author: Rahul Joshi
Published: June 09 2023