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Les éléments clés à retenir sont la durée de la vidéo (00:13:48s), le titre (MQ 9 Reaper Drone Explained) et l’auteur, ainsi que la description qui suit :« Accédez à https://surfshark.com/aitelly ou utilisez le code AITELLY lors du paiement pour obtenir 4 mois supplémentaires de Surfshark VPN ! Puisque nous sommes une chaîne d’ingénierie, jetons un coup d’œil sous le capot. La cellule est construite à partir de matériaux composites avancés, réduisant le poids et augmentant l’intégrité structurelle. Tandis que le train d’atterrissage principal est doté de jambes de force en titane, améliorant la résistance et la fiabilité. Juste à l’avant, vous trouverez le capteur d’angle d’attaque, un élément clé de la façon dont le drone comprend le flux d’air et la stabilité. Juste derrière se trouvent les modules GPS et les batteries, soigneusement rangés pour alimenter et guider l’avion. En avançant, c’est ici qu’est monté le fameux radar Lynx Sar. Considérez-le comme une caméra très puissante, mais au lieu d’utiliser la lumière pour créer des images, elle utilise des ondes radar. Il envoie des signaux au sol, et lorsque ces ondes frappent quelque chose comme un véhicule ou un bâtiment, elles rebondissent. Le radar rassemble ensuite ces réflexions pour créer une image détaillée de ce qui se trouve en dessous, même si le temps est nuageux, orageux ou sombre. Plus en arrière se trouve l’antenne parabolique Sat M Q-9 Reaper. C’est ce qui permet au drone de rester connecté bien au-delà du champ de vision de l’opérateur en se connectant aux satellites stationnés en orbite géostationnaire. Bien sûr, il y a un petit retard en raison de la distance que le signal doit parcourir, mais même avec cela, les pilotes à distance peuvent contrôler le Reaper à des milliers de kilomètres de distance, avec une précision incroyable. Et enfin, juste derrière l’antenne parabolique Sat com se trouvent les liaisons de données de communication, qui gèrent un contrôle plus localisé. Au-dessus de cela, vous repérerez les antennes en bande C – celles-ci gèrent les communications à courte portée en ligne de mire lorsque le drone fonctionne plus près de la base. Instagram https://www.instagram.com/aitelly3d/ Twitter https://twitter.com/aitelly3d Nous le faisons sur Blender Téléchargez-le gratuitement et en toute sécurité https://www.blender.org/download/ Peace Out En tant que petite chaîne, nous vous encourageons à partager nos vidéos. Cependant, veuillez noter que toute traduction ou édition non officielle de notre travail sur quelque support que ce soit sera considérée comme une violation de nos droits de propriété intellectuelle. Nous nous excusons pour le langage juridique, qui découle de nos expériences avec de nombreux contenus dupliqués. Cela est dû au fait que de grandes chaînes dupliquent nos vidéos, détruisant notre travail acharné d’origine, que nous avons créé à partir de zéro, de la modélisation au rigging en passant par l’animation et le rendu. En conséquence, nous avons dû faire appel à des avocats. ».

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Professionnelles Entreprise de Drone : Des Solutions Aériennes

Les drones professionnels ont transformé divers domaines en France. Que ce soit pour la planification de projets, l’inspection de sites industriels ou la cartographie des infrastructures, ces outils permettent d’accéder à des perspectives inédites avec une précision et une efficacité optimisées. Dans le contexte actuel, faire appel à une entreprise de drone est une solution incontournable pour répondre aux besoins des particuliers, des collectivités et des entreprises.

Un drone professionnel peut, grâce aux avancées technologiques, mener à bien des missions multiples avec une grande précision. Ce dispositif est utilisé pour l’inspection de bâtiments, la surveillance de chantiers, la cartographie de terrains et la réalisation de films et productions audiovisuelles. Pour garantir un travail de qualité, il est impératif de solliciter des pilotes formés et certifiés par la DGAC.

Il est possible de réaliser des inspections techniques en toute sécurité avec un drone. On l’utilise pour examiner l’état des infrastructures, pour repérer d’éventuels défauts et pour renforcer la gestion des risques. La vidéo aérienne permet d’obtenir des images et vidéos en haute définition, idéales pour des projets de communication, le tournage de films ou le suivi de chantiers. En utilisant la cartographie et la modélisation, on peut reconstituer des édifices en 3D et obtenir des relevés topographiques précis.

Pour être reconnu comme pilote de drone professionnel, il faut absolument une certification délivrée par la DGAC. La formation aborde la maîtrise des réglementations, le respect des protocoles de sécurité et la gestion des vols en zones spécifiques. Grâce à ces compétences, il est possible de mener des missions légalement et de répondre aux besoins des clients.

En matière de services de drone professionnel, SupraDrone est un prestataire français reconnu. Implanté dans plusieurs régions et départements de France, il gère l’ensemble des démarches administratives pour les vols de drones. SupraDrone s’occupe des autorisations en collaboration avec la DGAC, les services des préfectures et les mairies, garantissant ainsi la conformité réglementaire avant chaque mission.

Lorsque les formalités sont terminées, SupraDrone mobilise ses opérateurs de drone locaux pour offrir des prestations qui répondent aux exigences des clients. Un pilote qualifié est assigné à chaque projet, que ce soit une production audiovisuelle, une inspection technique ou une mission de cartographie. Avec cette structure, l’entreprise garantit une réponse rapide et efficace, tout en offrant un accompagnement adapté dans chaque région. En intégrant savoir-faire technique et gestion simplifiée, SupraDrone se démarque comme un acteur essentiel du domaine du drone professionnel en France.

SupraDrone est un prestataire spécialisé qui a centralisé les déclarations et formalités administratives à Paris, à proximité de la DGAC, des constructeurs de drones et des services de l’État. Grâce à ses implantations dans chaque région, ses télépilotes sont prêts à intervenir sur des missions en moins de 24 heures. Découvrez nos services

Visionnez la vidéo sur youtube en utilisant ce lien :
la publication originale: Cliquer ici

#Reaper #Drone #Explained

Retranscription des paroles de la vidéo: The Reaper UAV may look simple, but behind the scenes, it relies on a launch crew, a ground data terminals, and ground control station. Inside the ground control station, the co-pilot can choose to launch a precision ninja missile to minimize collateral damage. But if the mission requires, he may also opt for traditional gravity-based weapons capable of taking out entire city blocks. More details on how to fly and the engineering behind it, all in the video ahead. Since we’re an engineering channel, let’s take a look under the hood. Right at the front, you’ll find the angle of attack sensor, a key part of how the drone understands air flow and stability. Just behind that are the GPS modules and the batteries tucked in neatly to power and guide the aircraft. Moving along, this is where the famous Lynx SAR radar is mounted. Think of it as a high-owered camera, but instead of using light to create images, it uses radar waves. It sends signals down to the ground, and when those waves hit something like a vehicle or a building, they bounce back. The radar then pieces together those reflections to create a detailed picture of what’s below, even if it’s cloudy, stormy, or pitch dark. Further back sits the MQ9 Reaper Satcon dish. This is what lets the drone stay connected far beyond the operator’s line of sight by linking up with satellites parked way out in geostationary orbit. Sure, there’s a tiny delay due to the distance the signal has to travel, but even with that, remote pilots can control the Reaper from thousands of miles away with incredible precision. But that’s not all. The MQ9 Reaper also needs to fly with precision, which is why the pilot uses an image intensified TV camera. This helps in low light environments where visibility is limited. Next, there’s the laser target designator. It’s used to mark targets for laserg guided munitions like the GB12 Paveway, which rely on laser guidance for pinpoint accuracy. That’s where the laser rangefinder comes in. It helps estimate the distance to a target, providing critical data for precision strikes. Moving on, the Reaper is equipped with an infrared sensor for thermal imaging. This is especially useful at night or in poor visibility conditions. It’s a powerful tool because it can detect the heat signatures of vehicles, people, and even animals. This helps in identifying hidden or disguised objects that might otherwise go unnoticed. As mentioned, it’s equipped with a laser designator, which allows it to track and guide its gravity weapon to a moving vehicle. [Music] And finally, just behind the satcom dish are the communication data links which handle more localized control. Above that, you’ll spot the C-band antennas. These handle short-range line of sight communication when the drones operating closer to base. But what truly makes the Reaper stand out is its weapon system. Under its wings, it carries an array of deadly precisiong guided munitions, allowing it to strike with incredible accuracy. The most commonly used weapon is the AGM Hellfire Missile. A small but highly effective guided weapon designed to take out enemy vehicles, main battle tanks, fortified bunkers, or even individuals. When the operator selects a target, the Hellfire missile is locked onto it using a laser radar or GPS guidance system, depending on the specific version being used. If the target is being tracked by a laser designator, the missile will home in on the laser reflection, meaning it will follow the exact point the laser is marking, even if the target is moving. This makes it incredibly effective for striking fastmoving vehicles or enemy positions in dense urban environments. Once fired, the solid fuel rocket motor ignites and the missile launches off the drone’s wing pylon with a burst of speed, accelerating toward its target over 950 mph. It doesn’t rely on brute force like a bomb. Instead, it’s designed to hit with pinpoint accuracy, delivering a high explosive warhead right where it’s needed. The Reaper also carries GBU12 Payway 2 bombs, which are laserg guided and capable of hitting reinforced structures and GBU38G dams, which rely on GPS targeting for pinpoint accuracy, even in bad weather. This is where the AGMR9X, nicknamed the ninja missile, changes the game. Engineers stripped away the explosive warhead found in standard Hellfire missiles and replaced it with something straight out of a spy thriller with six razor sharp extendable blades. Think of it as a 100 lb flying guillotine, not a bomb. While official specs are closely guarded, sources claim each blade stretches roughly 18 in, creating a kill zone of just 3 ft. To put that in perspective, about the width of a compact car. Now, compare that to the 50ft blast radius of a conventional hellfire, and you see why this innovation matters. In a real world scenario, a high-v value target slips through a busy city street surrounded by civilian cars. A traditional hellfire strike here would turn the scene into a fireball, risking dozens of lives. But with the Ninja Missile and MQ9 Reaper drone circling overhead weights patiently, where the moment is right, it launches the weapon. No explosion follows, just the eerie thunk as the missile deploys its blades mid-flight. The titanium swords slice through the target’s vehicle like a hot knife through butter, neutralizing the threat with brutal efficiency. This lets the passengers in nearby cars might hear the impact, but they drive away unharmed. But critics, however, question whether any remotec controlled assassination can ever truly be ethical. From inside the command center, this is how he fires the missiles. He uses a thumb stick to zoom in on a heat signature, locking onto the target. When he’s ready, there’s a trigger button just below the joystick. A simple squeeze launches the weapon, guiding it directly to its intended target. These enemy targets firing at the MQ9 reappear, clearly lit up on the screen, as you can see here. Even for civilians, there are countless bad actors targeting our computers, which is why we need a defense mechanism, just like the MQ9 multi-targeting radar system. Similarly, this VPN identifies and blocks suspicious email with a harmful download link. In this case, it will alert you immediately. Now, take a look at my Netflix account. As you can see, I’m currently in Norway. To switch to a US server, all I have to do is click here, refresh, and boom, you’re now accessing Netflix US. Beyond that, it includes a robust antivirus software to shield your devices from viruses, malware, and tracking by ads, bots, or third parties. Finally, with Surf SharkVPN, a single subscription covers not just you, but also your friends, or even your entire city if you wanted. Go to our link surf.com/itelly. by buying through the promo link and using the code AI telly you will get four extra months free assured by a 30-day money back guarantee. Now picture that this human stretching their arms out except this wingspan is a massive 66 ft wide. That’s longer than a two full-size school bus. Standing next to them, you’d notice they’re about 36 ft long from head to toe. About the same length as two SUVs parked bumper to bumper. But when they stand tall, they reach 12.5 ft high taller than a basketball hoop. Now, that’s one seriously impressive figure for a drone. Flying an MQ9 Reaper drone isn’t a oneperson job. It requires the launch crew, ground data terminals, and the ground control station. On the ground in a forward air base, the launch crew preps the drone for flight. Nearby, the ground data terminals link the aircraft operators located thousands of miles away in another country. Then there’s the ground control station, a dimly lit command center where pilots and sensor operators guide the Reaper through the sky. Let’s take a look at how it is launched. Picture a Sunscorch airfield near a conflict zone that is here. The crew fuels the drone, runs diagnostics, and triple checks every sensor and circuit. When the Reaper engines war the life, it’s not a pilot in a cockpit guiding it down the runway. It’s these technicians working in the heat, helmets on, hands steady, sending the 10,000lb drone into the sky. This is what happens preparing for takeoff. A series of automated hydraulic actuators and motors work together to fold the landing gear neatly into the aircraft’s under body. This process is designed to be smooth and reliable, ensuring that the gear is securely stowed away to reduce drag during high-speed flight. As the drone nears its destination and initiates its descent, sensors and control systems trigger the reverse process. The landing gear unfolds in a carefully coordinated sequence. The nose gear drops down first to establish proper alignment, followed by the main landing gear emerging from their compartments along the underside of the aircraft. This coordinated action ensures that when the MQ9 touches down, all wheels are correctly positioned to provide a stable and safe landing even in challenging conditions. This is where handoff happens. Once airborne, control shifts thousands of miles away to the ground control station. This isn’t your typical office. Screens glow in the low light, and at the center sit two key figures, the pilot and the co-pilot. Their hands hover over controls that feel more like high-tech gaming gear than instruments of war. But let’s take a look at how to fly this drone. The pilot’s left hand grips the throttle. The right holds a joystick. A gentle push with the throttle forward and the Reaper surges to 300 mph, which is around 480 kmh. A twist of the stick tilts the 11s, banking the drone into a turn sharper than a hawks. Beside the pilot, the co-pilot watches a mosaic of live video feeds from the Reaper’s cameras. Their joystick isn’t only for flying, but for hunting. A thumb stick zooms in on a heat signature the size of a pixel. When ready, a trigger button when squeeze releases the weapon. If the order comes, a single keystroke sends a missile streaking toward its mark. But none of this would work without the ground data terminals. These systems connect the drone across the globe, linking it from the Middle East to the Pentagon to the ground control station. They make sure that no matter where the mission unfolds, the Reaper remains in the hands of its operators. Let’s take a look at how the control surfaces works. The MQ9 doesn’t use traditional ailerons and elevators like most aircraft. Instead, it employs 11s on the trailing edge of its wings. These versatile surfaces serve dual functions controlling pitch and roll. When the pilot moves the stick, these 11s work in harmony, moving together to adjust the drone’s nose up or down for mobility to navigate the drone to its mission. They can also move in opposite direction to roll the aircraft left or right for nimble maneuvering just by moving the sticks, sending the commands from thousands of miles away. The rudder located on the vertical stabilizer plays a vital role in managing yaw, allowing the aircraft to turn and make coordinated directional changes. This ensures smooth navigation during flight. One of the MQ9 standout features is its inverted Vtail. This innovative design works alongside the rudder and 11s to enhance stability and responsiveness, making the aircraft adaptable to varying flight [Music] conditions. Interestingly, unlike fighter jets or commercial planes, the MQ9 doesn’t rely on traditional flaps for lift adjustments. Instead, its long wings optimized for efficiency and lift combined with precise throttle control enable smooth takeoffs and landings without needing additional flap mechanisms. These elements reflect the MQ9’s sophisticated engineering, ensuring it remains one of the most reliable unmanned aerial systems in operation. Let’s take a look at what powers this UAV. The MQ9 Reaper engine breathes in air through an intake located right above the propeller from this inlet. As the aircraft moves forward, air naturally flows into this opening. Inside is the honey well. The engine uses a compressor to pull that air in and squeeze it, increasing its pressure. Once the air is compressed, it’s mixed with fuel and ignited in the combustion chamber. This explosion of hot gases creates energy, spinning the turbine and turning the propeller shaft at the back. That’s what keeps the drone moving forward and flying high. So, even though we say the engine sucks air, it’s really the forward motion of the drone combined with the compressor inside that draws air in and turns it into power. All the power for the MQ9 Reaper comes from nearly five fuel tanks. The first fuel tank is located at the front, followed by tank 2, tank 3, and additional wing fuel tanks that help distribute the load. Inside, the Reaper holds about 4,000 lb, which is around 602 g of fuel. But that’s not all. When needed, it can carry extra fuel in external tanks, adding another 1,500 lb to extend its endurance even further. With this fuel capacity, the MQ9 Reaper can stay airborne for nearly 2 days, an impressive 27 to 34 hours, depending on its mission load with a range of about 1,200 to 1,400 nautical miles without refueling, allowing it to travel from Saudi Arabia to Iran and back. However, several factors can affect how long the Reaper can stay in the air. The heavier its payload, such as Hellfire missiles or GBU bombs, the more fuel it consumes. But there’s a smart way they figured out to conserve fuel. They make it climb this drone to an altitude of 50,000 ft where it can glide toward its destination, reducing engine strain and extending its flight time. Cuz high altitude cruising makes it even more efficient, ensuring it can complete longduration missions with minimal interruptions. We make original videos from scratch. So please do subscribe and hit the notification bell for more .

Déroulement de la vidéo:

1.6 The Reaper UAV may look simple, but
3.6 behind the scenes, it relies on a launch
5.359 crew, a ground data terminals, and
7.359 ground control station. Inside the
8.96 ground control station, the co-pilot can
10.96 choose to launch a precision ninja
12.48 missile to minimize collateral damage.
14.96 But if the mission requires, he may also
17.279 opt for traditional gravity-based
18.8 weapons capable of taking out entire
20.64 city blocks. More details on how to fly
23.279 and the engineering behind it, all in
25.199 the video ahead. Since we’re an
27.039 engineering channel, let’s take a look
28.32 under the hood.
29.84 Right at the front, you’ll find the
31.199 angle of attack sensor, a key part of
33.2 how the drone understands air flow and
35.719 stability. Just behind that are the GPS
38.239 modules and the batteries tucked in
40.0 neatly to power and guide the aircraft.
42.399 Moving along, this is where the famous
44.079 Lynx SAR radar is mounted. Think of it
46.879 as a high-owered camera, but instead of
48.879 using light to create images, it uses
50.96 radar waves. It sends signals down to
53.52 the ground, and when those waves hit
54.96 something like a vehicle or a building,
56.64 they bounce back. The radar then pieces
59.28 together those reflections to create a
61.039 detailed picture of what’s below, even
62.879 if it’s cloudy, stormy, or pitch dark.
66.08 Further back sits the MQ9 Reaper Satcon
69.2 dish. This is what lets the drone stay
71.52 connected far beyond the operator’s line
73.439 of sight by linking up with satellites
75.439 parked way out in geostationary orbit.
78.08 Sure, there’s a tiny delay due to the
79.84 distance the signal has to travel, but
81.52 even with that, remote pilots can
83.28 control the Reaper from thousands of
84.88 miles away with incredible precision.
88.56 But that’s not all. The MQ9 Reaper also
91.119 needs to fly with precision, which is
93.119 why the pilot uses an image intensified
95.28 TV camera. This helps in low light
97.68 environments where visibility is
99.119 limited. Next, there’s the laser target
101.799 designator. It’s used to mark targets
104.0 for laserg guided munitions like the
105.6 GB12 Paveway, which rely on laser
108.079 guidance for pinpoint accuracy. That’s
110.56 where the laser rangefinder comes in. It
112.88 helps estimate the distance to a target,
114.96 providing critical data for precision
116.72 strikes. Moving on, the Reaper is
118.88 equipped with an infrared sensor for
120.56 thermal imaging. This is especially
122.88 useful at night or in poor visibility
125.0 conditions. It’s a powerful tool because
127.2 it can detect the heat signatures of
128.959 vehicles, people, and even animals. This
131.68 helps in identifying hidden or disguised
133.92 objects that might otherwise go
135.44 unnoticed. As mentioned, it’s equipped
137.44 with a laser designator, which allows it
139.12 to track and guide its gravity weapon to
140.959 a moving vehicle.
142.36 [Music]
144.08 And finally, just behind the satcom dish
146.239 are the communication data links which
148.0 handle more localized control. Above
150.8 that, you’ll spot the C-band antennas.
153.28 These handle short-range line of sight
155.36 communication when the drones operating
157.28 closer to base. But what truly makes the
159.92 Reaper stand out is its weapon system.
162.4 Under its wings, it carries an array of
164.16 deadly precisiong guided munitions,
165.92 allowing it to strike with incredible
167.599 accuracy. The most commonly used weapon
170.0 is the AGM Hellfire Missile. A small but
173.04 highly effective guided weapon designed
175.2 to take out enemy vehicles, main battle
177.44 tanks, fortified bunkers, or even
180.44 individuals. When the operator selects a
182.8 target, the Hellfire missile is locked
184.56 onto it using a laser radar or GPS
186.959 guidance system, depending on the
189.12 specific version being used. If the
191.36 target is being tracked by a laser
192.959 designator, the missile will home in on
195.12 the laser reflection, meaning it will
197.12 follow the exact point the laser is
198.8 marking, even if the target is
200.92 moving. This makes it incredibly
203.04 effective for striking fastmoving
204.72 vehicles or enemy positions in dense
206.879 urban
207.959 environments. Once fired, the solid fuel
210.64 rocket motor ignites and the missile
212.4 launches off the drone’s wing pylon with
214.319 a burst of speed, accelerating toward
216.56 its target over 950 mph. It doesn’t rely
220.879 on brute force like a bomb. Instead,
222.879 it’s designed to hit with pinpoint
224.64 accuracy, delivering a high explosive
227.2 warhead right where it’s
230.92 needed. The Reaper also carries GBU12
234.239 Payway 2 bombs, which are laserg guided
236.879 and capable of hitting reinforced
238.4 structures and GBU38G dams, which rely
241.76 on GPS targeting for pinpoint accuracy,
244.48 even in bad weather.
247.439 This is where the AGMR9X, nicknamed the
250.239 ninja missile, changes the game.
252.64 Engineers stripped away the explosive
254.4 warhead found in standard Hellfire
256.32 missiles and replaced it with something
258.4 straight out of a spy thriller with six
261.04 razor sharp extendable blades. Think of
264.0 it as a 100 lb flying guillotine, not a
267.24 bomb. While official specs are closely
269.68 guarded, sources claim each blade
271.6 stretches roughly 18 in, creating a kill
273.919 zone of just 3 ft. To put that in
276.479 perspective, about the width of a
278.24 compact car. Now, compare that to the
280.72 50ft blast radius of a conventional
282.8 hellfire, and you see why this
284.639 innovation matters. In a real world
287.36 scenario, a high-v value target slips
289.6 through a busy city street surrounded by
291.68 civilian cars. A traditional hellfire
294.32 strike here would turn the scene into a
296.0 fireball, risking dozens of lives. But
299.12 with the Ninja Missile and MQ9 Reaper
301.28 drone circling overhead weights
302.96 patiently, where the moment is right, it
304.96 launches the weapon. No explosion
306.88 follows, just the eerie thunk as the
308.56 missile deploys its blades mid-flight.
311.12 The titanium swords slice through the
313.52 target’s vehicle like a hot knife
315.039 through butter, neutralizing the threat
317.12 with brutal efficiency. This lets the
319.52 passengers in nearby cars might hear the
321.44 impact, but they drive away unharmed.
324.479 But critics, however, question whether
326.16 any remotec controlled assassination can
328.16 ever truly be ethical. From inside the
330.639 command center, this is how he fires the
332.4 missiles. He uses a thumb stick to zoom
334.56 in on a heat signature, locking onto the
336.919 target. When he’s ready, there’s a
338.96 trigger button just below the
341.639 joystick. A simple squeeze launches the
344.16 weapon, guiding it directly to its
345.84 intended target. These enemy targets
348.479 firing at the MQ9 reappear, clearly lit
351.199 up on the screen, as you can see here.
353.6 Even for civilians, there are countless
355.36 bad actors targeting our computers,
357.68 which is why we need a defense
359.199 mechanism, just like the MQ9
361.28 multi-targeting radar
363.16 system. Similarly, this VPN identifies
366.08 and blocks suspicious email with a
367.84 harmful download link. In this case, it
369.84 will alert you immediately. Now, take a
372.16 look at my Netflix account. As you can
373.919 see, I’m currently in Norway. To switch
376.479 to a US server, all I have to do is
378.479 click here, refresh, and boom, you’re
380.72 now accessing Netflix US. Beyond that,
383.44 it includes a robust antivirus software
385.6 to shield your devices from viruses,
387.68 malware, and tracking by ads, bots, or
390.24 third parties. Finally, with Surf
392.24 SharkVPN, a single subscription covers
394.639 not just you, but also your friends, or
396.56 even your entire city if you wanted. Go
399.039 to our link
401.4 surf.com/itelly. by buying through the
403.28 promo link and using the code AI telly
405.44 you will get four extra months free
407.12 assured by a 30-day money back
409.24 guarantee. Now picture that this human
411.52 stretching their arms out except this
413.44 wingspan is a massive 66 ft wide. That’s
416.56 longer than a two full-size school bus.
418.639 Standing next to them, you’d notice
420.319 they’re about 36 ft long from head to
422.24 toe. About the same length as two SUVs
424.96 parked bumper to bumper. But when they
427.199 stand tall, they reach 12.5 ft high
430.319 taller than a basketball hoop. Now,
432.479 that’s one seriously impressive figure
434.16 for a
435.24 drone. Flying an MQ9 Reaper drone isn’t
438.319 a oneperson job. It requires the launch
440.479 crew, ground data terminals, and the
442.4 ground control station. On the ground in
444.88 a forward air base, the launch crew
446.72 preps the drone for
448.28 flight. Nearby, the ground data
450.4 terminals link the aircraft operators
452.479 located thousands of miles away in
454.24 another country.
456.16 Then there’s the ground control station,
457.919 a dimly lit command center where pilots
460.08 and sensor operators guide the Reaper
462.16 through the sky. Let’s take a look at
464.72 how it is launched. Picture a Sunscorch
467.28 airfield near a conflict zone that is
469.12 here. The crew fuels the drone, runs
471.52 diagnostics, and triple checks every
473.52 sensor and circuit. When the Reaper
475.52 engines war the life, it’s not a pilot
477.44 in a cockpit guiding it down the runway.
479.84 It’s these technicians working in the
481.44 heat, helmets on, hands steady, sending
483.919 the 10,000lb drone into the
487.879 sky. This is what happens preparing for
490.24 takeoff. A series of automated hydraulic
492.479 actuators and motors work together to
494.319 fold the landing gear neatly into the
496.24 aircraft’s under
497.879 body. This process is designed to be
500.319 smooth and reliable, ensuring that the
502.16 gear is securely stowed away to reduce
504.08 drag during high-speed flight. As the
506.639 drone nears its destination and
508.24 initiates its descent, sensors and
510.319 control systems trigger the reverse
512.24 process. The landing gear unfolds in a
514.88 carefully coordinated sequence. The nose
517.2 gear drops down first to establish
518.959 proper alignment, followed by the main
520.719 landing gear emerging from their
522.24 compartments along the underside of the
524.12 aircraft. This coordinated action
526.32 ensures that when the MQ9 touches down,
529.2 all wheels are correctly positioned to
531.12 provide a stable and safe landing even
533.2 in challenging conditions.
535.92 This is where handoff happens. Once
538.08 airborne, control shifts thousands of
540.24 miles away to the ground control
541.88 station. This isn’t your typical office.
544.72 Screens glow in the low light, and at
546.56 the center sit two key figures, the
548.8 pilot and the co-pilot. Their hands
551.04 hover over controls that feel more like
553.04 high-tech gaming gear than instruments
554.8 of war. But let’s take a look at how to
557.6 fly this drone. The pilot’s left hand
560.32 grips the throttle. The right holds a
562.24 joystick. A gentle push with the
564.16 throttle forward and the Reaper surges
565.92 to 300 mph, which is around 480
570.68 kmh. A twist of the stick tilts the 11s,
573.519 banking the drone into a turn sharper
575.44 than a hawks. Beside the pilot, the
578.0 co-pilot watches a mosaic of live video
580.48 feeds from the Reaper’s cameras. Their
583.2 joystick isn’t only for flying, but for
586.12 hunting. A thumb stick zooms in on a
588.48 heat signature the size of a pixel. When
590.88 ready, a trigger button when squeeze
592.56 releases the weapon. If the order comes,
594.88 a single keystroke sends a missile
596.56 streaking toward its
597.959 mark. But none of this would work
600.0 without the ground data terminals. These
602.32 systems connect the drone across the
603.92 globe, linking it from the Middle East
605.519 to the Pentagon to the ground control
607.56 station. They make sure that no matter
610.0 where the mission unfolds, the Reaper
612.32 remains in the hands of its
614.76 operators. Let’s take a look at how the
616.8 control surfaces works. The MQ9 doesn’t
619.68 use traditional ailerons and elevators
621.44 like most aircraft. Instead, it employs
624.399 11s on the trailing edge of its wings.
626.8 These versatile surfaces serve dual
628.56 functions controlling pitch and roll.
630.8 When the pilot moves the stick, these
632.48 11s work in harmony, moving together to
634.48 adjust the drone’s nose up or down for
636.48 mobility to navigate the drone to its
638.64 mission. They can also move in opposite
640.8 direction to roll the aircraft left or
642.8 right for nimble maneuvering just by
644.64 moving the sticks, sending the commands
646.64 from thousands of miles away. The rudder
649.36 located on the vertical stabilizer plays
651.44 a vital role in managing yaw, allowing
653.36 the aircraft to turn and make
654.72 coordinated directional changes. This
657.12 ensures smooth navigation during flight.
659.839 One of the MQ9 standout features is its
662.32 inverted Vtail. This innovative design
665.279 works alongside the rudder and 11s to
667.36 enhance stability and responsiveness,
669.44 making the aircraft adaptable to varying
671.36 flight
672.68 [Music]
675.079 conditions. Interestingly, unlike
677.2 fighter jets or commercial planes, the
679.04 MQ9 doesn’t rely on traditional flaps
681.44 for lift adjustments. Instead, its long
684.0 wings optimized for efficiency and lift
686.16 combined with precise throttle control
688.16 enable smooth takeoffs and landings
689.839 without needing additional flap
691.279 mechanisms.
693.6 These elements reflect the MQ9’s
695.76 sophisticated engineering, ensuring it
697.839 remains one of the most reliable
699.36 unmanned aerial systems in operation.
701.76 Let’s take a look at what powers this
703.68 UAV. The MQ9 Reaper engine breathes in
706.8 air through an intake located right
708.399 above the propeller from this inlet. As
710.8 the aircraft moves forward, air
712.56 naturally flows into this opening.
715.04 Inside is the honey well. The engine
716.8 uses a compressor to pull that air in
718.64 and squeeze it, increasing its pressure.
721.839 Once the air is compressed, it’s mixed
723.68 with fuel and ignited in the combustion
726.12 chamber. This explosion of hot gases
728.72 creates energy, spinning the turbine and
730.8 turning the propeller shaft at the
733.079 back. That’s what keeps the drone moving
735.44 forward and flying high. So, even though
737.839 we say the engine sucks air, it’s really
739.519 the forward motion of the drone combined
741.44 with the compressor inside that draws
743.2 air in and turns it into
745.16 power. All the power for the MQ9 Reaper
748.079 comes from nearly five fuel tanks. The
750.399 first fuel tank is located at the front,
752.24 followed by tank 2, tank 3, and
754.24 additional wing fuel tanks that help
756.0 distribute the load. Inside, the Reaper
758.399 holds about 4,000 lb, which is around
760.8 602 g of fuel. But that’s not all. When
764.12 needed, it can carry extra fuel in
766.639 external tanks, adding another 1,500 lb
770.16 to extend its endurance even further.
772.639 With this fuel capacity, the MQ9 Reaper
775.12 can stay airborne for nearly 2 days, an
777.76 impressive 27 to 34 hours, depending on
780.88 its mission load with a range of about
783.56 1,200 to 1,400 nautical miles without
787.279 refueling, allowing it to travel from
789.12 Saudi Arabia to Iran and back. However,
792.16 several factors can affect how long the
794.0 Reaper can stay in the air. The heavier
796.079 its payload, such as Hellfire missiles
797.92 or GBU bombs, the more fuel it consumes.
801.76 But there’s a smart way they figured out
803.44 to conserve fuel. They make it climb
805.279 this drone to an altitude of 50,000 ft
808.24 where it can glide toward its
809.6 destination, reducing engine strain and
811.92 extending its flight time. Cuz high
814.24 altitude cruising makes it even more
816.0 efficient, ensuring it can complete
817.76 longduration missions with minimal
820.92 interruptions. We make original videos
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