Science and facts
Science and facts. Channel about the most amazing facts and discoveries 🔥 Buy ads: telega.io/channels/tgscience_facts/card?r=d8caDv0I Owner: @JamesFreemanQ
Mostrar más📈 Análisis del canal de Telegram Science and facts
El canal Science and facts (@tgscience_facts) en el segmento lingüístico de Inglés es un actor destacado. Actualmente la comunidad reúne a 34 724 suscriptores, ocupando la posición 413 en la categoría Hechos y el puesto 1 018 en la región EEUU.
📊 Métricas de audiencia y dinámica
Desde su creación el невідомо, el proyecto ha mostrado un crecimiento acelerado, reuniendo a 34 724 suscriptores.
Según los últimos datos del 07 julio, 2026, el canal mantiene una actividad estable. En los últimos 30 días la variación de miembros fue de -158, y en las últimas 24 horas de -4, conservando un alto alcance.
- Estado de verificación: No verificado
- Tasa de interacción (ER): El promedio de interacción de la audiencia es 9.01%. Durante las primeras 24 horas tras publicar, el contenido suele obtener 4.81% de reacciones respecto al total de suscriptores.
- Alcance de las publicaciones: Cada publicación recibe en promedio 3 127 visualizaciones. En el primer día suele acumular 1 671 visualizaciones.
- Reacciones e interacción: La audiencia responde de forma activa: el promedio de reacciones por publicación es 40.
- Intereses temáticos: El contenido se centra en temas clave como researcher, experiment, fungus, scientist, universe.
📝 Descripción y política de contenido
El autor describe el recurso como un espacio para expresar opiniones subjetivas:
“Science and facts.
Channel about the most amazing facts and discoveries 🔥
Buy ads: telega.io/channels/tgscience_facts/card?r=d8caDv0I
Owner: @JamesFreemanQ”
Gracias a la alta frecuencia de actualizaciones (últimos datos recibidos el 08 julio, 2026), el canal mantiene la vigencia y un amplio alcance. La analítica demuestra que la audiencia interactúa activamente con el contenido, lo que lo convierte en un punto de referencia dentro de la categoría Hechos.
Carga de datos en curso...
| Fecha | Crecimiento de Suscriptores | Menciones | Canales | |
| 08 julio | +5 | |||
| 07 julio | +5 | |||
| 06 julio | +8 | |||
| 05 julio | +5 | |||
| 04 julio | +12 | |||
| 03 julio | +18 | |||
| 02 julio | +5 | |||
| 01 julio | +11 |
| 2 | Your tattoo isn’t just decorative ink: it’s a permanent trigger that keeps your immune system locked in a lifelong cycle of chronic inflammation.
As soon as the ink is injected into your skin, your body recognizes the pigment particles as foreign invaders. Immune cells called macrophages immediately swarm the area and attempt to swallow them up. But because they can’t actually break down the ink, the macrophages eventually die, releasing the pigment back into the surrounding tissue — only for a new wave of macrophages to arrive and repeat the process.
This endless cycle is what keeps the tattoo permanently visible, while also maintaining a state of ongoing, low-level inflammation in the skin.
Over time, some of these ink particles migrate through the lymphatic system and accumulate in the lymph nodes, placing constant stress on the body’s defense mechanisms. Emerging research suggests this internal ink buildup may interfere with normal immune function, potentially reducing the effectiveness of certain vaccines, including mRNA types. Additionally, many tattoo inks contain heavy metals like nickel and cobalt. Combined with the chronic inflammation, this has been linked to a modestly elevated risk of lymphoma and skin cancer.
While tattoos remain a powerful form of self-expression, they represent a complex, decades-long biological conflict between your immune system and foreign substances embedded in your skin.
[Nielsen, C., Jerkeman, M., & Jöud, A. S. (2024). Tattoos as a risk factor for systemic lymphoma: A population-based case-control study. eClinicalMedicine]
Science and facts💡 | 782 |
| 3 | How Volvo quietly built the safest engine bay in the world
Science and facts💡 | 1 524 |
| 4 | This Tesla coil built a wire out of thin air
Science and facts💡 | 1 649 |
| 5 | Developed by Festo, the BionicSwift is a triumph of biomimicry. Weighing just 42 grams and spanning 68 cm, these robotic swallows use overlapping ultra-lightweight foam "feathers" that fan out on the upstroke and close on the downstroke to mimic real bird flight.
Science and facts💡 | 1 831 |
| 6 | A man took “cooling efficiency” to the next level.
He used a 3D-printed wall setup and redirected his AC so one unit cooled two rooms at once. Ingenious airflow hack through a simple hole in the wall.
Science and facts💡 | 1 936 |
| 7 | U.S. farmers are intentionally flooding their fields to revive ancient "prairie potholes," creating temporary "pop-up" wetlands that deliver a huge boost to migratory birds while improving soil health.
In regions like California's Central Valley and the Mississippi Delta, innovative programs—most notably BirdReturns (launched by The Nature Conservancy in 2014)—pay farmers to strategically flood low-lying or post-harvest fields at precise times during bird migrations. These short-term wetlands mimic the natural prairie potholes and seasonal marshes that once dotted the landscape but were largely drained for agriculture.
By timing floods to align with peak migration periods (e.g., spring and fall for shorebirds, waterfowl, and sandhill cranes), farmers provide essential stopover habitat: shallow water, mudflats, and abundant food for millions of birds traveling along flyways like the Pacific Flyway. The approach has transformed tens of thousands of acres of working farmland into critical refueling stations, with studies showing dramatic increases in bird use and numbers—sometimes 3.5 times higher in these managed pop-up wetlands compared to standard fields.
Farmers also gain practical benefits. Seasonal flooding enhances soil structure, boosts nutrient cycling (as bird activity and water help break down residues), recharges groundwater, reduces erosion, and supports long-term land productivity—often without hurting crop yields in subsequent seasons.
This win-win model proves that modern agriculture and wildlife conservation can reinforce each other, turning productive farmland into flexible ecological assets that sustain both birds and resilient farming systems.
[The Nature Conservancy. BirdReturns: Creating Dynamic Habitat for Migratory Birds. The Nature Conservancy California]
Science and facts💡 | 2 077 |
| 8 | These bricks are made from 90% plastic waste! and once they’re locked together, even a tractor struggles to pull them apart.
Science and facts💡 | 2 109 |
| 9 | A $20 trillion concept proposes a 3,400-mile underwater tunnel connecting London and New York, potentially reducing a 7-hour flight to a 1-hour train ride.
Science and facts💡 | 2 253 |
| 10 | This is what a hydropower relief valve test can look like. During tests like these, massive volumes of water are intentionally released to verify that critical equipment can safely handle sudden change in pressure and flow.
Science and facts💡 | 2 141 |
| 11 | This neighborhood in China built a "rooftop rain" mist system that drops temps 5-8°C in minutes.
Science and facts💡 | 2 141 |
| 12 | The three-body problem broke Newton, broke Poincaré (who ended up inventing chaos theory trying), and was finally cracked open by Chenciner & Montgomery in 2000: the figure-8 in clip 4 is their proof.
Šuvakov & Dmitrašinović added 13 more families by 2013.
Every clip is a real numerical integration of F = G·m₁m₂/r² with equal masses, no fudging. Math from 1687 still has surprises in it.
Science and facts💡 | 2 556 |
| 13 | The pendulum system featured by Laibin Seismic is an advanced base-isolation technology designed to protect buildings during earthquakes. It decouples the structure from the ground, allowing the building to sway safely while gravity acts as a restoring force to return it to center
Science and facts💡 | 2 307 |
| 14 | 1959 computer "drawing" a flag 🇺🇸
Science and facts💡 | 2 633 |
| 15 | Dogs fall asleep much faster than humans.
Their ability to doze off rapidly is influenced by their need for frequent naps and their ancestral tendency to be light sleepers, ready to wake at the slightest sound.
Science and facts💡 | 2 756 |
| 16 | The Sun has only 22 galactic orbits left.
Earth races around the Sun at ~67,000 mph (107,000 km/h), giving us our familiar 365.25-day year and changing seasons.
But the Sun is in motion too—hurtling through the Milky Way at ~514,000 mph (828,000 km/h) on a grand orbit around the galactic center. One complete lap, known as a cosmic year, takes roughly 225–230 million years.
When the Sun finished its most recent galactic orbit, the earliest dinosaurs were just beginning to roam Earth.
Since its birth ~4.6 billion years ago, our star has completed about 20 such orbits.
Stellar models predict the Sun will keep fusing hydrogen in its core for another ~5 billion years before it swells into a red giant and eventually fades into a white dwarf. At its current orbital speed, that leaves roughly 22 more laps around the Milky Way.
Each cosmic year sweeps the entire Solar System tens of thousands of light-years across the galaxy—through dense spiral arms rich with star-forming regions, past ancient globular clusters, and amid countless other stars.
Continents drift, mountains rise and erode, entire species evolve and vanish—all within a tiny fraction of one galactic circuit.
Human civilization, from the first cities to today’s digital age, has existed for less than 0.001% of a single cosmic year.
We are passengers on a star halfway through its ~10-billion-year galactic journey across a 100,000-light-year-wide disk—witnessing just the briefest sliver of one ongoing lap in an unimaginably vast cosmic dance.
Science and facts💡 | 2 565 |
| 17 | Chinese kids are already training to become the next generation of drone pilots
Science and facts💡 | 2 902 |
| 18 | Yes: handwriting still matters.
A new study has confirmed that writing by hand activates far more complex and widespread neural networks in the brain than typing, underscoring its importance for learning and memory.
Researchers at the Norwegian University of Science and Technology used a high-density EEG cap with 256 electrodes to record brain activity in university students. They found that the intricate, sensory-rich movements involved in handwriting, especially cursive, trigger highly synchronized brain waves across extensive areas of the parietal and central regions. These coordinated patterns are strongly linked to memory formation, cognitive processing, and encoding new information.
In contrast, typing, which involves repetitive, simpler finger movements, produced significantly less neural connectivity and engagement. The difference was striking: the brain appears much less active during digital writing.
The researchers conclude that the unique motor and sensory experience of holding a pen plays a key role in brain development and learning. As a result, they argue that handwriting instruction should remain a core part of education to support deeper comprehension and cognitive growth in the next generation.
[ “Handwriting vs. Typing: A High-Density EEG Study on Brain Connectivity During Learning” — Norwegian University of Science and Technology (published in Frontiers in Psychology, 2025)]
Science and facts💡 | 2 968 |
| 19 | The strongest material in the universe. The most durable and at the same time lightweight material in our universe is graphene.
This is a carbon plate, the thickness of which is just one atom, but it is stronger than diamond, and its electrical conductivity is a hundred times higher than that of silicon in computer chips.
Science and facts💡 | 2 642 |
| 20 | China now officially hosts the world’s fastest supercomputer.
The new system, named LineShine, has claimed the #1 spot on the TOP500 list with a staggering performance of 2.198 exaflops, making it the fastest publicly verified supercomputer on the planet.
To put that in perspective: one exaflop equals one quintillion (1,000,000,000,000,000,000) calculations per second. LineShine can perform more than 2 quintillion calculations every second, meaning it can solve in a single day what would take a regular computer thousands or even millions of years.
Unlike your laptop or phone, a supercomputer is not a single device, it’s a massive cluster of thousands of processors working in parallel. It breaks enormous problems into millions of smaller tasks, solves them simultaneously, and combines the results.
These machines are essential for tackling humanity’s toughest challenges: simulating hurricanes, modeling climate change decades ahead, designing new materials at the atomic level, running nuclear simulations, accelerating drug discovery, and training powerful AI models.
What makes LineShine particularly notable is that it achieved this record without using GPUs — the chips that power most modern AI systems. Instead, it relies entirely on traditional CPUs, showing an alternative route to exascale computing (machines exceeding 1 exaflop).
Only a few publicly confirmed exascale supercomputers exist today.
Of course, this level of performance comes with huge energy demands, LineShine consumes roughly 42.2 megawatts, enough electricity to power tens of thousands of homes.
Even so, researchers are already looking ahead to the next milestone: zettascale computing — systems roughly 1,000 times more powerful than today’s exascale machines. If realized, they could revolutionize AI, climate modeling, medicine, and our understanding of the universe.
Science and facts💡 | 2 799 |
