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Somos víctimas de nuestras propias elecciones.
Bernardo Stamateas
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Perdón.
El perdón es una de las cosas que más nos cuesta pedir, o aceptar; somos tan orgullosos que preferimos guardarnos todo eso antes de asumir que cometimos un error.
Pero por lo menos yo, he aprendido que siempre es necesario hacerlo, que es mejor afrontar las consecuencias de nuestros actos y disculparnos con quién se lo merece, que ir por la vida llenos de orgullo que no nos lleva a ningún lado.
Por eso he querido disculparme con todo aquel que alguna vez llegué a causarle algún problema, pero más importante, he querido pedirme perdón a mi mismo por todo lo que permití que la gente me hiciera.
Has click aquí y escucha este audio si sientes que necesitas oír algo que te haga sentir mejor.
Mejor ser un ignorante entre los sabios, que un sabio entre ignorantes"
Anonimo
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The Closest Star to the Sun, Proxima Centauri, has a Planet in the Habitable Zone. Life Could be There Right Now
In August of 2016, astronomers from the European Southern Observatory (ESO) announced the discovery of an exoplanet in the neighboring system of Proxima Centauri. The news was greeted with consider excitement, as this was the closest rocky planet to our Solar System that also orbited within its star’s habitable zone. Since then, multiple studies have been conducted to determine if this planet could actually support life.
Unfortunately, most of the research so far has indicated that the likelihood of habitability are not good. Between Proxima Centauri’s variability and the planet being tidally-locked with its star, life would have a hard time surviving there. However, using lifeforms from early Earth as an example, a new study conducted by researchers from the Carl Sagan Institute (CSI) has shows how life could have a fighting chance on Proxima b after all.
The study, which recently appeared in the Monthly Notices of the Royal Astronomical Society, was conducted by Jack O’Malley-James and Lisa Kaltenegger – an research associate and the director of the Carl Sagan Institute at Cornell University. Together, they examined the levels of surface UV flux that planets orbiting M-type (red dwarf) stars would experience and compared that to conditions on primordial Earth.
Artist’s impression of the surface of the planet Proxima b orbiting the red dwarf star Proxima Centauri. The double star Alpha Centauri AB is visible to the upper right of Proxima itself. Credit: ESO
The potential habitability of red dwarf systems is something scientists have been debated for decades. On the one hand, they have a number of attributes that are encouraging, not the least of which is their commonality. Essentially, red dwarfs are the most common type of star in the Universe, accounting for 85% of the stars in the Milky Way alone.
They also have the greatest longevity, with lifespans that can last into the trillions of years. Last, but not least, they appear to be the most likely stars to host systems of rocky planets. This is attested to by the sheer number of rocky planets discovered around neighboring red dwarf stars in recent years – such as Proxima b, Ross 128b, LHS 1140b, Gliese 667Cc, GJ 536, the seven rocky planets orbiting TRAPPIST-1.
However, red dwarf stars also present a lot of impediments to habitability, not the least of which is their variable and unstable nature. As O’Malley-James explained to Universe Today via email:
“The chief barrier to the habitability of these worlds is the activity of their host stars. Regular stellar flares can bathe these planets in high levels of biologically harmful radiation. Furthermore, over longer periods of time, the onslaught of X-ray radiation and charged particle fluxes from the host stars places the atmospheres of these planets at risk of being stripped away over time if a planet cannot replenish its atmosphere fast enough.”
Artist’s impression of a habitable exoplanet orbiting a red dwarf star. The habitability of the planets of red dwarf stars is conjectural (Credit ESO/M. Kornmesser public domain)
For generations, scientists have struggled with questions regarding the habitability of planets that orbit red dwarf stars.
Unlike our Sun, these low-mass, ultra-cool dwarf stars are variable, unstable and prone to flare-ups. These flares release a lot of high-energy UV radiation, which is harmful to life as we know it and capable of stripping a planet’s atmospheres away.
This places significant limitations on the ability of any planet orbiting a red dwarf star to give rise to life or remain habitable for long. However, as previous studies have shown, much of this depends on the density and composition of the planets’ atmospheres, not to mention whether or not the planet has a magnetic field.
To determine if life could endure under these conditions, O’Malley-James and Kaltenegger considered what conditions were like on planet Earth roughly 4 billion years ago. At that time, Earth’s surface was hostile to life as we know it today. In addition to volcanic activity and a toxic atmosphere, the landscape was bombarded by UV radiation in a way that is similar to what planets that orbit M-type stars experience today.
To address this, Kaltenegger and O’Malley-James modeled the surface UV environments of four nearby “potentially habitable” exoplanets – Proxima-b, TRAPPIST-1e, Ross-128b and LHS-1140b – with various atmospheric compositions. These ranged from ones similar to present-day Earth to those with “eroded” or “anoxic” atmospheres – i.e. those that don’t block UV radiation well and don’t have a protective ozone layer.
Artists impression of LHS 1140b, a “Super-Earth” that orbits an orange dwarf star just 14 light years away. Credit: M. Weiss/CfA
These models showed that as atmospheres become thinner and ozone levels decrease, more high-energy UV radiation is able to reach the ground. But when they compared the models to what was present on Earth, roughly 4 billion years ago, the results proved interesting. As O’Malley-James said:
“The unsurprising result was that the levels of surface UV radiation were higher than we experience on Earth today. However, the interesting result was that the UV levels, even for the planets around the most active stars, were all lower than the Earth experienced in its youth. We know the young Earth supported life, so the case for life on planets in M star systems may not be quite so dire after all.”
What this means, in essence, is that life could exist on neighboring planets like Proxima b right now despite being subjected to harsh levels of radiation.
If you consider the age of Proxima Centauri – 4.853 billion years, which is roughly 200 million years older than our Sun – the case for potential habitability may become even more intriguing.
The current scientific consensus is that the first lifeforms on Earth emerged a billion years after the planet formed (ca. 3.5 billion years ago). Assuming Proxima b formed from a protoplanetary debris disk shortly after Proxima Centauri was born, life would have had enough time to not only emerge, but get a significant foothold.
This artist’s impression shows several of the planets orbiting the ultra-cool red dwarf star TRAPPIST-1. Credit: ESO
While that life may consist solely of single-celled organisms, it is encouraging nonetheless. Aside from letting us know that there could very well be life beyond our Solar System, and on nearby planets, it provides scientists with constraints on what type of biosignatures may be discernible when studying them. As O’Malley-James concluded:
“The results from this study builds the case for focusing on life on Earth a few billion years ago; a world of single-celled microbes – prokaryotes – that lived with high UV radiation levels. This ancient biosphere may have the best overlaps with conditions on habitable planets around active M stars, so could provide us with the best clues in our search for life in these star systems.”
As always, the search for life in the cosmos begins with the study of Earth, since it is the only example we have of a habitable planet. It is therefore important to understand how (i.e. under what conditions) life was able to survive, thrive and respond to environmental changes throughout Earth’s geological history.
For while we may know of only one planet that supports life, that life has been remarkably diverse and has changed drastically over time.
Be sure to check out this video about these latest findings, courtesy of the CSI and Cornell University:
Source: Universe Today, article by Matt Williams
Las ventajas de tener unos apuntes organizados:
1. FAVORECE LA ATENCIÓN: mientras tomas apuntes necesitas poner atención porque si no te despistas y pierdes mucha información que ya no puedes anotar. Nos anima a estar atentos a la explicación.
2. AUMENTA TU CONCENTRACIÓN en la explicación del profesor, como necesitas anotar lo importante y no perderte detalle tu nivel de concentración en lo que dice el profesor aumenta, pones interés en lo dice. No es una actitud pasiva.
3. TE ADELANTAS A LA FASE DEL ESTUDIO EN SÍ, ya te estás implicando en el material que luego has de memorizar o razonar de una forma activa y vivencial. Vas preparando el terreno.
4. GRABACIÓN EN TU MEMORIA DE MANERA ESPECIAL: los ejemplos, las aclaraciones del profesor, te permite entenderlo posteriormente cuando recurres a ellos. Si no lo hubieras anotado pasaría al olvido directamente y habría más dificultades para entenderlos.
5. MEJORA NUESTRA CAPACIDAD PARA QUITAR LA PAJA: mientras los tomas debes de seleccionar las ideas y distinguir las que merezca la pena anotar y las que no (los datos secundarios u adornos). Para ello nos servirán las muletillas habituales que utilice el profesor para resaltar ideas importantes, por ejemplo: “recordar, prestar atención, la clave está en…, fijaros en…” Esta capacidad nos vendrá bien para los resúmenes posteriores.
6. SE ESTIMULAN VARIAS CAPACIDADES PERCEPTIVAS E INTELECTUALES A LA VEZ: visión, audición, valoración de la importancia de las ideas, clasificación,… Estos elementos son los que necesitaremos luego a la hora de desarrollar el examen. Si ya lo trabajamos en clase previamente nos resultará después más fácil aplicarlo y las tendremos más entrenadas.
7. MAYOR FACILIDAD PARA RECORDAR, “TE DICEN ALGO”: al ser tus propios apuntes, cada frase puede traerte un recuerdo de la clase, de los ejemplos.. son apuntes personalizados con los que luego trabajarás mejor y más cómodo a la hora de estudiar porque ya te has implicado vivencialmente con ellos. Si son apuntes ajenos son más fríos y difíciles de entender.
Les deje un video en mi canal de YouTube contándoles algunos consejos para tener apuntes más organizados y bonitos, espero que les guste
https://youtu.be/efmA7kzuMzc
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The ABCDE Method: Accomplish Tasks more Efficiently
I recently came across the ABCDE method that’s similar to what I do to stay productive each day: instead of lumping up all your tasks, sort them into categories and tackle each of them differently. Here’s an outline of the method. Hope it helps :)
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