Pôr Da Lua No Pôr Do Sol! 🌙☀️
Pôr da Lua no Pôr do Sol! 🌙☀️
📅 Data de registro: 5 de agosto de 2024 às 18:23
More Posts from Carlosalberthreis and Others
Se um dia a água percolou pela superfície de Marte, talvez, o Mawrth Vallis, seja uma das melhores feições que podem guardar os segredos dessa época remota do Planeta Vermelho.
O vale na verdade é um extenso canal com 600 km de comprimento, cercado por paredes com 2 km de altura.
Esse clássico canal, fica localizado na região de divisa entre as terras altas do sul e as planícies do norte marciano.
Esse belo vídeo, usa os dados da sonda Mars Express, para nos levar numa viagem pelo Mawrth Vallis.
A viagem começa na boca do canal que fica na Chryse Planitia e segue em direção a aparente fonte do canal que fica em Arabia Terra.
O platô com seus 4 bilhões de anos é caracterizado pela grande quantidade de crateras de impacto, indicando a elevada idade.
A sonda Mars Express mostra em zoom manchas mais claras e mais escuras pela superfície de Marte.
As manchas claras são camadas de sedimentos que estão entre os maiores afloramentos de minerais argilosos em MArte. A sua presença é a pista fundamental que nos diz que no passado a água líquida esteve presente nessa região.
A variedade de minerais aquosos, e a possibilidade de que essa região possa conter um registro de um antigo ambiente habitável em Marte, levou os cientistas a proporem o MAwrth Vallis como candidato para o pouso do rover da ExoMars 2020.
Esse nome estranho, Mawrth é na verdade a palavra galesa para Marte e Vallis, o latim para Vale, ou seja, o Vale de Marte.
A sonda Mars Express possui uma câmera estéreo que consegue fazer essas projeções tridimensionais juntamente com um modelo digital de terreno de Marte.
Espero que curtam a viagem!!!
(via https://www.youtube.com/watch?v=6JlG2OoReGA)
The Special Ingredients…of Earth!
With its blue skies, puffy white clouds, warm beaches and abundant life, planet Earth is a pretty special place. A quick survey of the solar system reveals nothing else like it. But how special is Earth, really?
One way to find out is to look for other worlds like ours elsewhere in the galaxy. Astronomers using our Kepler Space Telescope and other observatories have been doing just that!
In recent years they’ve been finding other planets increasingly similar to Earth, but still none that appear as hospitable as our home world. For those researchers, the search goes on.
Another group of researchers have taken on an entirely different approach. Instead of looking for Earth-like planets, they’ve been looking for Earth-like ingredients. Consider the following:
Our planet is rich in elements such as carbon, oxygen, iron, magnesium, silicon and sulfur…the stuff of rocks, air, oceans and life. Are these elements widespread elsewhere in the universe?
To find out, a team of astronomers led by the Japanese Aerospace Exploration Agency (JAXA), with our participation, used Suzaku. This Japanese X-ray satellite was used to survey a cluster of galaxies located in the direction of the constellation Virgo.
The Virgo cluster is a massive swarm of more than 2,000 galaxies, many similar in appearance to our own Milky Way, located about 54 million light years away. The space between the member galaxies is filled with a diffuse gas, so hot that it glows in X-rays. Instruments onboard Suzaku were able to look at that gas and determine which elements it’s made of.
Reporting their findings in the Astrophysical Journal Letters, they reported findings of iron, magnesium, silicon and sulfur throughout the Virgo galaxy cluster. The elemental ratios are constant throughout the entire volume of the cluster, and roughly consistent with the composition of the sun and most of the stars in our own galaxy.
When the Universe was born in the Big Bang 13.8 billon years ago, elements heavier than carbon were rare. These elements are present today, mainly because of supernova explosions.
Massive stars cook elements such as, carbon, oxygen, iron, magnesium, silicon and sulfur in their hot cores and then spew them far and wide when the stars explode.
According to the observations of Suzaku, the ingredients for making sun-like stars and Earth-like planets have been scattered far and wide by these explosions. Indeed, they appear to be widespread in the cosmos. The elements so important to life on Earth are available on average and in similar relative proportions throughout the bulk of the universe. In other words, the chemical requirements for life are common.
Earth is still special, but according to Suzaku, there might be other special places too. Suzaku recently completed its highly successful mission.
Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com
This is not just an incredible view of Earth, it’s also a fantastic illustration of the terminator. (No not that one!) The terminator is the moving line that separates the day side from the dark night side of a planetary body. From this vantage point you can make out the gradual transition to darkness that is experienced as twilight on the surface. This image was captured on Aug. 31 by astronaut Jeff Williams (@Astro_Jeff) while on board the ISS.
We Just Identified More Than 200 New (Potential) Planets
The Kepler space telescope is our first mission capable of identifying Earth-size planets around other stars. On Monday, June 19, 2017, scientists from many countries gathered at our Ames Research Center to talk about the latest results from the spacecraft, which include the identification of more than 200 potential new worlds! Here’s what you need to know:
We found 219 new planet candidates.
All of these worlds were found in a patch of sky near the Cygnus constellation in our Milky Way galaxy. Between 2009 and 2013, Kepler searched more than 200,000 stars in the region for orbiting planets. The 219 new planet candidates are part of the more than 4,000 planet candidates and 2,300 confirmed planets Kepler has identified to date.
Ten of these worlds are like our own.
Out of the 219 new planet candidates, 10 are possibly rocky, terrestrial worlds and orbit their star in the habitable zone – the range of distances from a star where liquid water could pool on the surface of a rocky planet.
Small planets come in two sizes.
Kepler has opened up our eyes to the existence of many small worlds. It turns out a lot of these planets are either approximately 1.5 times the size of Earth or just smaller than Neptune. The cool names given to planets of these sizes? Super Earths and mini-Neptunes.
Some of the new planets could be habitable.
Water is a key ingredient to life as we know it. Many of the new planet candidates are likely to have small rocky cores enveloped by a thick atmosphere of hydrogen and helium, and some are thought to be ocean worlds. That doesn’t necessarily mean the oceans of these planets are full of water, but we can dream, can’t we?
Other Earths are out there.
Kepler’s survey has made it possible for us to measure the number of Earth-size habitable zone planets in our galaxy. Determining how many planets like our own that exist is the big question we’ll explore next.
The hunt for new planets continues.
Kepler continues to search for planets in different regions of space. With the launch of our Transiting Exoplanet Survey Satellite (TESS) and the James Webb Space Telescope (JWST) in 2018, we’re going to search for planets nearest the sun and measure the composition of their atmospheres. In the mid-2020s, we have our sights on taking a picture of small planets like Earth with our Wide-Field Infrared Survey Telescope (WFIRST).
*All images of planets are artist illustrations.
Make sure to follow us on Tumblr for your regular dose of space: http://nasa.tumblr.com
Hoje vamos falar um pouco de Urano.
Urano, as vezes é considerado como o paneta esquecido do nosso Sistema Solar, ele está muito longe, foi visitado só uma vez por uma sonda em 1986, pela Voyager II.
Urano é o sétimo planeta em distância do Sol, e o terceiro maior em tamanho, perdendo somente para Júptier e Saturno.
Urano possuem finos anéis de poeira e um conjunto incrível de 27 luas que nós conhecemos até hoje.
Na verdade é um pouco ridículo não termos tanto interesse assim, nesse grande planeta do nosso Sistema Solar.
Para vocês terem uma ideia, sabemos mais de Plutão e temos imagens mais detalhadas de Plutão do que de Urano.
Talvez o aspecto mais estranho de Urano seja a sua inclinação. Ele praticamente gira deitado.
Na verdade todos os planetas do Sistema Solar têm uma inclinação, a da Terra é de 23.5 graus, de Marte, 25 graus, e até Mercúrio tem uma inclinação de 2.1 graus.
Agora Urano, tem uma inclinação do eixo de rotação de 97.8 graus.
A grande questão então é, o que teria acontecido com Urano, para ter uma inclinação tão grande assim?
Para entender isso, teremos que voltar no início da história do Sistema Solar. A nossa vizinhança era um lugar bem violento e não muito amigável de se viver.
Muitas colisões aconteciam, entre corpos gigantescos, colisões catastróficas, vide a colisão da Terra com um corpo quase do tamanho de Marte que gerou a nossa Lua.
As colisões eram tão violentas, que os planetas mudavam de órbita, outros eram expulsos do Sistema Solar e outros mergulhavam diretamente na direção do Sol.
Com Urano, certamente aconteceu isso, uma colisão violenta que fez com que ele se inclinasse, e essa colisão aconteceu quando ele ainda estava circundado pelo disco de poeira que deu origem às suas luas, e nós sabemos disso, pois as luas orbitam Urano na mesma inclinação do seu eixo de rotação.
Os astrônomos atualmente acreditam que não foi uma única colisão que fez isso com Urano, mas sim uma série de colisões. Se fosse uma só, Urano giraria diferente, com uma série de colisões, elas agem como freios, colocando o planta na rotação correta.
Qual a consequência disso? Bem, imagine você na superfície de Urano (tudo bem, ele não tem superfície é uma bola de gás, mas imagine que tem), se você estivesse no polo você veria o Sol acima do horizonte por 42 anos, fazendo círculos cada vez maiores até desaparecer no horizonte, e depois ficaria 42 anos sem ver o Sol.
O Sistema Solar é feito de sobreviventes, e a nossa Terra, um sobrevivente mais sortudo ainda. Mas olhando para os outros planetas podemos ver que a vida realmente não foi fácil no início da história do Sistema Solar.
(via https://www.youtube.com/watch?v=Nk_hBs2Ci48)
🌟 🎶 Esse amor não tem fim
Já faz parte de mim
Te amo CAPRICHOSO
E vai ser pra sempre assim
Nasci pra amar você
De azul até morrer
Não há um amor maior
Do amor que eu sinto por você! 🎶 💙
Foto da minha graduação em Física na Universidade do Estado do Amazonas (UEA) que ocorreu no dia 25 de agosto de 2016. (em Parintins)
6 Ways NASA Space Communications Connect Astronauts to Earth
1. When Astronauts Phone Home, the Space Network Answers
Operated by our Goddard Space Flight Center in Greenbelt, Maryland, this communications system enables all types of Earth-to-astronaut communication. The Space Network is a complex system of ground station terminals and satellites. The satellites, called ‘Tracking and Data Relay Satellites’ or TDRS, provide continuous communications for human spaceflight 24/7/365. The information this network relays includes astronaut communication with Mission Control in Houston, posting live video of spacewalks and live interviews with schools, even posting Tweets on Twitter and doing Facebook posts. The Space Network can even broadcast live 4K, ultra-HD video right from the station. You can now watch an astronaut eat a space taco in high definition. WHAT A TIME TO BE ALIVE!
2. The Space Network Also Communicates Science Data
Astronauts on the Space Station perform experiments on the station that will enable our Journey to Mars and other future human space missions. For example, astronaut Peggy Whitson works on a bone cell study that could lead to better preventative care or therapeutic treatments for people suffering bone loss as a result of bone diseases like osteopenia and osteoporosis, or for patients on prolonged bed rest. All that fantastic data is sent back to Earth via our Space Network for scientists around the world to analyze and build on.
3. The Space Network Transmits Spacecraft Health Data
The Space Network not only lets us communicate with the astronauts, it also tracks the ‘health’ of the spacecraft, be it the International Space Station where the astronauts are living, a cargo vehicle servicing the space station, or even, in the near future, crewed vehicles to other worlds. We deliver data on a spacecraft’s state of health, from power generation levels and avionics status to carbon dioxide and oxygen levels, and more to Mission Control 24/7/365.
4. The Space Network Helps Monitor Spacecraft Location
The International Space Station Is pretty big, but space is bigger. The Space Network enables flight controllers on the ground to provide a GPS-type service for the Space Station, letting them track the exact location of the space station at all times as it orbits the Earth. It also allows us Earth-bound folk to get real-time text updates when the Space Station is flying overhead. If you want to track the station, sign up here: https://spotthestation.nasa.gov
5. The Space Network Supports Launch Vehicles
Goddard’s Space Network also controls all the communications for all the missions that go to the space station. That includes command and telemetry services during launches, free flight, berthing and un-berthing to the station, as well as re-entry and landing back to Earth.
6. The Space Network Is Also Looking Toward the Future
It’s also helping to test vehicles that will carry astronauts to other worlds. Currently, they are working with teams for our Space Launch System and commercial crew vehicles. The first flights for these vehicles will occur in 2018 and 2019, setting us on the road to Journey to Mars! This image shows the Orion capsule that will aid in our continuous march into space.
What’s Next for the Space Network?
We’re continuing to grow! Watch out for the launch of a new TDRS spacecraft in August 2017! TDRS-M is coming. Check out more info here and join our countdown to TDRS launch: https://tdrs.gsfc.nasa.gov.
Que o último período seja de grandes realizações!
Brincando como uma criança nas areias de Marte. #curiosity
