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Flight Simulation

Around the world in flight simulation (10).

Leg 10 of this round-the-world flight simulation trip takes place between Poland and Germany. Two very different aircraft will be used to complete the journey during this day of VFR flying: an old Junkers Ju 52/3m and a modern business helicopter, the Airbus H160.

Junkers JU 52 airborne from the Lublin airport (EPLB) in Poland.
Junkers JU 52 airborne from the Lublin airport (EPLB) in Poland.

Departure is from Lublin airport (EPLB) in Poland. The Junkers Ju 52/3m takes off without a hitch over a short distance. The big three-engine tailwheel is as predictable as the Cessna C-170B I used in real life to cross Canada in 1981. Above, one can see the cultivated fields of Poland.

Junkers JU 52 and the Moritzburg Castle in Germany in flight simulation
Junkers JU 52 and the Moritzburg Castle in Germany in flight simulation

It’s shaping up to be a beautiful morning, weather-wise. The first leg of the trip takes us over Moritzburg Castle (Schloss Moritzburg), northwest of Dresden. Built in 1542, it was originally the hunting lodge of the Duke of Saxony.

Junkers JU 52 enroute to the Landesmuseum für Vorgeschichte Halle in Germany
Junkers JU 52 enroute to the Landesmuseum für Vorgeschichte Halle in Germany

On the way to Halle is a large wind farm. Germany, like Europe, is rapidly developing its green energy. Russia’s recent attitude to Europe’s natural gas supply has drastically changed energy planning in neighboring countries.

A Junkers JU 52 flying over the State Museum of Prehistory Halle in Germany in flight simulation
A Junkers JU 52 flying over the State Museum of Prehistory Halle in Germany in flight simulation

Above, in the center of the photo, is a partial view of the National Museum of Prehistory in Halle (Landesmuseum für Vorgeschichte Halle), not far from Leipzig. It is one of Central Europe’s leading archaeological museums.

Fly-by of the Kyffhaüser-Denkmal in Germany by a Junkers Ju 52 in flight simulation
Fly-by of the Kyffhaüser-Denkmal in Germany by a Junkers Ju 52 in flight simulation

Before reaching Calden airport to change aircraft, we gaze at the Kyffhaüser monument (Kyffhaüser Denkmal). Once in Calden, we jump into a modern Airbus-built H160 helicopter and head for Göttingen, more precisely over the Münchhausenstrasse.

We’ve obtained permission to fly over this thoroughfare at very low altitude, just long enough to say hello to an old acquaintance. This dubious authorization will probably cost Germany’s Minister of Transport his job.

Streets of Göttingen, Germany, in flight simulation
Streets of Göttingen, Germany, in flight simulation

A flyover of this Göttingen street is necessary to verify the extent of the traffic.

Helicopter descending on Münchhausenstrasse, Göttingen, Germany, in flight simulation.
Helicopter descending on Münchhausenstrasse, Göttingen, Germany, in flight simulation.

The descent is gradual between the buildings. We hover just above the cars. Pedestrians seem to wave at us, but we may misinterpret the gesture. Our friend is at the window and takes the time to stop his reading of an excellent comic strip to wave at us. We then continue on our way to Padderborn Lippstadt Airport (EDLP), our destination for today.

Helicopter H160 landing at the Padderborn Lippstadt (EDLP) in Germany in flight simulation.
Helicopter H160 landing at the Padderborn Lippstadt (EDLP) in Germany in flight simulation.

Still, there’s a fair amount of activity at the airport. Immediately after landing, we’ll start planning leg 11 of this round-the-world flight simulation and real weather trip.

Click on the link for more flight simulator flights around the world on my blog.

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Flight Simulation

Around the world in flight simulation (9)

The Antonov 225 taking-off from the Antonov airport (UKKM) in Ukraine heading to Sochi, Russia.
The Antonov 225 taking-off from the Antonov airport (UKKM) in Ukraine heading to Sochi, Russia.

Today, the Antonov 225 is reborn for another leg of this world tour of flight simulation. In reality, this aircraft was destroyed by Russia during its invasion of Ukraine. At the time of writing, war is still raging between the two nations. But in virtual mode, we have more latitude to alter the course of events and simulate peace.

So, we leave Ukraine’s Antonov airport (UKKM), fly over Crimea and then stop off in Sochi, Russia (airport code USSR). Our destination is Lublin airport (EPLB) in Poland.

The weather is looking good, with clear skies for the arrival in Sochi. The scenery around Sochi is splendid, and it’s best to land in good weather.

Take-off is a breeze, but the Antonov 225’s heaviness takes some getting used to. The weight of the aircraft means that every time the pilot makes a maneuver with the flight controls, initially nothing happens. Then, the aircraft slowly begins to obey. So, you have to expect delays and anticipate the outcome of maneuvers.

Navigraph is used for navigation. Of course, I plan to deviate from the initial route to fly over Crimea and then on to Sochi.

The pink triangle indicates the position of the Antonov 225 entering Crimea on its flight to Sochi in Russia and then Poland.
The pink triangle indicates the position of the Antonov 225 entering Crimea on its flight to Sochi in Russia and then Poland.

Below, the ploughed fields of the Ukraine. Ukraine is considered the breadbasket of the world.

The Antonov 225 over the cultivated fields of Ukraine.
The Antonov 225 over the cultivated fields of Ukraine.

Crimea is a beautiful region from the air, but fiercely contested on the ground. A pilot would say that today, it’s more turbulent down there than up.

The Antonov 225 entering Crimea on its flight to Russia then Poland
The Antonov 225 entering Crimea on its flight to Russia then Poland

A few minutes later, the flight over the Sea of Azov begins in the direction of Sochi.

The approach is spectacular, with the surrounding mountains. As with all large aircraft, the Antonov has to be stabilized well in advance to avoid overcorrecting on final.

Antonov 225 on long final for runway 06 in Sochi (USSR), Russia.
Antonov 225 on long final for runway 06 in Sochi (USSR), Russia.

The cargo plane stops in an extremely short distance for such a heavy aircraft. When the thrust is reversed on six engines, there’s no need to set the brakes to maximum, especially in Sochi. We make a short stopover.

Antonov 225 parked for a short stopover at Sochi (USSR), Russia.
Antonov 225 parked for a short stopover at Sochi (USSR), Russia.

Just after our arrival, a Russian Sukhoi 27 military jet makes a low pass near the tower. The fighter jet was created at the time in response to the construction of the American F-15.

A Sukhoi Su-27 makes a low pass at the Sochi Airport (USSR), Russia.
A Sukhoi Su-27 makes a low pass at the Sochi Airport (USSR), Russia.

The flight resumes in the late afternoon. Below, the Antonov 225 is on final approach to runway 25 at Lublin airport in Poland.

Antonov 225 on final for rwy 25 at Lublin airport, Poland
Antonov 225 on final for rwy 25 at Lublin airport, Poland

The thrust reversers allow the aircraft to exit onto the taxiway in the middle of the runway.

Antonov 225 with thrust reversers after landing at Lublin (EPLB) airport in Poland.
Antonov 225 with thrust reversers after landing at Lublin (EPLB) airport in Poland.

We get a little help with parking.

Antonov 225 with some help for the parking at Lublin airport, Poland
Antonov 225 with some help for the parking at Lublin airport, Poland

The next stage of this round-the-world flight simulation will be with a smaller aircraft, heading for Germany. A flight over Göttingen is planned with a helicopter (D-JORG). The trip will end at Paderborn Lippstadt Airport (EDLP).

Click on the link to read more about this round-the-world flight simulation on my blog.

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Flight Simulation

Around the world in flight simulation (8).

OMA's concrete towers in Stockholm with Microsoft Flight Simulator.
OMA’s concrete towers in Stockholm with Microsoft Flight Simulator.

Leg 8 of this round-the-world trip in flight simulation is from Stockholm-Bromma airport in Sweden to Antonov (Hostomel) international airport in Ukraine (UKKM), where the virtual Antonov 225 is based.

The world’s only example of this aircraft was destroyed at the start of the Russian invasion of Ukraine in February 2022. However, no one can prevent a virtual aircraft from surviving (even computer) attacks. Note that the entire purchase price of the virtual aircraft in the Microsoft store is reserved for the eventual reconstruction of the real aircraft.

F14D Tomcat military jet ready for departure at Stockholm-Bromma virtual airport (ESSB) with Microsoft Flight Simulator.
F14D Tomcat military jet ready for departure at Stockholm-Bromma virtual airport (ESSB) with Microsoft Flight Simulator.

For the trip, a quick overflight of Belarus will be necessary. A decommissioned, unarmed F-14 Tomcat should do the trick.

F-14D Tomcat airborne from the Stockholm-Bromma (ESSB) virtual airport in flight simulation.
F-14D Tomcat airborne from the Stockholm-Bromma (ESSB) virtual airport in flight simulation.

The flight will take place at speeds above the sound barrier.

Navigraph chart of the flight from ESSB to UKKM Antonov International airport
Navigraph chart of the flight from ESSB to UKKM Antonov International airport

The Navigraph map above shows the planned route. The pink triangle shows the F-14 entering Belarus.

F-14D Tomcat in a dive for a low pass ate high speed over Belarus.
F-14D Tomcat in a dive for a low pass ate high speed over Belarus.

A change of itinerary is in order for a few minutes, with a dive into Belarusian territory. But, as the military say, this flight “never happened”.

F-14D Tomcat on a low pass at high speed over Belarus.
F-14D Tomcat on a low pass at high speed over Belarus.

We’re obviously not invited to perform a high-speed pass. But it seems to be becoming the norm in this part of the world in recent years, so why not us?

F-14D Tomcat heading to Kyiv Hostomel airport (GML) in flight simulation
F-14D Tomcat heading to Kyiv Hostomel airport (GML) in flight simulation

The flight to Antonov International Airport continues at top speed. We’ll soon be there.

F-14D Tomcat turning final for the Antonov International airport (UKKM) in flight simulation.
F-14D Tomcat turning final for the Antonov International airport (UKKM) in flight simulation.

Above, the F-14 makes a descent turn for the final approach to Antonov airport, with landing gear down and flaps adjusted. In real life, the runway has been damaged by the Ukrainians themselves to prevent the Russians from easily establishing a beachhead in their country. But we’re in virtual mode, so anything goes.

A F-14D Tomcat and Ukrainian soldiers on the Antonov International airport (Hostomel) (UKKM) in flight simulation.
A F-14D Tomcat and Ukrainian soldiers on the Antonov International airport (Hostomel) (UKKM) in flight simulation.

As we taxi, we pass a few Ukrainian army soldiers greeting the arrival of the foreign pilots.

The virtual Antonov 225 is in its hangar, the very place where it was destroyed at the start of the conflict. I’ll be using this aircraft for the next leg of my round-the-world trip, flying over Crimea, landing in Russia and finally finishing the leg in Poland. We mustn’t leave the virtual Antonov 225 in Russia, as a matter of principle.

Click on the link for more flight simulator flights around the world on my blog.

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Flight Simulation

Around the world in flight simulation (3)

Airborne from the Isafjordur airport (BIIS) In Iceland with Microsoft Flight Simulator.
Airborne from the Isafjordur airport (BIIS) In Iceland with Microsoft Flight Simulator.

The third leg of the round-the-world flight simulation begins with a departure from Isafjordur (BIIS) in Iceland and ends at Vagar airport (EKVG) in the Faroe Islands, an autonomous archipelago belonging to the Kingdom of Denmark.

The departure from Isafjordur faces a mountain. You can see the shadows on the ground. But as visibility is perfect, this is no problem at all, as long as the rate of climb is sufficient.

Virtual flight BIIS EGVK
Virtual flight BIIS EGVK
The Cessna Citation Longitude is airborne from the Isafjordur airport (BIIS) in Iceland with Microsoft Flight Simulator.
The Cessna Citation Longitude is airborne from the Isafjordur airport (BIIS) in Iceland with Microsoft Flight Simulator.

A left turn over the superb Icelandic landscape establishes the Cessna Citation Longitude on course for the Faroe Islands. The FMS ensures that the aircraft will stay on course. But it’s important to remain vigilant: there’s a lot of other equipment that can cause surprises along the way.

The Cessna Citation is climbing slowly over Iceland.
The Cessna Citation is climbing slowly over Iceland.

The climb continues over a magnificent landscape. There’s no turbulence today; if there were, the flight simulator would make sure the plane was harder to control, even for the autopilot. I set the virtual flight to observe real air traffic during the flight, but the route between Iceland and the Faroe Islands is off the most popular routes, so it’s normal not to encounter too many aircrafts.

The Cessna Citation Longitude is heading to the Vagar airport (EKVG) in Feroe Islands
The Cessna Citation Longitude is heading to the Vagar airport (EKVG) in Feroe Islands

We are now established at our cruising altitude, leaving Iceland’s eastern border to fly over the Atlantic Ocean.

Visual approach for runway 12 at the Vagar airport (EKVG) Feroe Islands
Visual approach for runway 12 at the Vagar airport (EKVG) Feroe Islands

We disconnect the autopilot to give us a free hand on the visual approach to Vagar (EKVG) airport. A small white dot, the lights of runway 12, can be seen straight ahead in the distance.  The landing gear is down, as are the flaps, and the speed has stabilized at around 140 knots for the moment.

The Cessna Citation is on long final for runway 12 of the Vagar airport (EKVG) Faroe Islands
The Cessna Citation is on long final for runway 12 of the Vagar airport (EKVG) Faroe Islands

It’s an ideal time to arrive in the Faroe Islands, with the setting sun coloring all the surrounding clouds.

The Citation Longitude on visual approach to runway 12 at the Vagar airport (EKVG)
The Citation Longitude on visual approach to runway 12 at the Vagar airport (EKVG)

Runway 12 is visible on the far right in the photo above. The uneven cloud cover sometimes blocks the view of the airport for a few seconds, but the wind quickly blows the clouds away, preventing a missed approach. Virtual weather ensures a constant renewal of weather conditions.

The Cessna Citation exits runway 12 at the Vagar airport (EKVG) in Faroe Islands with Microsoft Flight Simulator
The Cessna Citation exits runway 12 at the Vagar airport (EKVG) in Faroe Islands with Microsoft Flight Simulator

Landing is trouble-free, as the Vagar runway is long enough (5902 x 98 feet) to accommodate such a private jet.

Some 53,000 people lived in the Faroe Islands as of 2021. One of the most popular activities is bird and plant watching. To make it easier for residents and tourists to get around, tunnels have been built between some of the archipelago’s 18 islands.

The fourth leg of the round-the-world virtual flight will take place between Vagar and Ivalo (EFIV) in Finland. This is Finland’s northernmost airport.

Click on the link for more flights around the world in flight simulation on my blog.

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Flight Simulation

Around the world in flight simulation (2)

Climbing from Iqaluit (CYFB) to Kangerlussuaq (BGSF)
Climbing from Iqaluit (CYFB) to Kangerlussuaq (BGSF)

For this second leg of the round-the-world flight simulation, the aircraft departs from Iqaluit (CYFB) in appalling weather conditions, but soon find itself above cloud and approaching an area of high pressure. The sky becomes increasingly clear as I approach runway 09 Kangerlussuaq (BGSF) in Greenland.

Virtual flights CYFB BGSF BIIS
Virtual flights CYFB BGSF BIIS

The map shows the planned itinerary: departure from Iqaluit (CYFB), stopover in Kangerlussuaq (BGSF) and arrival at destination in Iceland, at Isafjordur airport (BIIS).

Cessna Citation Longitude on the final approach for the Kangerlussuaq virtual airport (BGSF)
Cessna Citation Longitude on the final approach for the Kangerlussuaq virtual airport (BGSF)

Above, the approach to runway 09. You really need to be well prepared for a destination like BGSF. If the pilot arrives after the tower is closed, the fines are very steep. You can generally expect a little mechanical turbulence on the approach to Runway 09, as the mountains on either side of the aircraft change the airflow.

When I worked at the Iqaluit Flight Service Station (CYFB), many pilots would come up to the tower to plan their flight to BGSF. The most frequent problem was the closing time of the control tower in Kangerlussuaq. They knew that a hefty fine awaited them if they arrived late, often due to stronger-than-expected winds or a departure time that was too tight from Iqaluit. Most of the time, they chose to sleep in Iqaluit and leave the next day, rather than force the issue and end up with a $1500.00 bill to pay.

We also had pilots ferrying single-engine planes over the ocean from Europe to America. In this case, the weather had to be excellent, and the captain had to have the necessary equipment on board to attempt (and I do mean attempt) to survive in the ocean in the event of engine failure.

Cessna Longitude parked at Kangerlussuaq (BGSF)
Cessna Longitude parked at Kangerlussuaq (BGSF)

Above, a partial view of Kangerlussuaq’s virtual airport (BGSF), with the Cessna Citation Longitude at a standstill. On the other side of the runway (invisible here), the airport receives military aircraft.

Climbing from (BGSF) Kangerlussuaq to (BIIS) Isafjordur
Climbing from (BGSF) Kangerlussuaq to (BIIS) Isafjordur

The next day, after a stopover in Kangerlussuaq, it’s time to continue on to Isafjordur. Take-off is on runway 27. The pitot tube heating system and icing protection are activated before entering the cloud layer.

Airborne from the Kangerlussuaq (BGSF) airport
Airborne from the Kangerlussuaq (BGSF) airport

Flying in real weather makes for unexpected screenshots.

The Cessna Longitude arrives over Iceland in flight simulation
The Cessna Longitude arrives over Iceland in flight simulation

Above, the relief of Iceland shortly before arrival at Isafjordur airport (BIIS). As expected, the sky is clear.

Approaching Isafjordur (BIIS) with the Asobo Cessna Citation Longitude
Approaching Isafjordur (BIIS) with the Asobo Cessna Citation Longitude

The approach to Isafjordur is demanding, especially when flying a jet like the Cessna Citation Longitude. You have to save extra speed in the sharp left turn to avoid stalling. I made the turn downhill at 160 knots to get to the runway threshold at the right height. Towards the end of the approach, as the angle of the turn decreases, you immediately reduce speed to around 135 knots.

The Cessna Citation Longitude exits the runway at the Isafjordur virtual airport (BIIS)
The Cessna Citation Longitude exits the runway at the Isafjordur virtual airport (BIIS)

Contrary to real life, it is difficult to have a constant view on a runway when doing a virtual approach in a steep turn. A flight simmer would need 3D glasses to quickly look at the runway and then check the instruments. After two unsuccessful attempts where I found myself a little too high above the runway threshold, I nonetheless managed to land. The instrument panel indicated, however, that the brakes worked pretty hard to slow down the plane, which didn’t really surprise me. There are more relaxing approaches…

The next leg on this trip around the world will be a departure from Isafjordur to Vagar (EKVG) in the Feroe Islands.

Click on the link for more flights around the world in flight simulation on my blog.

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Flight Simulation

Around the world in flight simulation (1)

F-14 Tomcat at work over the sea
F-14 Tomcat at work over the sea

The flight simulation with Microsoft Flight Simulator lets you fly over the planet like never before from the comfort of your own home. As airports around the world transmit weather observations at all times, it’s possible to import this data into the flight simulator and fly virtually in the real weather conditions reported around the globe.

This data enhances the feeling of reality for the virtual pilot, but at the same time complicates his task, as he has to take into account the presence of thunderstorms and icing, surface and upper-level winds, changes in cloud cover, visibility, pressure, and so on.

Today’s virtual pilot must also anticipate that failures of all kinds may affect the flight, especially if he or she owns a high-quality virtual aircraft. The engine(s) may fail, a structural problem may affect the aircraft’s controls and navigation equipment may cease to function. Good planning is essential, just as in real life. And since the brain doesn’t differentiate too much between the real and the virtual, there’s plenty of fun to be had.

So, I’ve decided to fly around the world as a millionaire, at my own pace, i.e., using the types of aircraft that tempt me, and flying the routes that are of particular interest. All of this will be done in real weather, with all its joys and obstacles. I’ll be publishing one of these routes on my blog from time to time.

The initial route departs from Quebec’s Jean-Lesage airport (CYQB), passes through Goose Bay (CYYR), in the Canadian province of Newfoundland and Labrador, heads north to Kuujjuaq and ends in Iqaluit (CYFB).

Virtual Flight 2 will present a few photos of the Atlantic crossing from Iqaluit to Kangerlussuaq (BGSF) in Greenland, to Isafjordur (BIIS) in Iceland .

Isafjordur airport has a challenging approach. I don’t know if the Cessna Citation Longitude will be able to land there in one piece, but I intend to give it a try.

Virtual flight 1.

Virtual flights CYQB CYYR CYVP CYFB
Virtual flights CYQB CYYR CYVP CYFB
Enroute from Quebec City (CYQB) to Goose Bay (CYYR)
Enroute from Quebec City (CYQB) to Goose Bay (CYYR)

Above, the setting sun illuminates the clouds and the Cessna Citation Longitude en route from Quebec City to Goose Bay. At high altitude, the pilot sets the altimeter to the standard atmospheric pressure of 29.92 inches of mercury. Since all the other pilots are doing the same, a safe separation between the aircraft is ensured.

Approaching the Kuujjuaq airport (CYVP) in Quebec.
Approaching the Kuujjuaq airport (CYVP) in Quebec.

The next day, the aircraft is seen approaching Kuujjuaq (CYVP) in Nunavik. The altimeter is set to the airport’s atmospheric pressure to reflect the correct height of the runways in relation to the aircraft. Near the airport, the autopilot is disconnected, and the approach is made manually and visually. The desired speed is around 135 knots for the final.

Departing Kuujjuaq airport (CYVP) with the Cessna Citation Longitude
Departing Kuujjuaq airport (CYVP) with the Cessna Citation Longitude

Above, the jet takes off from Kuujjuaq bound for Iqaluit (CYFB) on Baffin Island in Nunavut.

Enroute to Iqaluit airport (CYFB)
Enroute to Iqaluit airport (CYFB)

The setting sun illuminates the aircraft’s windows. The approach to Iqaluit has begun. The descent is gradual, so as not to cause discomfort to the virtual passengers…

On final for runway 34 of the Iqaluit airport (CYFB)
On final for runway 34 of the Iqaluit airport (CYFB)

Above, the aircraft is on final for runway 34 at Iqaluit (CYFB).

The yellow Iqaluit flight service station (FSS) in Iqaluit (CYFB)
The yellow Iqaluit flight service station (FSS) in Iqaluit (CYFB)

The first leg of our virtual flight around the world ends in Iqaluit, the airport where I worked for two and a half years as Flight Service Specialist (FSS) in the yellow tower on the left of the photo.

Flight service specialists at work at the Iqaluit flight service station in 1989
Flight service specialists at work at the Iqaluit flight service station in 1989

Above, a photo of the interior of the Flight Service Station at the time. One FSS worked on arrivals and departures at the airport, while the other handled transatlantic flights between Europe and mainly the western USA.

Click on the link for more flights around the world in flight simulation on my blog.

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The Dornier DO X in flight simulation.

Dornier DO X stops its engines on a Swiss lake with Microsoft's flight simulator
Dornier DO X stops its engines on a Swiss lake with Microsoft’s flight simulator

Microsoft has made the famous German Dornier DO X seaplane available to flight simulation enthusiasts. Designed in 1929 by Claude Dornier, this seaplane far surpassed anything else on the market at the time, in terms of weight, length and power.

Flyingboat Dornier DO X.
Flyingboat Dornier DO X.

Unfortunately, the Germans couldn’t make a commercial success of it, as the aircraft was really too heavy to cover long distances at high altitude in an economical way. What’s more, bad experiences were piling up during the various stopovers: the left-wing canvas caught fire in Portugal, there was some problems with tropical weather, the tail was torn off during a poorly-planned ditching in Passau. What remains of the empennage after the accident can now be seen in the Dornier Museum in Friedrichshafen.

The Germans built the three DO X models at Altenheim, on the Swiss side of Lake Constance, to get round the restrictions imposed by the Treaty of Versailles.

Inside the flyingboat Dornier DO X with Microsoft flight simulator
Inside the flyingboat Dornier DO X with Microsoft flight simulator

One crew member was in charge of controlling and monitoring the engines. He obeyed the captain’s instructions.

Dornier DO X engine control

Dornier DO X engine control
Dornier DO X engine room with Microsoft flight simulator
Dornier DO X engine room with Microsoft flight simulator

The layout of the engines caused headaches for the mechanics. Six propellers pulled the aircraft forward, while another six pushed the DO X. The engines driving the rear propellers received less air than those in front of the aircraft. This led to cooling problems, which reduced reliability on long-distance flights.

Dornier DO-X flyingboat over the Atlantic ocean with MSFS 2020 flight simulator.
Dornier DO-X flyingboat over the Atlantic ocean with MSFS 2020 flight simulator.

The seaplane made its first test flight from Lake Constance (Bodensee)  in 1929. Below, a screenshot of the flight near Lake Brienz in Switzerland.

Dornier DO X flyingboat over Lake Brienz in Switzerland with Microsoft flight simulator.
Dornier DO X flyingboat over Lake Brienz in Switzerland with Microsoft flight simulator.

On its international routes, the DO X made stopovers in several European countries, Africa, South America, Miami, New York and Newfoundland. At the time, Newfoundland was not yet part of Canada. Newfoundlanders issued a stamp to commemorate the plane’s passage through Hollyrod. Naturally, those who kept a copy of the stamp have seen its value rise sharply over the years.

trans-atlantic-west-to-east-per-dornier-do-x-may-1932-air-mail-newfoundland-stamp
trans-atlantic-west-to-east-per-dornier-do-x-may-1932-air-mail-newfoundland-stamp

This legendary seaplane is still admired by aviation enthusiasts today. It’s available as a glue-on model, a desktop model and even as a remote-controlled model.

The Dornier DO X 1929 desktop flyingboat.
The Dornier DO X 1929 desktop flyingboat.
Small-scale radiocontrolled Dornier DO-X
Small-scale radiocontrolled Dornier DO-X

Click on the link for flight simulation articles on my blog.

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A twin-engine BE-58 lands on an aircraft carrier.

A twin engine Baron Be-58 on approach for the aircraft carrier Gerald R. Ford
A twin engine Baron Be-58 on approach for the aircraft carrier Gerald R. Ford

Here’s a virtual flight made on a flight simulator using Microsoft Flight Simulator software. A Beech Baron BE-58 left Key West Airport, Florida (KEYW) a few minutes ago, heading for the CVN78 USS Gerald R. Ford aircraft carrier.   

In the real world, this just isn’t done. But in flight simulation, anything goes. Above, the aircraft completes the downwind leg of its approach to the carrier.

On stabilized final with full flaps and landing gear down, the focus is on the approach angle and stall speed, which stands at 73 knots.

Beech Baron Be-58 on final for the Gerarld R. Ford aircraft carrier
Beech Baron Be-58 on final for the Gerarld R. Ford aircraft carrier

You can’t rely on a cable to stop the plane, so you need the lowest possible speed and good brakes to land it on the 333-meter bridge. Below, the Beech attracts a little curiosity as it circulates to find temporary parking.

Taxiing to park the BE-58 on the aircraft carrier
Taxiing to park the BE-58 on the aircraft carrier

The virtual pilot then parks the aircraft for the next day.

Parked for the night on the CVN78 Gerald R. Ford
Parked for the night on the CVN78 Gerald R. Ford

The next two images show the aircraft carrier facing a storm the following evening, with winds blowing at 35 knots during a thunderstorm. On deck, the first aircraft on the left is our Baron Be-58, holding its own. If the storm doesn’t blow it overboard, the military will soon!

The aircraft carrier CVN 78 Gerald R. Ford in a storm
The aircraft carrier CVN 78 Gerald R. Ford in a storm
The aircraft carrier Gerald R. Ford near Key West
The aircraft carrier Gerald R. Ford near Key West

Click on the link for other challenging virtual flights on my blog.

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The Jungfraujoch in flight simulation.

On the train heading for the Jungfraujoch, Switzerland 2013.
On the train heading for the Jungfraujoch, Switzerland 2013.

Ten years ago this year, we took the train to the Jungfraujoch Top of Europe station.

Sphinx astronomical observatory on the Jungfraujoch in Switzerland.
Sphinx astronomical observatory on the Jungfraujoch in Switzerland.

The latter is located in the Jungfraujoch pass in Switzerland, at an altitude of 3571 meters (11,716 feet MSL).

The construction of this station was a feat of engineering at the time, but cost the lives of many workers. One does not make one’s way through a mountain range with sticks of dynamite without the occasional unforeseen agenda imposed by nitroglycerine.

The train can therefore only reach this station by traveling inside the mountains on a steep slope requiring a hydraulic mechanism to pull the train forward. The tourist must trust the engineers and the technical support…

To remind myself of our trip to this region, I thought of taking a virtual helicopter flight from Lauterbrunnen to land directly on the platform of the Sphinx astronomical observatory, this world famous tourist attraction of the Jungfraujoch. Fortunately for me, the company Red Wing Simulations recently created a virtual scene including these two magnificent sites.

Lauterbrunnen, Switzerland and the Microsoft Flight Simulator Bell 407.
Lauterbrunnen, Switzerland and the Microsoft Flight Simulator Bell 407.

Flight simulation enthusiasts will be well advised to use the Bell 407, as the operating limit of the Guimbal Cabri G2  provided by the Microsoft flight simulator is capped at 13,000 feet. It is best to fly with a slightly more powerful aircraft when maneuvering at this altitude.

Airborne from Lauterbrunnen, Switzerland, with Microsoft Flight Simulator 2020.
Airborne from Lauterbrunnen, Switzerland, with Microsoft Flight Simulator 2020.

From a green landscape in the summer one gradually flies towards the eternal snow of the highest peaks in the Valais.

Getting closer to the Jungfraujoch, Switzerland.
Getting closer to the Jungfraujoch, Switzerland.

The scenery was spectacular on the train and it is just as spectacular in virtual flight. A mechanical problem with the helicopter in this environment of grandiose cliffs would leave little chance for the pilot.

Approaching the Sphinx Observatory on the Jungfraujoch, Switzerland.
Approaching the Sphinx Observatory on the Jungfraujoch, Switzerland.

Here we are on approach: it is possible to land on the platform of the Sphinx observatory, but the pilot needs to be prepared for wind shear and unforeseen clouds at this altitude while taking care during the approach to avoid touching the flagpole and the protective fences surrounding the platform.

The Sphinx observatory on the Jungfraujoch with the Bell 407 helicopter on the platform using Microsoft Flight Simulator.
The Sphinx observatory on the Jungfraujoch with the Bell 407 helicopter on the platform using Microsoft Flight Simulator.

The Red Wing Simulations company has done an outstanding job designing this virtual scenery. In the photo below, you can even see skiers at the bottom of the cliff warming up before their first run.

Red Wing Simulations skiers at the base of the Jungfraujoch observatory on Microsoft Flight Simulator.
Red Wing Simulations skiers at the base of the Jungfraujoch observatory on Microsoft Flight Simulator.

Even if the virtual scene includes something other than Lauterbrunnen and the Jungfraujoch, the pleasure of making a successful approach on the Sphinx platform alone is worth the cost of acquiring the software.

The Sphinx observatory on the Jungfraujoch and the helicopter on the platform using Microsoft Flight Simulator
The Sphinx observatory on the Jungfraujoch and the helicopter on the platform using Microsoft Flight Simulator
Microsoft Flight Simulator and Red Wing Simulations representation of the Jungfraujoch Observatory platform.
Microsoft Flight Simulator and Red Wing Simulations representation of the Jungfraujoch Observatory platform.

Click on the links for more challenging virtual flights or flight simulation information on my blog.

Categories
Flight Simulation

42MX Mexican Mountain in MSFS

Fox2 bushplane at 42MX Mexican Mountain with MSFS
Fox2 bushplane at 42MX Mexican Mountain with MSFS

The Mexican Mountain Virtual Landing Strip (42MX) under Microsoft Flight Simulator 2020 (MSFS) is located in the United States, in Utah. It is a 1800 x 40 feet dirt runway, sloping slightly to the west.

The MX42 Mexican Mountain airstrip with visitors (MSFS)
The MX42 Mexican Mountain airstrip with visitors (MSFS)

The surrounding landscape is characterized by large cliffs and mountains whose peaks reach 6900 feet.

Airborne from the 42MX Mexican Mountain airstrip in MSFS flight simulation
Airborne from the 42MX Mexican Mountain airstrip in MSFS flight simulation
Virtual scenery around the 42MX Mexican Mountain airstrip (MSFS)
Virtual scenery around the 42MX Mexican Mountain airstrip (MSFS)

Once on the ground and near the campfire, we can hear the fire crackling and the RC Plane activities through the walkie-talkie left on the table. We can’t tell if anyone will be there when we arrive. This time, a young couple was enjoying the good weather and had taken the time to light a fire in my absence…

42MX Mexican Mountain visitors taking a break in MSFS
42MX Mexican Mountain visitors taking a break in MSFS

One final note from the company: pineapples on pizza are not allowed on the site.

If you have purchased the Bushplane Campout 42BC, the simulation will be all the more realistic.

Click on the link for more flight simulation articles on my blog.