Re-Blog: Do Space Aliens Use Aluminum?

(Originally posted 9/21/2017 on Read With The Gringa)

The famous 1947 Roswell incident of a supposed crashed alien spacecraft reported curious details. Rancher W.W. “Mack” Brazel described the debris he found as: large pieces of paper covered in what looked like tinfoil. The pieces were held together by small sticks. The salvaged piece of debris resembled a child’s homemade kite. Throughout a 200 yard area surrounding the silvery kite thing were pieces of gray rubber. More kite-like objects were found on the ranch, the largest about 3 feet across.

Another, more recent, discovery has researchers scratching their heads over a mysterious aluminum object. UFOlogists claim that it could be 250,000 years old. It was originally discovered in Romania during a 1973 excavation of the Mures River. 

Three strange objects were found buried about 33 feet. Archaeologists studied them and determined that two of the finds were fossils. They were bones belonging to a mammal that became extinct about 90,000 years ago.

The third, however, could only be man-made since it was a metallic object, not a raw metal ore. Testing revealed 12 different metals with aluminum making up about 90% of the manufactured object.

A Romanian laboratory claimed the object was about 250,000 years old. Other experts were in disbelief so another set of tests were performed in a laboratory in Lausanne, Switzerland. They confirmed that the object is, indeed, old, but not that old. Only 400-80,000 years old. But aluminum was first produced by modern man about 200 years ago.

This head scratcher centers on an object about 8 inches long, 5 inches wide and nearly 3 inches thick. It also has a circular depression and machined holes in the “arms”, suggesting hinging. This means the manufacturing process would have been very complex. So what the heck is it?


UFOlogists say it is a fragment from a UFO. Of course. Historians claim that it is really a piece of WWII German aircraft. Considering the effective debunking that has cleared up the Roswell mystery, the gringa is inclined to agree with the historian.

The US Air Force eventually explained to the public what it was that Brazel found. It wasn’t the debris of a crashed UFO. It was the debris of weather radar targets. 

These targets were sent up to help target and tune ballistics of heavy gun and artillery. Regular weather balloons were acquisitioned from weather radar stations. The balloons were then customized to become targets, covered in aluminum so they would be easier to sight high in the sky.

In order for it to even be possible for aluminum debris from a crashed UFO to be found, aluminum would have to be a raw material on other planets. It would have to be mined. It would have to be processed. And it would have to be suitable for use on a spacecraft exposed to the extreme conditions of outer space: radiation, heat, cold, etc.

Aluminum is also found on Mercury, Venus and Mars. So it’s possible there are planets in the vastness of outer space that also have aluminum. We know that there are no aluminum mines and processing plants and spaceship manufacturing plants on Mercury, Venus and Mars. That would mean any UFO constructed of aluminum would have to originate outside our Solar System. Could aluminum handle such a rigorous test of its mettle (pardon the pun)?

Aluminum melts at 1,220.58 degrees Fahrenheit. It boils at 4,566 degrees Fahrenheit. Space shuttle re-entry has recorded surface temperatures of the craft as high as 3,000 degrees Fahrenheit. Needless to say, if these bits of aluminum had originated from a crashed UFO, they wouldn’t exist. They would have melted long before they ever reached the earth’s surface.

The final answer is then: No. Space aliens are not using aluminum in their space ships and crashing them on Earth and leaving behind an aluminum bread crumb trail. Case solved.

Sources: El Paso Times

The Vintage News

Live Science


Image Credit: Pix Shark

Video Credit: Titus Rivas


Stars Are Cool. No, Really, They Are

When the gringa’s dear readers think of a star, what do you think of? The Sun? Polaris? Alpha Centauri?  And what do you think would happen if you reached out to touch the Sun? You’d probably get vaporized, right? Well, depending on the star, not necessarily. In fact, if you touched the right star it might be a sensation more like when you roll over in bed and find the cool spot.

Brown dwarfs are cold stars. There are 14 that NASA believes are cool enough to touch. Cool! They are also the oldest stars in the Universe. I guess stars are kind of like people. Old folks with poor circulation are generally cold all the time. Stars get old and cold, too. Out of all the old, cold, brown dwarf stars in the Universe, it’s the Y-dwarfs that are even cooler than the average human’s body temperature. Y, you may ask. Well, the gringa will tell you why the Y is the way that it is.

Not only are they old but they are failures. Poor Y-dwarfs. They must have very low self-esteem. Perhaps that is why they don’t shine as brightly as other stars. They have grown old and are failures as stars. The gringa feels very sorry for the poor, little things.

Because their cores are not very dense they can’t fuse loads of atoms within. That means they don’t burn as hot and brightly as other stars. The gringa finds it very amusing that the denser a star is the brighter it is. It doesn’t seem to work that way in humans.

If Y-dwarfs are such failures at being stars, the gringa wonders if they should be considered stars at all. Do we have a Pluto prospect in the future? Just as Pluto got demoted from planet to dwarf planet, Y-dwarf stars may very well face the possibility of being re-classified. In the future scientists may decide they don’t meet all the guidelines of being a star. The gringa thinks this is a wonderful possibility for Y-dwarfs. Whereas poor Pluto suffered a demotion, the Y-dwarf could get better news. They could go from being failures as stars to being over-achievers for whatever it is they may become!

However, it may take astronomers quite some time to collect enough data in their studies. Their failure to shine bright like a diamond in the sky means it is difficult to view and study them. It’s practically impossible to study them at all with a telescope dependent on visible light. To take productive peeks at Y-dwarfs NASA had to construct an infrared telescope and mount it to an orbiting satellite. And that is why the Universe is wiser thanks to these cold, little star failures, because of Wide-field Infrared Survey Explore (WISE) that studies them in the heavens.


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Sun Worship

Earlier this month celestial lovers throughout south and central Africa got to enjoy a spectacular solar eclipse that produced a ring of fire as the Moon transversed across the pathway of the Sun. The peculiar occasions when the Earth, Moon and Sun all line up together doesn’t happen too often. Such a rare event has historically been linked with all sorts of predictions and paranormal expectations.

The funniest recording of a solar eclipse is, perhaps, also the earliest record. Occuring in October of the 2137 B.C., two royal astronomers, Ho and Hi, offended the fourth Emperor of China’s Hsia Dynasty,  Chung-K’ang. The eclipse was an unexpected event. The poor astronomers were unprepared to perform the customary rituals that should have taken place. The pair of official stargazers were drunk and failed to launch the traditional arrows and beat out the right rhythm on the gongs and drums so that the Sun could be delivered from the mythical beast that was attempting to devour it.

Convinced that chaos would soon consume the empire, the astronomers were summarily executed as an appeasement sacrifice for their drunken dereliction of duty.  A public record of their death was translated in 1839 by scholars to reveal an amusing verse indicating that, although brutal in enforcing their expectations, the ancient Chinese did have a sense of humor:

“Here lie the bodies of Ho and Hi,

Whose fate though sad was visible –

Being hanged because they could not spy

Th’ eclipse which was invisible.”

In November of the year 569 an eclipse was recorded before the birth of the Prophet Mohammad in 570. There are many religious historians who link this eclipse as the moment of Mohammad’s conception. Interestingly enough Mohammed’s son Ibrahim died at the age of two-years-old during the occurrence of a solar eclipse. Mohammed wrote of this event as a sign sent from his God, Allah, of personal condolences. Muslims today still consider eclipses significant religious events. When the recent eclipse occurred mosques throughout Africa had special calls to prayer for safety and deliverance from harm.

Perhaps the most significant solar eclipse in modern history is the one of May, 1919. Commonly called “Einstein’s Eclipse”, it is considered to be the solar eclipse that changed the universe. For more than 200 years scientists had accepted Isaac Newton’s principle that the space of the Universe was as inflexible as mathematical principles.  Einstein set out to challenge this longheld belief. Einstein believed gravity was curved and flexible, affected by the mass of planetary bodies. He proposed that warping of space allowed planets to remain in their orbital paths, gravity distorted by the mass of a celestial body, the greater the mass, the stronger the force, which would result in more bending of light. This was to become known as Einstein’s Theory of Relativity.

When the 1919 eclipse occurred, British astrophysicist Sir Arthur Stanley Eddington led the charge for an experiment to take advantage of the expected eclipse. Eddington traveled to Principe which is in the Gulf of Guinea off of Africa’s western coastline. A horrible thunderstorm threatened to ruin Eddington’s chances but, fortunately, by afternoon the skies had cleared. Eddington’s celestial photographs and measurements were compared with photos and measurements recorded by Andrew  Crommelin at the Royal Observatory at Greenwich. The findings were announced by Britain’s Royal Society’s Astronomer Royal Sir Frank Watson Dyson. It was announced in London on November 6, 1919 that Newton’s theory had been disproven by Einstein’s new Theory of Relativity.

To make sure that you are ready for the next opportunity to view a solar eclipse, log on to and keep a watch on the countdown clock for eclipses listed under their Sun & Moon tab. It seems we are only about 5 months away from the next big event.  There is a handy search window everyone can use to see if their city or country is going to be in the most fortunate position of being able to see the eclipse.

To view a solar eclipse it is important to wear protective eyewear. A homemade viewbox can also be created called a pinhole camera. All you need is a box with a small hole on one side for light to pass through and project an inverted image of the eclipse on the opposite side.  Below is a video with an example of how to make and use a homemade pinhole camera. One tip: The bigger the box the better the view.




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Let It Rain, Let It Rain, Let It Rain

Although Olympic focus has been trained on Rio, the gringa would like to take the dear reader back in time and to the other side of the globe to the 2008 Beijing Olympics. When China was preparing to host this historical event, pollution was high on the list of problems to solve. Although everyone is probably familiar with the tactic of temporary bans on driving & factory operations as drastic measures to help reduce smog. What many may not be aware of is China’s ambitious plans to control the weather, a $30 million dollar plan that they are still working on today. A plan to shoot into the heavens special “bullets” filled with salt and other minerals. What in the world are those crazy Chinese scientists up to? Apparently, nothing new! They’re just trying to make it rain.

Officially called “weather modification”, China helped clear their smog-filled skies during the Olympic games by making it rain, rain, rain. They are not alone in being rainmakers. Fifty-two other countries have developed their own rainmaking strategies. Ten of these countries joining the rainmaking team only five years ago. Rainmaking countries include: Canada, United States, Mexico, Cuba, Brazil, Chile, Argentina, Australia, India, Senegal, South Africa, Russia and the list goes on. You can see the map created by the World Meteorological Organization to see who all is in on the rainmaking game.

The gringa is rather ashamed to admit that as for the United States, the origins of its weather modification program is not as noble as China’s. For the U.S., it all started with Operation Popeye which was a top secret program that weaponized weather during the Vietnam War. Although I’m sure the scientists who worked for General Electric had noble intentions, they probably had no idea that the U.S. government was going to take their technology and rain down silver iodide on the poor Vietnamese people.

But I digress. Back to China. In addition to creating rain to saturate polluted air and get rid of smog, they also wanted to prevent rain from spoiling events taking place in the stadium that was dubbed the “Bird’s Nest”. To achieve this amazing god-like feat, the Chinese implemented a 3 stage weather modification strategy:

  1. Officials tracked weather patterns with satellites, planes, radar and supercomputer.
  2. 2 aircraft, 20 rocket launcher & artillery sites sprayed silver iodide and dry ice into remote cloud systems that might approach the stadium so they would dump their rain before arrival.
  3. Nearby cloud systems filled with rain were seeded with chemicals that shrink the water droplets thus ensuring that the clouds would have time to pass over the Bird’s Nest without dropping their rain.

Now was all of this really necessary? The Beijing Olympics were held in August which is a high precipitation season for China so, yes, the gringa supposes that it was necessary. Consequently, China’s success in being a master rainmaker or rainstaller has resulted in China being the world leader in the weather modification sciences. They have more than 1,500 professionals devoted to all things necessary in controlling the weather: scientists, pilots, flight crews. Also proudly serving in the program are tens of thousands of peasant farmers who are more than happy to help their government blast away a cloud when crops have been inundated or have clouds seeded during times of drought. Peasants are on call to operate more than 7,000 aircraft guns and almost 5,000 rocket launchers when called to report to rainmaking duty.

The gringa is not too sure what to make of all this. For the most part I am the type to believe that the less we interfere with nature, the better. However, considering how bad mankind has screwed things up where climate change is concerned, it may just be that Mother Nature could use a few rainmakers. So, I say to the Chinese:

Let it rain. Let it rain. Let it rain.



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Drones, UFOs, and Saving The Planet… They Are ALL Connected

UFO enthusiasts got a thrill recently when news agencies all over the United States were sounding the alarm of a strange light seen hovering, then moving about, near the famous St. Louis Arch. The YouTube video posted below, sourced from streetview citycams, begins by speeding up the video 1000 times so as not to bore the viewer with several minutes of nothingness. Throughout the hi-speed progression lightning can be observed. As viewers watch, they can see the light dim and sometimes disappear because of cloud cover. The video records a strange light approach the Arch from the left side of the screen and do some interesting acrobatics. The gringa has provided a play by play script to refer to as the dear reader views the video.

Video begins 2:19:49 streetcam time (SCT)/0:00 YouTube Time (YTT).

2:25:13 SCT/0:15 YTT First arrow indicates the appearance of the light in the top middle portion of the screen with light becoming visible at 2:25:19 SCT/0:17 YTT and approaches the Arch.

2:26:20 SCT/0:39 YTT Light appears to hover over the Arch, “wink out” a couple of times only to reappear in relatively the same place, indicating it was hovering the entire time.

2:26:41 SCT/0:46 YTT Light winks out.

2:28:06 SCT/0:52 YTT Light reappears as indicated by arrow and seems to be in same position above the Arch which would make it seem that it was hovering the entire time it was not visible.

2:28:54 SCT/0:56 YTT Light appears to be hovering above the Arch.

2:29:36 SCT/1:00 YTT Light winks out.

2:30:01 SCT/1:02 YTT Arrow directs attention to higher point above the Arch, indicating that the light has climbed higher. However, it is not visible.

2:31:00 SCT/1:08 YTT Another arrow indicates the light to be in the upper left corner of the screen but the gringa does not see it appear.

2:31:18 SCT/1:14 YTT The gringa begins to click through each second at the rate of 2 clicks per second so I get to see half of a second in each frame. I see a flash of the light at a higher point above the arch as I begin my second click of 1:15 YTT, going into my first click of 1:16 YTT. There is no arrow used in the video here to direct you to the flash of light. If you are not prepared you will miss it.

2:32:08 SCT/1:22 YTT Arrow again indicates that the light is seemingly flashing in the top left corner of the screen. Then there is a clear winking on and off of a light in the far left top corner of the screen as the light begins a rapid descent, disappearing behind cloud cover, but can clearly be seen descending.

2:32:25 SCT/1:28 YTT The arrow draws the viewer’s attention to the light whose rapid descent has been abruptly arrested and it once again begins to hover.

2:32:39 SCT/1:33 YTT Light brightly blinks out after a short rapid descent. If you begin once again to click through frames, 2 clicks per second/frame, the light can be seen faintly descending, angling off to the left, then hooking sharply right and descending quickly and can be viewed practically all the way to its landing on the ground in the lower left portion of the screen, its final landing at about 2:32:47 SCT/1:36 YTT.

Summary of the mystery light’s activity:

  • About 45 seconds of hovering above the Arch.
  • For about 1 minute the light continues to climb and hover above the Arch.
  • Within about 50 seconds the light manages to travel the distance in the view screen from seeming to hover above the Arch to the upper left corner of the view screen.
  • Within 30 seconds light makes a rapid descent that includes a brief hover before two radical left/right maneuvers, like a zig-zag, and appears to land on the ground.

So what was it? The gringa believes it was a drone, not an extra-terrestrial vehicle. It is pretty obvious by the final descent and apparent landing on the ground that it is a very small vehicle and very much Earthling technology. The gringa doesn’t know all the details on speed and distance relative to the camera and the Arch, but that doesn’t change my mind that it is a drone. And the gringa warns her dear readers to be on the lookout for many more videos and hoaxes to come with drone technology becoming more and more affordable for technology enthusiasts.

Other than making interesting UFO hoax videos, what are some actual practical uses for drones? Well, for one thing, drones may very well help save the world, and the gringa’s not talking about how military personnel are already putting them to use in battle. Using them to target and kill fellow human beings is not the gringa’s idea of saving the world.

Using them as a research tool to monitor dolphin and whale populations is more what the gringa considers saving the world. And that is just what marine biologists are doing in Hawai’i. Ocean Alliance is taking advantage of how drones can monitor wildlife without intrusion by humans. With drones capable of being equipped with high resolution cameras, researchers can get close up views and real time video of what dolphin pods and whale families are doing. Even if weather is bad and ocean conditions rough, the drones can still go out and do their job when a human outing would otherwise get postponed.

Drone technology has allowed researchers to compile a more accurate catalog of whale groups and monitor their health conditions with more detailed analysis. Results from boat-based surveys simply do not compare and marine biologists are excited to go even further with drones.

Now, while some people may be excited at the thought of drones delivering pizza or their mail order of retail goods, the gringa is more excited about drone delivery of medicine to hard to reach vulnerable people around the world.

With successful deliveries to earthquake ravaged Haiti in 2012, Doctors Without Borders were inspired to test drone delivery of  a group of dummy TB test samples in remote villages in Papua New Guinea. The Mayo Clinic recently announced that drone medical delivery is poised to take off and revolutionize healthcare for people around the world where access has continued to be a problem.

So what might be the niche technology career of the future for our youth interested in STEM? Development of drone technology and drone piloting. So, don’t get left behind! Get on board to save the world with a joy-stick, a laptop and a map! That’s all you need today to be a superhero!


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Salute Our Space Heroes

Traveling in outer space sounds fun. Being an astronaut seems to be an exciting career. Until the gringa is reminded about space radiation. Those heavy duty marshmallow looking suits astronauts wear are not just to keep them warm, properly pressurized and surrounded by oxygen. They also protect against dangerous space radiation. But is it enough? Are spacecrafts and the International Space Station adequately protected or are our astronauts slowly being radiated to death?

Radiation is an invisible energy form of high-speed particles and electromagnetics. It surrounds humans in everyday artificial light, sunlight, and electronics that produce radio-, television-, and micro- waves. Radiation comes in two forms:

  • Ionized: This is the worst in the form of gamma rays, protons and neutrons. Exposure to ionized radiation results in exposed atoms becoming unstable by an energy powerful enough to remove electrons from their orbit around the atom’s nucleus.
  • Non-ionized: Not powerful enough to destabilize atoms, this is the kind of common radiation produced by microwaves, radio waves and light.

The radiation in space is, unfortunately, comprised of ionized radiation. There are three things that typically create dangerous space radiation:

  • Trapped radiation: The Earth’s core creates a magnetic field that surrounds our planet up to several thousand kilometers from our planet’s surface. Solar wind carries charged particles that slam into our magnetic shield. Some particles manage to pass through. Those that don’t create a shockwave that deflects from Earth’s magnetic field. This creates layers of cavities called the “magnetosphere” that act as shock absorbers to protect Earth further from charged particle bombardment. But some particles get trapped in these cavities and they become radioactive belts surrounding Earth. Astronauts have to pass through these dangerous belts before they reach deeper space.
  • Galactic Cosmic Radiation (GCR): Outside our solar system ionized atoms traveling at almost light speed pass through space matter, including humans and man-made objects unless they are properly shielded.
  • Solar Particle Events (SPE): Sometimes the Sun flares and ejects copious amounts of highly charged radioactive particles into space. These particles travel so fast they are capable of reaching Earth within ten minutes of a solar or coronal flare event. These are dramatic happenings that temporarily drastically increase radiation exposure.

Astronauts traveling through space radiation or living in the ISS have to be protected from space radiation. Radiation exposure causes damage to human cells. There is a scientific formula used to calculate how much radiation exposure an astronaut can expect when working on the ISS. It’s a bit too complicated for the gringa to understand. These calculations are the reason ISS missions have a maximum six month cycle and spacewalks are limited. Exposure is increased during a spacewalk to perform repairs and maintenance.

Shielding is preferred to be constructed of materials like polyethylene because it has a high hydrogen content. This kind of material is more effective than metals at reducing the ability of particles to pass through and enter the modules. Astronauts also wear monitors called “dosimeters” that constantly measure the level of radiation damage to the chromosomes in their blood cells.

Every single astronaut is a hero. No matter what the duration of their mission. No matter what the nature of their mission. No matter what it is they did, whether it seemed glamorous or insignificant, these men and women are heroes of science. They are risking their lives every moment they are off the surface of the Earth. Even if they return safely, they have still sacrificed much. From musculo-skeletal issues to organ damage and higher cancer risks, every single astronaut will experience the effects of radiation exposure for a lifetime despite the measures taken to protect them. If you ever meet an astronaut thank them for their invaluable sacrifice and service performing critical scientific endeavors that are helping us understand our origins, learn about climate change conditions and create solutions to save our homeworld.


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August Astronomy

Space fans should get their binoculars and telescopes dusted off for August. There will be lots to see with the aid of machine or the trusty naked eye. The gringa will share a cosmic calendar for the month ahead so everyone schedule their dinners and bedtimes accordingly if you want to enjoy some breathtaking galactic events rather than hunker down for digital entertainment indoors.

August 2 – New Moon:  Without the interference of moonlight this is the perfect night to explore other galaxies and nearby star clusters who will be shining in all their glory with no competition from our little satellite.

August 11,12 – Perseids Meteor Shower: At its peak, this little baby (pictured above) has the potential to create up to 60 meteors per hour (gives a whole new meaning to MPH). We can all thank comet Swift-Tuttle for this fantastic light show. Discovered in 1862. it has consistently provided entertainment for Earthlings through July and August. The event will peak on these two days in August. The best time to watch is right after the moon sets around midnight. Or, for those early to bed and early to rise, a pre-dawn show is also prime time for Perseids observation.

August 16 – Mercury:  This is the best time to view Mercury as it reaches it greatest eastern elongation from the Sun. Look for it in the evening sky at the highest point of the horizon or at a low point in the western sky just after sunset.

August 18 – Full Moon:  This is the best time to get a great look at our pockmarked neighbor. Full illumination will occur between 9-10pm  UTC. A bit of full Moon trivia: some Native American tribes call the full Moon a Full Sturgeon Moon because these nights are the best times to catch this type of fish that populates the Great Lakes. Other tribes also called the full Moon the Green Corn Moon or the Grain Moon.

August 27 – Venus & Jupiter:  These two planets are going to join together in close proximity for a spectacular opportunity to see them both. Look for them in the western sky soon after sunset.  They will be shining very brightly and close together.


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