“DANGER!” Traveler – WIF Around the World

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Natural Hazards

of Planet Earth

The Earth is not always your friend, and the planet upon which we developed may not treat us gently despite the effort with which we have colonized so much of its surface. In this account, we move beyond familiar floods, tornadoes and earthquakes to discover the really weird ways that an active and sometimes badly behaved planet can create a real but strange threat to your safety. Learn, and be safe; looking out not only for wild animals, but approaching the planet itself with care as you walk its surface.

10. Tree Wells

 

The Earth is defined by interactions between the rocks, the atmosphere and water. And when that interaction involves the accumulation of frozen water in the form of snow in places where there are trees, an extraordinary level of danger may form. It is not only a crevice that may threaten skiers. A much more common and sometimes worse danger comes from tree wells. Tree wells are an ever-present risk on mountainsides that suffocate many unwary snow sports enthusiasts when they fall into a gaping hole in the snow where a tree stands, concealing the snowy well around its trunk.

When a large conifer tree stands on a mountain, snowfall may pile up to a depth of many feet. Yet around the tree trunk and within the curtilage of the tree’s branches, snow is likely to be missing. The result is the presence of a diabolically well concealed hole or “well” around the tree. Upon beginning to pass a tree at too close a range, a skier or snowboarder may pitch forward into a tree well and be stuck, often headfirst. As a result, suffocation may occur from the fine snow material while limbs may be trapped in the snow. Giving trees a wide berth is the best defense against the actual issue of falling in, while skiing with a partner affords a far greater chance of being seen and rescued.

9. Gas Lake

We all know the danger of drowning in a lake, but surprisingly, the most dangerous lakes in the world are not those in which one could drown, but rather, create the effect of oxygen deprivation while the victims are still on land. When seismic activity, organic decomposition and toxic gas combine together in the gas lake phenomenon, the results are both horrifically eerie and costly in human lives. Lake Nyos in Cameroon is the most notorious gas-releasing lake, having killed 1,746 people when stored carbon dioxide was released en masse, annihilating nearby villages. On August 21, 1986, the eerie looking lake, surrounded by dark hills and containing settled areas in its curtilage, released a massive cloud of carbon dioxide totaling 1.2 cubic kilometers in volume.

As a result, the vast majority of those who encountered the cloud suffocated to death, unable to access oxygen as the cloud hugged the ground and spread throughout the village of Nyos and other nearby settled areas including Cha, Kam and Subum. Countless animals were lost along with human lives, while the extinguishing of candles indicated the arrival of the deadly cloud. Those resting close to the ground or first encountering the gas represented many fatalities, while some still standing survived as the gas remained closer to the ground. Now, equipment is in place to release gas to prevent another deadly buildup.

8. Large Hailstone Catastrophes

Frozen rain may sting slightly, but truly monstrous hailstones, sometimes weighing over a pound and measuring several inches in diameter, have been responsible for a disturbing range of fatalities throughout world history. Being struck on the head by falling ice is no laughing matter, particularly when that ice is formed into a rock-hard ball and is falling at maximum velocity. In the United States, a number of deaths, injuries and cases of extreme property damage have resulted from hailstones of substantial size and weight. Giant hail the size of a baseball may fall at speeds at around 100 mph. Hail 2.75 inches in diameter may smash windshields, while larger hail, up to 4.5 inches may punch a hole through a roof. Injuries can be horrific.

In one case, a runner was covered in welts and bruises, while a hail strike on a pizza delivery person in Fort Worth, Texas in 2000 was fatal. Previously, Fort Worth had hosted an ill-fated Mayfest gathering in May 1995 when hail pummeled a crowd of 10,000, injuring 400 people. A total of 60 people had to be sent to hospital. In 1988, 246 individuals in India lost their lives during a tragically fatal hail onslaught. While falling ice from the sky naturally poses extreme dangers, it is worth remembering that certain storms are better met with a riot shield than an umbrella. Better yet, just stay indoors if there is any indication of hail, as you don’t know how big the stones may get.

7. Sinkholes

Wishing the ground might open up and swallow one alive may be a clichéd expression, but in fact sinkholes, sometimes in urban areas, can cause untold devastation and shake our confidence in the Earth to the core. In some cases, sinkholes can kill as they swallow individuals, roads, and even entire buildings at depths of over 250 feet. In places around the world, the ground below the surface may be pockmarked with cavities and also less than solid. In certain cases, a thin layer of the uppermost portions of the Earth’s crust may conceal gaping holes capable of swallowing buildings, buses and pretty much anything else unfortunate enough to be in the way; that is, on top of such a hidden cavity when the inevitable collapse happens.

Sometimes triggered by an earthquake, sometimes by a sudden increase in pressure (as in certain construction projects), or as the result of flash flooding or the accumulation of slow-acting, groundwater-based erosion, sinkholes may result in catastrophic injuries, deaths and property damage. While even moderately sized sinkholes may be fatal, enormous sinkholes that bend the bounds of imagination have included such horrors as the monster sinkhole that opened in Guatamala City in 2010, spurred by tropical storm induced floodwater action. The hole measures around 60 feet wide and is estimated to be in the range of 30 stories in depth as judged by University of Kentucky hydrogeologist James Currens.

6. Geyser Attack

Geysers and hot springs may look fun, but they also present the risk of simply steaming or boiling careless viewers and adventurers alive. After all, erupting magma is obviously extremely dangerous, and most people will stay away from an erupting volcano, but many explorers are less aware of the danger of an encounter with what could turn out to be a killer geyser or a hot spring from hell. When viewing geysers or examining hot springs, don’t get too close, and in an uncharted walk in geyser country, be prepared to run for your life. Geysers in popular places such as Yellowstone National Park have killed a disturbing number of visitors, adding up to more than 20 documented deaths.

The most recent fatality to take place was in 2016, when a young man walked over 200 yards into the Norris Geyser Basin, only to die in a hot spring that boiled him to death. Many people visiting Yellowstone have been burned either by spraying geysers or by breaking through the thin layer of rock into boiling water underneath. In other cases, individuals have died when attempting to navigate over or around chasms or pools of boiling water, only to fall in and get fatally scalded. The moral of the story? Avoid stepping off marked paths and be sure to resist the temptation to pioneer, as the unknown is also the most unsafe when it comes to natural areas full of boiling water.

5. Lava Haze Encounter

It’s not just the liquid magma of volcanoes that presents a threat. Just as a lake filled with carbon dioxide can pose a great risk, volcanic activity can create highly dangerous situations where those in the vicinity of the action may be deprived of oxygen, exposed to toxic fumes and possibly risk loss of life. Unnervingly, grisly deaths have occurred from lava haze, where hot gases have accumulated and subsequently suffocated and burned the lungs of those explorers who engage in geo-tourism or attempt to study volcanoes. The ground may look safe and walkable near a volcanically active zone in certain cases, but accumulating gases may suddenly make such an area uninhabitable, with no air left to breathe.

As volcanic activity occurs, a plethora of chemicals are released, which may accumulate undetected, be suddenly let forth with little warning, or be greatly compounded through chemical reactions with solutions and compounds already present on the Earth. The lava haze capable of causing death can contain extremely dangerous chemicals resulting from the mixing of hot volcanic products with seawater. The deadly vapors can not only limit access to oxygen, but cause nasty, potentially fatal chemical burns and lung damage. The makeup of volcanically produced haze can include hydrochloric acid caused by the reaction of lava with seawater, sulfuric compounds, and carbon compounds. While less visible than lava, lava haze is another reason to keep your distance when the Earth is agitated!

4. Pyroclastic Bomb Drop

More than just air raids present the risk of being smitten from above. Nature does its best to rain down not only frozen hazards in the form of hail, but freshly launched weaponry in the form of pyroclastic bombs hurled forth as the result of intense volcanic activity. Extreme dangers are presented not only by flowing magma when a volcano erupts, but by the presence of flying pyroclastic bombs. These pyroclastic bombs are little less than natural weapons of mass destruction if encountered. The objects are one of the worst ways to get clobbered to death by rocks as angry volcanos not only spew molten magma, but launch the pre-hardened, bomb-shaped stones at incredible velocities to great distances.

Unfortunately, the desire of some amateur volcanologists to collect the bombs may create an even greater risk of being hit. If small, the objects may inflict bullet-like wounds. If large, the impact may cause immediate death through the force of impact. While extremely hot, lava bombs are not molten on the outside. The largest specimens may blast entire sections of a mountainside into the air when they land, and could easily demolish a car, tree, or house. However, the lava bombs present highly useful research opportunities as freshly ejected specimens of volcanic material from deep below the surface. Researchers may forget due caution as they put themselves within a volcanic bomb volley’s striking distance just to gather a specimen.

3. Lava Tube

Volcanic areas do not just present the risk of eruption; a risk comparable to a sinkhole from falling into open lava tubes makes walking near volcanically active areas a recipe for disaster in many cases. While a sinkhole may lead to crushing or falling injuries, a lava tube fall may result in more than just injury from a fall or limb entrapment. Lava tubes that are more open and accessible are sometimes explored by the intrepid who visit volcanos, but the areas are frequently fraught with danger. Further risks are presented by the presence of either hot lava, steam, or toxic gases. The physical structure of areas near to volcanic activity can be unpredictable and hard to clearly define and navigate.

Accidentally falling into a treacherous lava tube poses the greatest threat, as one does not know what may lie at the bottom or how far or hard one may fall. Lava tubes can be incredibly deep, with serious threats facing anyone who explores out of bounds and ends up falling into the tube. In one case, a 15-year-old boy fell a full 25 feet down into a lava tube while carelessly exploring after climbing a fence. Fortunately, the victim was able to be rescued, but the results of a mishap involving a lava tube can have a far more serious end. The presence of lava tubes goes to confirm why volcanically active areas must be treated with great caution, whether or not there appears to be active magma present.

2. Rogue Wave

Not a tsunami, a rogue wave may appear at any point on the ocean, causing death by sweeping people out to sea who are near the coast, even if a little ways inland. Rogue waves at sea present further immediate threats to ships, which may be swamped, hit by debris or capsized. As a result of the risk posed to the public by rogue waves, signs indicating the dangers of standing near the open sea have frequently been posted to discourage careless beach combing. Turning one’s back on the water is especially risky, while even facing the water is not advisable in rocky areas where being caught up in a sudden avalanche of water comes with the added risk of being dashed against the rocks.

Once believed to be mere tall tales told by overly imaginative sailors, rogue waves have been discovered to be real life events backed by physics through exploration of accounts and theoretical analysis. Rogue waves can not only be reported both on the high seas and when the strike near the shore, but statistical and physical analysis shows how certain waves at intervals may gain great power and size. In certain cases, ships have been downed by absolutely enormous waves, exceeding 80 feet in certain cases.

1. Maelstrom

The ocean is a massive water body, and where whirlpools form at sea, the results can be disastrous. Immortalized in Norwegian culture as the Maelstrom and described as a phenomenon in Sicily under the name Charybdis, the oceanic whirlpool is a force to be both feared and avoided, and also difficult to study for obvious reasons. In the Scandinavian regions, the exceedingly powerful Moskstraumen Maelstrom formed where the sea is actually very shallow, between 131 and 197 feet in depth. The resulting tidal movements of the water, exacerbated by the action of the moon led to grand legends forming of enormous whirlpools capable of bringing ships down to the ocean floor. While such a maelstrom indeed would be dangerous in many craft, the reports have certainly been, shall we say, bolstered by popular mythology.

In the case of the Charybdis, one notorious Mediterranean whirlpool was ascribed to the action of a sea monster (if you’ve ever read Homer’s Odyssey you’ll no doubt be familiar). The Strait of Corryvreckan is known to be home to one of the worst whirlpools on the planet. While not the largest or strongest, this whirlpool was “tested” with a dummy wearing a lifejacket, which was sucked out of sight and recovered some distance away, showing signs of scraping the bottom deep below the swirling waves, while the depth indicator read 226 feet.


“DANGER!” Traveler –

WIF Around the World

Controlling the Weather – WIF Mad Science

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People Who Tried

to Control

the Weather

Image result for weather machine

We have to realize that weather, in all its forms, has influenced and shaped humanity in every conceivable way. The weather and the surrounding environment (which is also shaped by weather) has influenced language in every part of the world, how people built the houses and shaped their societies, what they ate, and the way that they dressed for centuries. Whole religions were formed as a sort of answer to the meteorological events happening all around. And it’s not inconceivable that people throughout history have tried, or at least thought about, controlling the weather.

 Only with the technological advancements brought on in recent decades did we actually begin to tap into this Bond villain-like superpower. However, we are still at the beginning of this journey and we have still more to discover. We still don’t know all the ins and outs of weather, let alone enough to control it. We can at best influence it. But regardless of this, people have tried on many occasions to do it to the best of their abilities. Here are ten such cases.

10. Fog Dispersal

With the advent of flight over the past century, fog began to be a serious problem for aircraft trying to take off or land safely. And in WWII, pilots no longer had the luxury to sit around and wait for the fog to lift on its own before taking off. That’s why in 1942 the Prime Minister of Britain, Winston Churchill, ordered the Petroleum Warfare Department to come up with an idea to solve this problem. The result was FIDO, or Fog Investigation and Dispersal Operation.

By burning petrol around the airfield at a rate of 100,000 gallons per hour, engineers were able to produce enough heat as to temporarily lift the fog, thus allowing the pilots to safely take off or land at a moment’s notice. According to the British RAF(Royal Air Force), 15 airfields were fitted with this capability in England, as well as a few others in the US and the Aleutian Islands in Alaska. Between 1943 and 1945, some 2,500 aircraft landed safely in otherwise dangerous conditions, thus ensuring the survival of over 10,000 soldiers. In 1959 the last FIDO installation at RAF Manston was dismantled.

Even today fog dispersal is done regularly at many airports around the world, but the technology has improved a bit since WWII. If temperatures are below freezing, CO2 or propane gas is released from the ground in order to lift the fog. If temperatures are higher, however, airports make use of helicopters or even burners to help with the problem.

9. Hail Cannons

In existence since the late 1890s, hail cannons came about after an Austrian wine grower named M. Albert Stiger conducted some experiments in his backyard. The result was an oversized, megaphone-shaped cannon that fired rings of smoke about 985 feet into the air. It was made out of a sheet of metal, mounted on a wooden frame. The concept was that a strong whirlwind of air and smoke, blasted into the sky by one such cannon, will disrupt the normal formation of hail in the overhead clouds. Hail was, and still is, a major issue and a serious threat to all crops, making the hail cannon a true scientific blessing for farmers. After a few seemingly successful tries, the number of hail cannons in the Italian province near Venice alone had skyrocketed from 466 to 1,630 in less than one year.

But as these cannons became more and more common throughout other parts of Europe, reports of inconsistencies began to surface. These were initially disregarded on the grounds of improper firing, shooting delays, or poor positioning. Then, in 1903 the Italian government arranged a two-year-long experiment involving 222 cannons. The regions involved in the experiment still experienced hail, the cannons were deemed a failure, and the whole concept was soon abandoned.

Perhaps surprisingly, these cannons are still in use today. One company that makes them says that their cannons work by creating a shockwave traveling at the speed of sound, disrupting the creation of hail and turning it into slush or rain. When a storm is close by, it begins firing every four seconds, tracking the storm via radar. In 2005 a car manufacturer in the US deployed such cannons, disturbing an entire community with its incredibly loud noise. At some point, even the guys at Mythbusters considered testing these hail cannons, but after some deliberation, they agreed against it, saying that “the methodology makes the machine completely un-testable.”

8. Cloud Seeding

Besides hail, one other meteorological element that can considerably shrink any crop yield is drought. In 1946, a meteorologist by the name of Vincent Schaefer, together with a Nobel Prize laureate Irving Langmuir, discovered cloud seeding. This is a form of weather modification which supposedly increases the amount of rainfall. Rain is created when supercooled droplets of water come together and form ice crystals in a process known as nucleation. No longer able to stay suspended in the air, these ice crystals start falling to the ground and in the process begin to melt and turn back into rain drops.

The logic behind cloud seeding is that some particles like silver iodine or dry ice can kick start this process and enhance the raining capabilities in clouds. These particles can either be delivered by plane or sprayed from the ground. But like the hail cannons mentioned above, it is particularly difficult to prove their effectiveness. Even to this day, there is no sure way of knowing if any given cloud will actually produce rain or not. Nevertheless, cloud seeding has been reported as being a success in initial trials in countries like Australia, France, Spain, the US, the UAE, and China.

However, cloud-seeding expert Arlen Huggins, a research scientist at the Desert Research Institute in Reno, Nevada, said in an interview that nobody can attribute any given storm solely to cloud seeding. In fact, the process works best not in periods of drought, but when there are normal or above normal periods of precipitation. At best, cloud seeding should increase the amount of rain or snow by up to 10%, and this excess water can be stored for later use.

7. Project Cirrus

As early as 1946, the US Armed Forces began testing cloud seeding, trying to discover its true potential and what other uses it might have to benefit the country. They made a total of 37 test flights in the first year and a half, flying over thunderstorms, line squalls, and even tornadoes. One big threat, as many of us know, are the annual tropical hurricanes coming in from the Atlantic Ocean. So, in October 1947, Project Cirrus expanded to test cloud seeding on a hurricane traveling east bound, 350 miles off the coast of Jacksonville, Florida. They dropped 80 lbs. of dry ice into the raging storm, only to realize that the hurricane suddenly changed direction and began traveling back towards the United States.

Savannah, Georgia was hit by record-breaking winds of up to 85 MPH, more than 1,400 people were left homeless, and at least two people died. The total damage was reported into the millions of dollars, and the project and its participants were blamed for what happened. Project Cirrus then relocated to New Mexico and the research continued. However, not long after their arrival to the area, local tourist attractions began blaming the team for the unusually wet weather they began experiencing soon after. Despite the seemingly positive results, by 1952 the project ran out of funding and was cancelled soon after.

6. Project Stormfury

Not wanting the research made in the previous decade to go to waste, another ambitious experimental program was launched in 1962, in order to see if it’s possible to use cloud seeding to lessen a hurricane’s destructive potential. Scientists were wishing to decrease the wind speeds of any hurricane by making use of silver iodine. Rocket canisters filled with the stuff were dropped into the storm’s eye from an airplane flying overhead, as well as making use of gun-like devices mounted on the wings, spraying silver iodine over the storm.

The hope was that these particles would counterbalance the normal convection within the eye of the storm, thus giving it a larger radius and in turn, reducing the overall wind speeds generated. The tests were carried out in four hurricanes over a period of eight days. Half the time wind speeds decreased by 10-to-30%, while the other half experienced no change. The lack of any response to these tests was initially attributed mostly to faulty execution and deployment.

However, later studies have indicated that hurricanes don’t contain nearly as much supercooled water for cloud seeding to be effective. Moreover, researchers discovered that some such storms can undergo similar processes naturally, just like seeded hurricanes would. It was then concluded that the initial successful tries were actually naturally occurring events, backed only by the very little knowledge in the behavior of hurricanes at the time. The last test fight took place in 1971, and in 1983 Project Stormfury was officially canceled. These experiments weren’t without merit, however, since they helped meteorologists better understand and forecast the movements and intensities of future hurricanes.

5. Project Skyfire

At every moment of the day, there are around 1,800 thunderstorms in progress all over the globe. And every 20 minutes, these storms produce somewhere around 60,000 lightning strikes. Unsurprisingly, some of these lightning strikes start fires. Every summer, 9,000 forest or grassland fires in the US are started this way, causing extensive loss of timber, wildlife, watersheds and recreation areas. Project Skyfire was initiated in 1955 by the US Forest Service in the hopes of better understanding the natural processes that initiate thunderstorms, and maybe decrease the frequency of lightning as much as possible.

For the first several years of the project, scientists gathered information and began using silver iodine in high concentrations, in the hopes of overseeding clouds and thus reduce the number of lightning strikes. Their results are hard to quantify, due to the lack of any controlled experiments, but it would seem that initial tests were somewhat successful. In any case, in 1960 and 1961, the US Army, under name Project Skyfire, attempted lightning suppression by using millions of tiny metallic pins in order to seed the clouds, instead of dry ice or silver iodine. These were actually small pieces of foil oppositely charged at each end. This material is used today as a form of countermeasure for aircraft trying to evade enemy missiles or radar.

4. Operation Popeye – Vietnam War

With the previous projects above, it’s no wonder that cloud seeding was intended for military purposes at some point or another. Operation Popeye, or Operation Compatriot, was a top secret military campaign waged in Southeast Asia during the Vietnam War. The goal of the operation was to flood the routes between North and South Vietnam during the monsoon season with as much rain as possible, in order to make roads inaccessible. The Ho Chí Minh trail was especially targeted due to its logistical importance for the Viet Cong. The whole operation lasted from 1966 up until 1972 and consisted of over 2,600 flights over the regions of Cambodia, Laos, South Vietnam and the previously mentioned trail. In total, some 47,000 units of cloud seeding material was dropped during this time, at a cost of over $21.6 million. If it actually worked or not is still a matter of debate, but it is believe that they were able to extend the monsoon season by 30 to 45 days.

Also part of the operation were regular flights over the dense jungles, spraying them with various herbicides in order to provide less material and cover for the North Vietnamese. Operation Popeye reached the public consciousness when a columnist by the name of Jack Anderson revealed it in the Washington Post in March, 1971. The US Defense Secretary, Melvin Laird testified under oath in 1972 in front of the US Senate that they never actually used any weather modification techniques in Southeast Asia. Only two years later, one of Laird’s private letters was leaked where he admitted that he did lie in front of the Senate. This inevitably lead to the “Convention on the Prohibition of Military or Any Other Hostile Use of Environmental Modification Techniques,” or ENMOD to be signed in 1976 by members of the UN.

3. Black Rain in Belarus

In April 1986, one of the biggest man-made disasters took place in the former Soviet Union, present-day Ukraine. Due to a faulty reactor design and inadequately trained personnel, one of the reactors at Chernobyl nuclear power plant exploded, killing many and resulting in the complete evacuation of the nearby town of Pripyat. However, this was just the beginning and the worst of the disaster was still to come. The radioactive cloud that ensued was threatening many large cities in the Soviet Union like Moscow, Voronezh, Nizhny Novgorod and Yaroslavl.

In order to prevent such a catastrophe, the Soviet government quickly dispatched aircraft to fly over the radioactive cloud and spray it with cloud seeding material, in an area of about 60 miles surrounding Chernobyl. In the wake of the explosion, people in present-day South Belarus reported heavy, black-colored rain falling in and around the town of Gomel. And just before the hellish rain began, several aircraft had been spotted circling the city and surrounding area, ejecting some colored material. Moscow has never admitted to using cloud seeding in the aftermath of the Chernobyl disaster, but two Soviet pilots later admitted to it.

Alan Flowers, a British scientist and the first Westerner to examine the extent of the levels of radioactivity and fallout around Chernobyl, discovered that Byelorussians were exposed to levels 20 to 30 times higher than normal as a result of the nuclear rain, causing intense radiation poisoning in children. In 2004, he was expelled from the country for claiming that the Soviet Union used cloud seeding in 1986. He said, “The local population says there was no warning before these heavy rains and the radioactive fallout arrived.”

2. The Beijing Weather Modification Office

Today, 52 countries are involved in weather modification in one form or another, either to enhance precipitation or to suppress hail. But none are more involved in the process than the Chinese. The Weather Modification Office came into being sometime in the 1980s and has since grown to around 37,000 people strong; the largest in the world. These people operate throughout the entire country, but mostly in its northern and northeastern regions, which are more predisposed to droughts. They also try to counteract hail, or severe sandstorms.

The Weather office makes use of 4,000 rocket launchers, 7,000 anti-aircraft guns, and about 30 airplanes to achieve its goals. But besides working on increasing the amount of precipitation, or suppress the fall of hail, the Bureau also makes sure that national holidays or special events get the weather they deserve. In 1997, the technology was used on New Year’s Day to make it snow. Another of its high-profile operations was during the 2008 Summer Olympics held in Beijing. During the opening ceremony, some 1,100 rockets were fired into the clouds outside the city, ensuring a precipitation free evening by making it rain away from the event. Prior to every October 1, China’s National Day, the government uses cloud seeding over Beijing in order to make it rain, dissipating pollution and clearing the skies. Another future prospect for the Beijing Weather Modification Office is to lower summer temperatures, thus lowering the annual consumption of electricity.

1. Desert Rain

The weather is created and influenced by our own planet’s rotation, the sun’s rays, and the moisture coming in from the oceans. The most we can do, when compared to these natural forces, is minimal at best, and things should probably remain like that. But anyway, as the world’s population has increased to numbers never before seen, humans have moved in larger numbers to regions less hospitable for comfort. We are, of course, talking about the desert. Over the past several decades more and more people have begun inhabiting places like the United Arab Emirates in the Arabian Peninsula, one of the driest places on Earth. And it’s no surprise that people living there would want a rainfall now and again.

Thus, a Swiss company took advantage of the situation and began building 33-foot-high towers that produce negatively charged ions. These supposedly generate the formation of storm clouds. The theory of ionization has been around since the 1890, being first mentioned by Nikola Tesla. However, there was no evidence of it actually producing any rain in the various experiments conducted since. Moreover, the Swiss company is unwilling to share any proof or information regarding its technology and how it actually works, keeping it a closely guarded secret. There were a few rain storms since the installation was put in place, but scientists at the Max Planck Institute for Meteorology have said that these were part of an unusual weather pattern the Middle East was experiencing at the time.


Controlling the Weather

WIF Space-001

– WIF Mad Science