Jupiter closest to earth๐ง ๐ช / Jupiter mas proximo de la tierra๐
(Edited)
Today is the month of Jupiter and it is that the largest planet in our solar system will be at its closest point to the earth, this astronomical event has not occurred "since 1951", that is, it has been more than 70 years since we saw Jupiter so close of our planet, this September the giant planet will be the brightest object in the sky after the moon and you will be able to observe it with very basic telescopes or binoculars! For me, since I have a decent telescope and accessories, we will be able to photograph the planet LIKE YOU HAVE NEVER SEEN IT!๐ฑ๐ช๐
Hoy es el mes de Jupiter y es que el planeta mas grande de nuestro sistema solar estara en su punto mas proximo de la tierra, este evento astronomico no ocurria "desde 1951", osea hace mas de 70 aรฑos que no veiamos a Jupiter tan proximo de nuestro planeta, este mes de septiembre el planeta gigante sera luego de la luna el objeto en el cielo mas brillante y podras observarlo con telescopios muy basicos o binoculares! para mi que cuento con un telescopio decente y accesorios podremos fotografiar al planeta COMO NUNCA LO HAS VISTO!๐๐จโ๐ป๐จโ๐ซ๐ญ
Distance calculation๐ง ๐ญ/ Calculo de distancia๐โโ๏ธ๐
This is a photograph that I took with my phone where I point to a stationary object that will serve as a reference for you to see the scope of my telescope and how would be the calculation that I must do to make measurements of distances "X", for example a binocular has some measurements of 10x20 being "10" the angle of the field of vision and 20x means twenty times the human eye! I am going to calculate what is the measurement of my telescope in the human eye or "x". Take as an example a water tower that is exactly one kilometer away!๐คโญ๐โ
Esta es una fotografia que realice con mi telefono donde seรฑalo un objeto inmovil que servira como referencia para que veas el alcance de mi telescopio y como seria el calculo que debo hacer para realizar mediciones de distancias "X", por ejemplo un binocular tiene unas medidas de 10x20 siendo "10" el angulo de campo de vision y 20x quiere decir veinte veces el ojo humano! voy a calcular cual es la medida de mi telescopio en ojo humano o "x". Use como ejemplo una torre de agua que esta exactamente a un kilometro de distancia!๐จโ๐ซ๐จโ๐๐ต๏ธโโ๏ธ
Taking a photograph with a 58mm lens we obtain this result, we have practically been able to double or triple the distance (2x, 3x) however we still cannot read what is written on the water tank, remember that we are photographing an object at a thousand meters away! Next thing I'm going to do is move on to a telephoto lens.๐๐จโ๐ซ๐
Tirando una fotografia con una lente de 58mm optenemos este resultado, practicamente hemos podido duplicar o triplicar la distancia (2x,3x) sin embargo aun no podemos leer lo que esta escrito en el tanque de agua, recordemos que estamos fotografiando un objeto a mil metros de distancia! lo siguiente que hare es pasar a una lente teleobjetiva๐๐ง ๐ช
telephoto lenses are super lenses that were built to photograph things at many distances generally used for sports, nature! with this lens let's say we reach 30x-40x again it's almost impossible to read what is written on the tank! telephoto lenses are also good for astrophotography but they fall short!๐ญ๐จโ๐ป๐
las teleobjetivas son super lentes que fueron construidas para fotografiar cosas a muchas distancias generalmente usadas para deportes, naturaleza! con esta lente digamos que alcanzamos un 30x-40x nuevamente es casi imposible leer lo que esta escrito en el tanque! las teleobjetivas tambien son buenas para astrofotografia pero se quedan cortas!๐ช๐ง ๐
The story changes when I use my 800mm astromaster which is an acceptable telescope to see many things, despite being limited as you can see it gives me an easy range of 1km, but it is not its maximum capacity, in the photo we see that the object has writing something in small letters but cannot be read! To calculate the distance, we divide the 800mm, which is the focal length of the telescope, with the magnification of the lens. In this case, use a 20mm lens. This gives us a distance of 40x times the human eye!๐ฑ๐ญ๐จโ๐ป
La historia cambia cuando utilizo mi astromaster de 800mm que es un telescopio aceptable para ver muchas cosas, apesar de ser limitado como puedes ver me da un alcance facil de 1km, pero no es su maxima capacidad, en la foto vemos que el objeto tiene escrito algo en letras pequeรฑas pero no puede ser leido! para el calculo de distancia dividimos los 800mm que es la distancia focal del telescopio con el aumento de la lente en este caso use una 20mm esto nos da una distancia de 40x veces el ojo humano!๐๐๐ฆพ๐ญ
maximum performance๐ง ๐ญ/Maximo desempeรฑo๐โโ๏ธ๐
It is never recommended to use our telescope to focus on things made of materials that can absorb heat, never point concrete material because it can affect the focus or our equipment! It was a simple comparison so you can see how the telescope can focus on objects at a distance of 3km! however my telescope still has a 4mm lens that when divided by the 800mm telescope we get a 200x magnification๐จโ๐ซ๐๐
Nunca es recomendable utilizar nuestro telescopio para enfocar cosas de materiales que puedan absorber calor, nunca se debe apuntar material de concreto porque puede afectar el enfoque o nuestro equipo! fue una simple comparacion para que veas como el telescopio puede enfocar objetos a una distancia de 3km! sin embargo mi telescopio aun tiene una lente de 4mm que cuando dividimos entre los 800mm del telescopio tenemos un aumento de 200x๐จโ๐ป๐ฑ๐ฑ
Jupiter under normal conditions๐ง ๐ญ/Jupiter en condiciones normales๐โโ๏ธ๐
This is the famous "gas" giant Jupiter is interesting because after the sun it is the brightest emitting object in our solar system! using filters and applying some edits and overlays so you can see jupiter in normal conditions, there is a "golden rule in astronomy" and that is that every 400 days Jupiter reaches the closest point of our planet! Between September 13-29 we will see the planet as bright and "large as possible" it will be positioned to the earth at a distance of "588 million kilometers", and of course its "opposition" is key to observe all its details!๐ง ๐ญ๐ช๐
Este es el famoso gigante "gaseoso" Jupiter es interesante porque luego del sol es el objeto que mas brillo emite en nuestro sistema solar! usando filtros y aplicando algunas ediciones y superposiciones asi se puede ver jupiter en condiciones normales, existe una regla de "oro en la astronomia" y es que cada 400 dias Jupiter llega al punto mas cercano de nuestro planeta! entre los dias 13-29 de septiembre veremos al planeta lo mas brillante y "grande posible" se posicionara a la tierra en una distancia de "588 millones de kilometros", y por supuesto su "oposicion" es clave para observar todos sus detalles!๐จโ๐ป๐๐จโ๐ซ
In normal conditions Jupiter can be seen even with binoculars, we can clearly see some of its moons! the "moons of jupiter" were discovered by "Galileo in 1610" and despite the fact that they are their moons, the name they receive are: (Galilean satellites), among which we highlight Io, Ganymede, Europe and Callisto! that can be seen as points that emit brightness around Jupiter as you see in my photo!๐จโ๐๐จโ๐ป๐ฑ
En condiciones normales Jupiter puede ser vista hasta con unos binoculares, podemos apreciar claramente alguna de sus lunas! las "lunas de jupiter" fueron descubiertas por "Galileo en 1610" y apesar que son sus lunas el nombre que reciben son: (satelites galileanos), entre los que destacamos Io, Ganimedes, europa y Calisto! que se pueden ver como puntos que emiten brillo al rededor de Jupiter tal y como ves en mi foto!๐ช๐๐๐ญ
super jupiter๐ง ๐ญ/Super jupiter๐โโ๏ธ๐
At this point we are with 168x I mean I am using a 4mm lens that gives me a range of between 180x to 200x if we compare my photo with the photo in my program so that we can see jupiter as it is there we need a telescope that magnifies about 1200x I don't know if it exists at a commercial level I think not! but it is a nice opportunity to see the parts of the giant planet such as its moons, poles๐ต๏ธโโ๏ธ๐จโ๐ป๐จโ๐
En este punto estamos con 168x osea estoy usando una lente de 4mm que me da un alcance de entre 180x a 200x si comparamos mi foto con la foto de mi programa para que podamos ver jupiter como esta alli necesitamos un telescopio que aumente unas 1200x no se si existe a nivel comercial creo que no! pero es una bonita oportunidad para ver las partes del planeta gigante como sus lunas, polos ๐ง ๐ต๏ธโโ๏ธ๐จโ๐ป๐จโ๐
I think I get better results when I use the phone directly to the telescope because in PRO mode I can remove the brightness of the planet and when I make the edits I can increase the details of the planet! the filter that is recommended to see Jupiter is blue, as you could see in the previous photo I have them all!๐ญ๐ง ๐ต๏ธโโ๏ธ
Creo que consigo mejores resultados cuando utilizo el telefono directo al telescopio porque en modo PRO consigo eliminar el brillo del planeta y cuando hago las ediciones puedo aumentar los detalles del planeta! el filtro que se recomienda para ver Jupiter es el azul, como pudiste ver en la foto anterior los tengo todos!๐ค๐๐๐ฅ
Jupiter as you have never seen it๐ง ๐ญ/Jupiter como nunca lo habias visto๐โโ๏ธ๐
After a few hours of layering and editing I got a beautiful Jupiter computerized work for it I had to use all my accessories, I won't go into detail with the jupiter parts because I want to focus a post on it! but you can see its equatorial lines and also the moons, more or less this is what the moons would look like if their color was captured by the camera! all this with a 800mm + 4mm, filters and edition.๐ฅ๐ง ๐ญ
Luego de algunas horas de superposicion y edicion consegui un hermoso trabajo computarizado de Jupiter para el tuve que usar todos mis accesorios, no entrare en detalle con las partes de jupiter porque quiero centrar un post para ello! pero puedes ver sus lineas ecuatoriales y tambien las lunas, mas o menos asi lucirian las lunas si su color fuera captado por la camara! todo esto con un 800mm+4mm, filtros y edicion.๐๐๐จโ๐ป๐ช
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GRACIAS POR LEERME / THANKS FOR READING ME (FOTOS DE MI PROPIEDAD / PHOTOS OF MY PROPERTY)๐๐ง ๐ฆพ๐
https://www.ngenespanol.com/el-espacio/jupiter-en-oposicion-como-verlo/
https://astroaficion.com/2022/09/01/efemerides-astronomicas-de-septiembre-de-2022/
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Due to the scientific nature of the post, the numerical data and descriptions of the jupiter were extracted directly from the cited pages, to make a direct mention, the following was used: ""/ the photos shown in this post on my authority are edited to the point of using a photo -montage, edition of coloration and position!! A PHOTO IS NEVER SHOWN AS IT IS TAKEN!!!๐โ๐
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