Settepercento’s Post

Is Your Expertise Trapped in a Single Orbit? After a decade of pattern recognition 🔗 research at Harvard, Yale and MIT, I've discovered something fascinating: Celestial bodies naturally find their ORBITs. 🪐 Similarly, your expertise has 7 natural expansion points waiting to be unlocked. I've identified the exact pattern successful SMEs use to multiply their revenue streams - hint: it mirrors how planets maintain perfect gravitational balance. One of my clients unlocked 3 new revenue streams in 90 days using the ORBIT framework. 💡🦾🏆 Ready to discover your natural expansion points? DM me with "ORBIT" for more. Ad astra,

Is Your Expertise Trapped in a Single Orbit? After a decade of pattern recognition 🔗 research at Harvard, Yale and MIT, I've discovered something fascinating: Celestial bodies naturally find their ORBITs. 🪐 Similarly, your expertise has 7 natural expansion points waiting to be unlocked. I've identified the exact pattern successful SMEs use to multiply their revenue streams - hint: it mirrors how planets maintain perfect gravitational balance. One of my clients unlocked 3 new revenue streams in 90 days using the ORBIT framework. 💡🦾🏆 Ready to discover your natural expansion points? DM me with "ORBIT" for more. Ad astra,

Our experience of time similarly follows a spiral path rather than a linear or cyclical one. We measure days, months, and years, often feeling that time moves in predictable cycles, but each moment is distinct. Each “day” we experience occurs at a new point in space, influenced by the Earth’s and the Solar System’s ongoing journey through the galaxy. This progression creates a sense that time, like planetary orbits, spirals forward, never returning to the same exact point. This dynamic view of time has profound implications for how we perceive our lives and our memories. Certain days or seasons may feel familiar, evoking a sense of “return,” yet each day is singular, shaped by our current perspective and the unique circumstances of our lives. We might revisit old ideas, relationships, or challenges, but we approach them differently each time, influenced by our evolving experiences and knowledge. Just as no two points on a spiral are identical, no two days or years are truly the same. This spiral movement of time can also be seen as a journey of personal growth. Life presents us with recurring themes—patterns of joy, loss, love, and learning—yet each recurrence offers a chance for deeper understanding. Our personal timelines are not closed loops but helical paths, where the past informs the present, and the present shapes our future. In this way, our experience of time is both linear and cyclical, forward-moving yet revisiting themes in an evolving, expanding spiral. #SpiralDynamics #CosmicPerspective #TimeAndGrowth #InterconnectedUniverse #LifeInMotion https://lnkd.in/gmEne95i

Einstein Was Right About The Way Matter Plunges Into Black Holes For the first time, astronomers have observed the area right at the edge of a black hole where matter stops orbiting and plunges straight in at near light speed. A strange area around black holes called the “plunging region” has been spotted for the first time. This area, where matter stops circling a black hole and instead falls straight in, was predicted by Albert Einstein’s general theory of relativity, but it has never been observed before. Studying plunging regions could teach us about how black holes form and evolve, as well as reveal new information about the fundamental nature of space-time. When any matter gets too close to a black hole, it rips apart and forms an orbiting ring around it called an accretion disc. General relativity predicts there should be an inner boundary to the accretion disc past which nothing can orbit the black hole – instead, it should plunge straight in, rapidly accelerating to near the speed of light as it falls. #snsinstitutions #snsdesignthinking #designthinkers

Fear of the unknown: 7 of the most terrifying elements in space We took a look at seven of the most chilling phenomena in space, from zombie stars to the boomerang nebula. Space is teeming with celestial wonders, some of which are breathtakingly beautiful and others that are scary. Our fear often stems from our limited understanding of cosmic phenomena. The fear of the unknown is powerful. Dark matter, for example, is invisible to us, yet we can observe its effects, such as the formation of galaxy clusters. Similarly, black holes have such a strong gravitational pull that even light can’t escape it, which means we don’t know what is “inside” it. Here, we delve into seven of these unsettling cosmic entities or phenomena.

Passing through a 'C-manifold' is nearly-instantaneous regardless of spatial distances involved. This is 'how' #UFOs/#UAPs 'get here' within a matter of seconds. #UFO/#UAP or #CTPcraft do NOT use '#wormholes' for deep space/universal/C-domain travel. Wormholes for travel are an outdated theory. (https://lnkd.in/ew2QhVnt) #newscience #nonphysics #Cdomain

Science https://lnkd.in/gCebUPck Some methods used to identify these black holes include: 1. X-ray Emissions: When a black hole pulls material from a companion star, the material heats up and emits X-rays that can be detected. 2. Gravitational Influences: The motion of nearby stars can help astronomers infer the presence of black holes by studying their gravitational effects. 3. Gravitational Waves: The merging of black holes can produce detectable gravitational waves, which have been observed by facilities like LIGO and Virgo, providing indirect evidence of their existence. #space #galaxies #blackhole #SagittariusAstar

With a new calibration technique, LOFAR can produce even sharper images at low frequencies.

“…celestial mechanics differed from most earthly systems in a crucial aspect. Systems that lose energy to friction are dissipative. Astronomical systems are not: they are conservative, or Hamiltonian. Actually, on a nearly infinitesimal scale, even astronomical systems suffer a kind of drag, with stars radiating away energy and tidal friction draining some momentum from orbiting bodies, but for practical purposes, astronomers’ calculations could ignore dissipation. And without dissipation, the phase space would not fold and contract in the way needed to produce an infinite fractal layering…As an element in the world revealed by computer explanation, the strange attractor began as a mere possibility, marking a place where many great imaginations in the 20th century had failed to go. Soon, when scientists saw what computers had to show, it seemed like a face they had been seeing everywhere, in the music of turbulent flows or in the clouds scattered like veils across the sky. Nature was constrained. Disorder was channeled, it seemed, into patterns with some common underlying theme.” Colossians 1:17

Astronomers Discover Giant 'Super-Jupiter' with James Webb! A team of astronomers made an incredible discovery using the powerful James Webb telescope - a massive 'super-Jupiter' planet in a distant solar system. This rare find sheds light on the diversity of planetary systems beyond our own. Join us as we delve into the details of this groundbreaking discovery and what it means for our understanding of the universe. Watch now to learn more about this fascinating super-Jupiter planet! #spacex #elon musk #james webb #telescope #james webb space telescope,