This could be the best video on YT showing a carrier landing, perfect camera angle, you see the control inputs and the carrier, FANTASTIC... and great piloting.
This is a bit of a rare approach for Navy pilots. It is a CATC (Carrier Air Traffic Control) day approach. The visibility was below minimums for visual approaches - unlike a night approach where there is no visible horizon. In this case when you break out of the clouds you have a horizon to help keep your wings level. This was a nice approach, although I suspect he caught a 4 wire as he was a bit fast crossing the ramp. The E-2 is a big, heavy airplane that is NOT nimble when slow (roughly 10% above stall speed), and dirty. For me, day CATC approaches were the easiest and most fun (night CATC being the hardest and never fun). You have a lot of time to get the aircraft trimmed up and with a good descent rate and lineup is generally pretty close when CATC drops you off with "Three-quarters of a mile, call the ball." Those words still cause an adrenaline rush. :)
Display of skill, especially if you keep in mind that the E2 is probably the most difficult plane to land safely on a boat. And this isn't a fair weather landing either. The perfect camera position, you can even see the meatball all the way down. Master piece of an aviation video.
Awesome. Crazy how much the controls were jumping around right near the end...obviously they aren't just gliding in smoothly...shows the pilot's skill. Go Navy!
You have to FLY this thing all the way to touchdown… those crazy control inputs are due to the “burble” which catches you near the round down. It’s worse on some days but you know it’s coming. Just fly the ball. Hummerpilot 89-96
What's fascinating is the incredible level of attention and focus it must take. There are videos of these guys landing and they don't blink their eyes from the time they see the ball until they land. And, there's a lot of throttle work going on with all of that. It's really amazing to be able to ride along and watch. Great stuff, makes us proud.
Great pilot. He was watching the artificial horizon the entire time. They were in clouds right up till about 1/2 mile out. I really enjoyed this video. As others have commented,perfect viewpoint.
@@shadowfox662 That is the Angle of Attack indicator. You want to maintain the correct pitch angle of the aircraft which is indicated by the circle being illuminated. The down-pointing chevron above it shows if your nose is pitched up too high, and a up-pointing chevron below the circle shows if your nose needs to be raised. Your rate of descent on the glide slope is determined by power, hence the throttle corrections. The approach airspeed for the Hawkeye is going to be approximately 105 Knots. You fly the aircraft at the correct approach airspeed, at a constant angle of attack, and judge the line-up as the ship is steaming forward. You are making an arrested landing, or touch and go (bouncing), on the angle deck which is 7 degrees to port from the direction the ship is steaming, so your landing center line (indicated by the vertical drop lights on the stern of the ship) is moving to the right as you approach close in. You have to anticipate this. Sometimes it means a quick, sideslip to the right. Pilots are taught: Airspeed, Line up, Angle of Attack....Airspeed, Line up, Angle of Attack....Airspeed, Line up, Angle of Attack... THUMP. There, you just made an arrested landing on an Aircraft Carrier at sea. That wasn't so hard, was it?
@@EdwardTBurke-pv3qr Why don't the ships have a bow skeg that allows the landing deck to point directly forward for landing? I mean, you could slip the ship to starboard, and therefore remove the landing deck angle. Might need asymmetric thrust on the ship's screws (more steam on the starboard screws) to keep everything in balance. On launch, the ship could be 'straightened out', *or not.* Of course, it would take away 1/3 of the fun of landing. Maybe I've read 'they' want a missed wire to result in aircraft leaving the deck at an angle to avoid running over the downed plane.
@@walterrichmond6251 Well, I was a Airborne/Air Assault in the Army Guard....My Huey pilots decided to take me and some buddies up to 3,000 feet and tour North Jersey as we hung under the helicopters. We were hooked up on ropes to practice an extraction...was supopesed to be a quick lift to safety.....Nam Vet pilots..hehe Carrier Duty is certainly more....strict.
Got to land on the Chucky V in a C-2. Had to circle the boat because some zero got stuck on the the cargo pallet climbing back from the cockpit. We boltered on the first try, felt the wires go under the wheels. Seemed like forever for the engines to spool up, thought we were going in the water. Had a successful trap on the second attempt, the deceleration was awesome. I’ll never forget.
They say nothings harder to land than the Hawkeye. I think it’s the size, wingspan and the distance from the pilot to the hook behind you- it’s much farther back than a jet. Bravo Zulu!
Man do I miss the Navy. I was stationed on an Adams Class Destroyer the John King and we would plane guard for one of the carriers in our battlegroup the Kitty Hawk or Coral Sea back in the late 80's.
I understand dynamic elevator movement for airspeed control. I don't understand constant dynamic aileron movement for directing the nose laterally to bracket the target. Is adverse yaw eliminated on the E-2C? If coordinated then lots of mini Dutch rolls. Why not just use the anti-turn control, the rudder alone, dynamically and proactively to bracket (hold perfectly) the target between his legs. Using that short nose for alignment would be a 45 degree crab. Even if the ball business is like ILS, the rudder is still the less problematic yaw control. Aileron is bank control and we don't want bank and turn. Probably a computer thing.
This is just a guess but the engines on the E-2 are identical which means they both spin in the same direction causing a yaw movement whenever the throttle is adjusted requiring rudder input to be used to counteract this yaw. Therefore trying to coordinate rudder inputs to correct for the engines and for an inperfect alignment might be difficult for pilots or might not be as effective as using roll due to adverse yaw because of the AoA
Also, E-2 engines are very powerful for the aircraft (a Navy requirement). The turbine section, at something in excess of a constant 13,000 rpm, powers huge 13-foot props through a reduction gearbox at, if I remember correctly, a constant 1138 RPM. Cockpit power levers control thrust not with throttle or turbine speed, but by changing the prop blade pitch angle and all power changes are felt instantaneously. You'll see the pilots moving those power levers quite a lot, especially as they get in close, and the E-2 has not yet had, though I believe it is planned for the near future, any sort of automatic or computer-controlled landing capabilities. Pilots have to continuously correct aileron, elevator, trim, power, and rudders.
Freakin Awesome , I always considered dropping an E2 or C2 onto a carrier way cooler than any fighter or attack jet. Why the miniscule amount of views? This Vid is better than the other S2 Vid that has 284k views.
And what we can't see is the pilot at the same time is constantly working the rudder pedals with his feet - every change to the power levers (those are in his right hand) requires rudder correction.
I was in the 82Airborne Division. I was in a Bradley Fighting Vehicle. I had cannon's, machine guns, and the T. O. W. Tube launched, optically tracked, WIRE guided missile. I noticed just how you were so concentrated you were on your approach. That's just how concentrated you have to be to fire and fly that missile. Our control's in the old m-901 were similar to your flight controls. Thank you for your service my Navy Brethren. 🤯😵
What are the E-2C / C-2 procedures for unable to make a normal arrested landing? For the fighters I understand that if unable to make an arrested landing for whatever reason, they either divert, make a barricade landing, or eject near the ship in that order of preference. But E-2C can't do the second and third thing right? Also an E-2C is far more valuable than any fighter. So what do you do if you can't land and diverting is not an option?
Interesting how the C2/E2s dont go full power on touchdown like the jetbois. I guess with wings like that and upward tilted turboprops, you've got plenty of time to come back up on the props. Epic view!
Yeup, you have instantaneous power from those T-56's because all you are doing is changing blade angle. The engines are already spun up. And its pretty impressive when all 9200 HP kicks in (Old school T-56-425 with the 4 bladed HS props. Great vid! Now an old former hummer guy 89-96'.
Geez is every little micro correction necessary? That's just crazy how much the yoke has to move back and forth and side to side while adjusting speed. Crazy reflexes.
Yes it is necessary because the pilot needs to land on a very specific spot on the carrier deck and the E-2 doesn't have an FCS system like the Hornet or F-35 and so needs more direct control from the pilot
He constantly puts in corrections, to keep the aircraft aligned (left/right) to the landing deck, on speed, and on the glide path to intercept the arresting cables. And then there are also constant gusts of wind for which he has to correct.
I sure thought those expensive planes had automated landing systems. I've watched a few vids now and every E2 landing looks like the pilot is constantly struggling to stay on glideslope. They seem to require A LOT of work from the pilot. That looks hairy every time. Some great flying, that's for sure...
Even if they have ACLS that doesn't mean they can always use it. Bad weather can make ACLS very dangerous as the only reference the ACLS system has to where the boat is, is the boat itself so when the boat is rocking back and forth and side to side the plane can make some pretty violent corrections which could result in crashing into the back of the boat or stalling before you get to the boat and sinking into the ocean. For this reason you need to be able to consistently land on the carrier without glideslope assistance that way if the system fails or if the boat is too unstable to use ACLS with you are able to. This is why pilots are required to have at least 1 day trap a week before any night operations that way they can be sure they're ready
I notice he idles the throttle at the moment before touchdown trather than throttle up for a potential bolter. But maybe I can't see it as his body blocks the shot on touchdown.
He doesn't set it to idle before touchdown the throttle goes farther back than that for idle Also if you look closely you can see him bring it back to idle right before the plane starts rolling back to release the wire
@@treeamble585 He actually pulls it into reverse after landing to help clear the hook from the cable. Pulling the throttles to idle on a turboprop helps it land and the throttle response is instantaneous compared to a jet so they can throttle back up in case of a bolter without a problem.
@@nocalsteve That would make sense actually, never really considered that a Turboprop would be "light" enough and have enough engine response to be able to do that
@@treeamble585 These are direct-shaft turbines that run at a constant RPM, the propellers are at full speed even when it’s parked on deck. This means power is instantly available and the propeller blades just have to pitch in response to power changes.
It's not fighting with the yoke as much as it is correcting the aircraft. Remember that landing on the carrier is hard because you're over the ocean which means strong winds and the deck is angled 15 degrees off of the carrier heading so even without accounting for wind gusts that will blow you off course you'll never get a perfectly positioned glideslope and you have to constantly adjust your position.
It's because they had just entered the burble effect of the carrier where the carrier leaves a turbulence effect that the pilot has to correct for before touching down
@@haywoodyoudome I mean to most people who don't understand even basic aerodynamics all turbulence means to them is unstable air on their airline flight and they don't know that lots of different things can cause it so not captain obvious, more like Lieutenant JG Know-It-All :)
@@haywoodyoudome Always happy to provide a chuckle across the internet. Now if you'll excuse me a fully grown man just called DCS a video game and I need to complain for 40 minutes about why it's a flight sim and not a video game even though DCS can be used either way and usually is referred to as a game because it's simpler to say and has a more appropriate connotative meaning to what DCS is as a whole
Something I’ve been wondering about: it is said that in the Air Force the hot-shot flyers go to the fighters and then down the list they get to fly “trash haulers”. But in the Navy the most challenging part of flying is the landing on the carrier. During the Vietnam war the highest heart rates were recorded from aviators during the approach and landing, not when they were dodging AAA and missiles over Hanoi. So those guys and gals who fly the heavies in the Navy, do they not have the most challenging job?
Well, sort of, when you just count the carrier traps. Especially when you compare an older aircraft like an E2C to an F-18, which has a lot of automated systems to help the pilot. But when it comes to all the rest of the flying, operating all the weapons systems, the tactics, etc., flying a fighter is far more challenging.
@@MrFloppyHare Don't forget that due to being a turbo prop with identical engines on both sides the throttle inputs change the yaw rate and so you're also constantly adding rudder to account for the changing yaw
That comes from a study that was done during Vietnam that measured pilot’s stress levels. They found that landing on a carrier at night was more stressful than combat flying.
@@nocalsteve Maybe cause you bombed vietnamese peasants from high above. What should happen to these pilots at that time? Did the Vietcong had AA Missiles? Or own jets? No?
Constant changes to the power setting, constant manipulation of the yoke, and ongoing pickle button usage. How heavy is that yoke on landing - it would seem to be much easier and more precise with both hands? Obv you only get to use one hand!
Not a pickle button, pickle buttons are the button that releases ordinance on an aircraft (Missiles and bombs on planes like the F-16 and F-15, Bombs, rockets, and A/G missiles on planes like the F/A-18 and F-14) The control you're referring to is the trim hat which changes the center position of the pitch and yaw axis for aircraft on the E-2 and on other aircraft pitch and roll.
RFS (Reality Flight Simulator if you didn't know) It's the only flight simulator in the world that requires a bachelors degree plus specialized training to fly in this aircraft
From a different reply on a different comment I heard it was because the Turboprop engines can change power settings near instanteously due to the engine itself always running at 100% RPM and the only thing needing to be changed is the pitch of the props (Something I read up on and can confirm to be true) the pilot will instead go into full reverse to help slow the plane down more easily and release the hook from the wire
This could be the best video on YT showing a carrier landing, perfect camera angle, you see the control inputs and the carrier, FANTASTIC... and great piloting.
I may have to agree.
@@TH33QUALIZ3R Me too. Outstanding
You can even see the small rudder inputs too.
I was watching that VSI all the way down! Nice job boys !
This is a bit of a rare approach for Navy pilots. It is a CATC (Carrier Air Traffic Control) day approach. The visibility was below minimums for visual approaches - unlike a night approach where there is no visible horizon. In this case when you break out of the clouds you have a horizon to help keep your wings level.
This was a nice approach, although I suspect he caught a 4 wire as he was a bit fast crossing the ramp. The E-2 is a big, heavy airplane that is NOT nimble when slow (roughly 10% above stall speed), and dirty.
For me, day CATC approaches were the easiest and most fun (night CATC being the hardest and never fun). You have a lot of time to get the aircraft trimmed up and with a good descent rate and lineup is generally pretty close when CATC drops you off with "Three-quarters of a mile, call the ball." Those words still cause an adrenaline rush. :)
3, 2, 4, 1, could be worse!
Display of skill, especially if you keep in mind that the E2 is probably the most difficult plane to land safely on a boat. And this isn't a fair weather landing either. The perfect camera position, you can even see the meatball all the way down. Master piece of an aviation video.
I completely agree but where do you see the meatball? The carrier isn't in sight until 1:38 and I can't make out the ball until 10 seconds later.
i was there, "little right nose down"
Meatball, line up, angle of attack.
Hes constantly moving the controls. Thats some serious focus. Awesome.
Awesome. Crazy how much the controls were jumping around right near the end...obviously they aren't just gliding in smoothly...shows the pilot's skill. Go Navy!
You have to FLY this thing all the way to touchdown… those crazy control inputs are due to the “burble” which catches you near the round down.
It’s worse on some days but you know it’s coming. Just fly the ball.
Hummerpilot 89-96
What a glorious Magnum Stache.
What's fascinating is the incredible level of attention and focus it must take. There are videos of these guys landing and they don't blink their eyes from the time they see the ball until they land. And, there's a lot of throttle work going on with all of that. It's really amazing to be able to ride along and watch. Great stuff, makes us proud.
Yeah, the thing I noticed the most was all of the small wheel and throttle adjustments. Great pilots.
That looks like so much fun. Flying an unstable aircraft onto a chaotic platform. I can't think of anything more satisfying.
It's kind of like being married?
@@victoreous626 lol... depends on the spouse I guess
Skills at his best, the way he controls that throttle is just magic...
Such professionalism with these Navy aviators. This is a plane I would have loved to learn how to fly. Fly NAVY!
Wow on short final you can really see the effect of the turbulence created by the boat
Bloody hell , I’m sitting in my armchair in my lounge room watching this, and my heart rate was through the roof lol damn they are cool buggers
@Lark i realize my like of your comment is 1 year old.
I was also taken aback watching the focus and effort the pilot whilst in 'the groove'. They must release a huge breath after it's over.
@@davebartosh5 I'd be bummed that the flight was over and had to sit on the ship bored out of my mind until the next op.
Man..I know how big carriers are, but when you're coming in to land it just looks so TINY!
Great pilot. He was watching the artificial horizon the entire time. They were in clouds right up till about 1/2 mile out. I really enjoyed this video. As others have commented,perfect viewpoint.
Excellent viewing. Hats off to these navy aviators. Keeping us safe, thank you for your service.
👍to the pilot. Awesome. Great display of skills. I had an adrenaline rush; felt like i was with them in the cockpit. Thanks for posting!
Damn that is some amazing piloting skills, who ever this dude is props to you man ! no pun intended !
It is always very impressive for me to land on this small island, a maximum of flying skills. Thanks for this video
Oh my ,, serious yoke movement getting it down and so much throttle action.. never new .
These dudes are BADASS!!!!! Our Military is awesome because of guys like this!
The amount of control input is astounding.
Landing to deck without the HUD. brave
Pilot has the meatball indicator on the dash of the instrument panel to show his glide slope angle
@@shadowfox662 That is the Angle of Attack indicator. You want to maintain the correct pitch angle of the aircraft which is indicated by the circle being illuminated. The down-pointing chevron above it shows if your nose is pitched up too high, and a up-pointing chevron below the circle shows if your nose needs to be raised. Your rate of descent on the glide slope is determined by power, hence the throttle corrections. The approach airspeed for the Hawkeye is going to be approximately 105 Knots. You fly the aircraft at the correct approach airspeed, at a constant angle of attack, and judge the line-up as the ship is steaming forward. You are making an arrested landing, or touch and go (bouncing), on the angle deck which is 7 degrees to port from the direction the ship is steaming, so your landing center line (indicated by the vertical drop lights on the stern of the ship) is moving to the right as you approach close in. You have to anticipate this. Sometimes it means a quick, sideslip to the right. Pilots are taught: Airspeed, Line up, Angle of Attack....Airspeed, Line up, Angle of Attack....Airspeed, Line up, Angle of Attack... THUMP. There, you just made an arrested landing on an Aircraft Carrier at sea. That wasn't so hard, was it?
@@EdwardTBurke-pv3qr Why don't the ships have a bow skeg that allows the landing deck to point directly forward for landing? I mean, you could slip the ship to starboard, and therefore remove the landing deck angle. Might need asymmetric thrust on the ship's screws (more steam on the starboard screws) to keep everything in balance.
On launch, the ship could be 'straightened out', *or not.*
Of course, it would take away 1/3 of the fun of landing.
Maybe I've read 'they' want a missed wire to result in aircraft leaving the deck at an angle to avoid running over the downed plane.
AoA indicator, old but gold. Vietnam War eras have had this and the still use it. Incredible!
The co-pilot just sitting there watching their fate without any control also requires tremendous bravery and faith. lol
This is à qualification landing so he can't make anything
That is what the pilot not flying does along with handling the radios.
The NFO's in the back are the brave ones.
I was the enlisted radar operator in the back of the E2-C for 222 landings on the USS America in the mid-70s. TOTAL trust in the guys up front.
@@walterrichmond6251 Well, I was a Airborne/Air Assault in the Army Guard....My Huey pilots decided to take me and some buddies up to 3,000 feet and tour North Jersey as we hung under the helicopters. We were hooked up on ropes to practice an extraction...was supopesed to be a quick lift to safety.....Nam Vet pilots..hehe Carrier Duty is certainly more....strict.
YOY CAN WATCT IT A THOUSAND TIMES... !!! A MASTERPIECE !!! ...
He wouldn’t have a perfect landing without the mustache
The mighty mustache burns brightly within the hearts of all brave souls.
Got to land on the Chucky V in a C-2. Had to circle the boat because some zero got stuck on the the cargo pallet climbing back from the cockpit. We boltered on the first try, felt the wires go under the wheels. Seemed like forever for the engines to spool up, thought we were going in the water. Had a successful trap on the second attempt, the deceleration was awesome. I’ll never forget.
BEAUTIFUL
They say nothings harder to land than the Hawkeye. I think it’s the size, wingspan and the distance from the pilot to the hook behind you- it’s much farther back than a jet. Bravo Zulu!
With great mustache comes great responsibility
Bro I swear every single Hawkeye pilot has the most lush and thick mustache ever
Awesome to see how much input it takes to fly that thing. A good workout
Great job. Gust of wind right at the end did not phase him.
Man do I miss the Navy. I was stationed on an Adams Class Destroyer the John King and we would plane guard for one of the carriers in our battlegroup the Kitty Hawk or Coral Sea back in the late 80's.
Respect
I understand dynamic elevator movement for airspeed control. I don't understand constant dynamic aileron movement for directing the nose laterally to bracket the target. Is adverse yaw eliminated on the E-2C? If coordinated then lots of mini Dutch rolls. Why not just use the anti-turn control, the rudder alone, dynamically and proactively to bracket (hold perfectly) the target between his legs. Using that short nose for alignment would be a 45 degree crab. Even if the ball business is like ILS, the rudder is still the less problematic yaw control. Aileron is bank control and we don't want bank and turn. Probably a computer thing.
This is just a guess but the engines on the E-2 are identical which means they both spin in the same direction causing a yaw movement whenever the throttle is adjusted requiring rudder input to be used to counteract this yaw. Therefore trying to coordinate rudder inputs to correct for the engines and for an inperfect alignment might be difficult for pilots or might not be as effective as using roll due to adverse yaw because of the AoA
Also, E-2 engines are very powerful for the aircraft (a Navy requirement). The turbine section, at something in excess of a constant 13,000 rpm, powers huge 13-foot props through a reduction gearbox at, if I remember correctly, a constant 1138 RPM. Cockpit power levers control thrust not with throttle or turbine speed, but by changing the prop blade pitch angle and all power changes are felt instantaneously. You'll see the pilots moving those power levers quite a lot, especially as they get in close, and the E-2 has not yet had, though I believe it is planned for the near future, any sort of automatic or computer-controlled landing capabilities. Pilots have to continuously correct aileron, elevator, trim, power, and rudders.
Wow! Absolutely amazing skill!
Navy pilots are the best. Great job!
Awesome, even the throttle is constantly adjusted on landing. No easy stabilized approach like with passenger airplanes.
Freakin Awesome , I always considered dropping an E2 or C2 onto a carrier way cooler than any fighter or attack jet. Why the miniscule amount of views? This Vid is better than the other S2 Vid that has 284k views.
Not an Aviator but even I could tell it was a great landing. General bad-assery.
That’s razor focus & concentration!!
He is in CONSTANT contact with yoke and throttle - f'ing nerve-wracking!
And what we can't see is the pilot at the same time is constantly working the rudder pedals with his feet - every change to the power levers (those are in his right hand) requires rudder correction.
Bloody hell, that yoke and throttles get a workout! No wonder there's no paint left on the left side of the yolk.
The guys are just cool! Super
I was in the 82Airborne Division. I was in a Bradley Fighting Vehicle. I had cannon's, machine guns, and the T. O. W. Tube launched, optically tracked, WIRE guided missile. I noticed just how you were so concentrated you were on your approach. That's just how concentrated you have to be to fire and fly that missile. Our control's in the old m-901 were similar to your flight controls. Thank you for your service my Navy Brethren. 🤯😵
What are the E-2C / C-2 procedures for unable to make a normal arrested landing? For the fighters I understand that if unable to make an arrested landing for whatever reason, they either divert, make a barricade landing, or eject near the ship in that order of preference. But E-2C can't do the second and third thing right? Also an E-2C is far more valuable than any fighter. So what do you do if you can't land and diverting is not an option?
An amazing and precise piloting
These guys deserves ALL the money they get for this job
And I thought parallel parking was difficult.
Work on stick and throttle is terrific
The Very Best. NAVAL AVIATORS.
awesome... love watching these videos
Interesting how the C2/E2s dont go full power on touchdown like the jetbois. I guess with wings like that and upward tilted turboprops, you've got plenty of time to come back up on the props. Epic view!
Yes, with a turboprop power is instant unlike a turbine engine that requires a spool up.
Yeup, you have instantaneous power from those T-56's because all you are doing is changing blade angle. The engines are already spun up. And its pretty impressive when all 9200 HP kicks in (Old school T-56-425 with the 4 bladed HS props.
Great vid!
Now an old former hummer guy 89-96'.
Reminds me of my trucks steering haha
I wonder what watch he is wearing? I couldn’t get a good look at it. Any ideas?
Reminds me of my last flight on a Norwegian 737.
Master of the Universe
Top tier mustache btw!
Man do those guys work hard...
Wouldn't be possible without the mustache!! haha
nice watch!
Intense concentration going on there 👍🏼
plane with giant disk on back makes for a difficult landing. nice work sir.
Cool video!
Geez is every little micro correction necessary? That's just crazy how much the yoke has to move back and forth and side to side while adjusting speed. Crazy reflexes.
Yes it is necessary because the pilot needs to land on a very specific spot on the carrier deck and the E-2 doesn't have an FCS system like the Hornet or F-35 and so needs more direct control from the pilot
Bet that forearm strength is unreal.
EXCELLENT !!!...!!!EXCELLENT!!!...
Must have been case 2; seemed to be "in the groove" forever
yeah you can see the change in their yoke and throttle controls when the carrier comes into view as they switch from ILS to visual
Those pilots trim button thumb must be massive
That's a cool job
Amazing skills. Why does the stick moves like crazy?
He constantly puts in corrections, to keep the aircraft aligned (left/right) to the landing deck, on speed, and on the glide path to intercept the arresting cables. And then there are also constant gusts of wind for which he has to correct.
Totally amazing. I would fly with him anytime
impressive
Talk about fucking intense!!!
so amazing...
Steel balls. Great Job.
Beautiful.
very smooth in the groove ! OK !
I sure thought those expensive planes had automated landing systems. I've watched a few vids now and every E2 landing looks like the pilot is constantly struggling to stay on glideslope. They seem to require A LOT of work from the pilot. That looks hairy every time. Some great flying, that's for sure...
Imagine having to work like that in the dead of night and in a storm.
Even if they have ACLS that doesn't mean they can always use it. Bad weather can make ACLS very dangerous as the only reference the ACLS system has to where the boat is, is the boat itself so when the boat is rocking back and forth and side to side the plane can make some pretty violent corrections which could result in crashing into the back of the boat or stalling before you get to the boat and sinking into the ocean. For this reason you need to be able to consistently land on the carrier without glideslope assistance that way if the system fails or if the boat is too unstable to use ACLS with you are able to. This is why pilots are required to have at least 1 day trap a week before any night operations that way they can be sure they're ready
Nice video. Thought he was long, but caught a wire.
I notice he idles the throttle at the moment before touchdown trather than throttle up for a potential bolter. But maybe I can't see it as his body blocks the shot on touchdown.
He doesn't set it to idle before touchdown the throttle goes farther back than that for idle
Also if you look closely you can see him bring it back to idle right before the plane starts rolling back to release the wire
@@treeamble585 He actually pulls it into reverse after landing to help clear the hook from the cable. Pulling the throttles to idle on a turboprop helps it land and the throttle response is instantaneous compared to a jet so they can throttle back up in case of a bolter without a problem.
@@nocalsteve That would make sense actually, never really considered that a Turboprop would be "light" enough and have enough engine response to be able to do that
@@treeamble585 These are direct-shaft turbines that run at a constant RPM, the propellers are at full speed even when it’s parked on deck. This means power is instantly available and the propeller blades just have to pitch in response to power changes.
@@nocalsteve I know I've been reading the E-2C NATOPS. Interesting read
wow thats a lot of control movement
What's the dark button he pushes with his left thumb?
Elevator trim. "Trims out" the forward or back pressure on the yolk as needed.
Flying the meatball to a tee. Good job, mustache!
These are real men! Amazing.
I'll never be able to do that. That's for sure!
What is he doing with his right hand? Is that to adjust the props?
Throttle control over the engines
I can barely see the road from the heat coming up.
thanks 4 this i was the radar man on an eE2a callsign seabat in my earphones : "seabat put the tail hok down"
@Tucker Gary - Were you a pilot or an RO ("radar man"), and Seabats - they were VAW-111 Seabats at Miramar, right?
Seems to fight with yoke a lot- is that normal.
It's not fighting with the yoke as much as it is correcting the aircraft. Remember that landing on the carrier is hard because you're over the ocean which means strong winds and the deck is angled 15 degrees off of the carrier heading so even without accounting for wind gusts that will blow you off course you'll never get a perfectly positioned glideslope and you have to constantly adjust your position.
0:00 to 2:10 steady....steady.... 2:12 start shaking the controls all over the place in hopes of not becoming a fireball.
It's because they had just entered the burble effect of the carrier where the carrier leaves a turbulence effect that the pilot has to correct for before touching down
@@sonniedae6398 No shit, really? Thanks Captain Obvious.
@@haywoodyoudome I mean to most people who don't understand even basic aerodynamics all turbulence means to them is unstable air on their airline flight and they don't know that lots of different things can cause it so not captain obvious, more like Lieutenant JG Know-It-All :)
@@sonniedae6398LMFAO
LT JG Know-it-all.... awesome!
@@haywoodyoudome Always happy to provide a chuckle across the internet. Now if you'll excuse me a fully grown man just called DCS a video game and I need to complain for 40 minutes about why it's a flight sim and not a video game even though DCS can be used either way and usually is referred to as a game because it's simpler to say and has a more appropriate connotative meaning to what DCS is as a whole
Something I’ve been wondering about: it is said that in the Air Force the hot-shot flyers go to the fighters and then down the list they get to fly “trash haulers”. But in the Navy the most challenging part of flying is the landing on the carrier. During the Vietnam war the highest heart rates were recorded from aviators during the approach and landing, not when they were dodging AAA and missiles over Hanoi. So those guys and gals who fly the heavies in the Navy, do they not have the most challenging job?
Well, sort of, when you just count the carrier traps. Especially when you compare an older aircraft like an E2C to an F-18, which has a lot of automated systems to help the pilot. But when it comes to all the rest of the flying, operating all the weapons systems, the tactics, etc., flying a fighter is far more challenging.
@@MrFloppyHare Don't forget that due to being a turbo prop with identical engines on both sides the throttle inputs change the yaw rate and so you're also constantly adding rudder to account for the changing yaw
The ‘stache can land it blind!
damm i almost piss in my pants watching the landing 😂
A retired Apollo astronaut once told me that landing on an aircraft carrier is more stressful than combat flying.
That comes from a study that was done during Vietnam that measured pilot’s stress levels. They found that landing on a carrier at night was more stressful than combat flying.
@@nocalsteve Maybe cause you bombed vietnamese peasants from high above. What should happen to these pilots at that time? Did the Vietcong had AA Missiles? Or own jets? No?
Constant changes to the power setting, constant manipulation of the yoke, and ongoing pickle button usage. How heavy is that yoke on landing - it would seem to be much easier and more precise with both hands? Obv you only get to use one hand!
Not a pickle button, pickle buttons are the button that releases ordinance on an aircraft (Missiles and bombs on planes like the F-16 and F-15, Bombs, rockets, and A/G missiles on planes like the F/A-18 and F-14) The control you're referring to is the trim hat which changes the center position of the pitch and yaw axis for aircraft on the E-2 and on other aircraft pitch and roll.
OMG, Unglaublich !
That was a good workout for my mirror neurons.
What a boss.
What flight simulator is this
RFS (Reality Flight Simulator if you didn't know) It's the only flight simulator in the world that requires a bachelors degree plus specialized training to fly in this aircraft
don't you set TOGA for the touchdown ? is it just for fighter jets ?
From a different reply on a different comment I heard it was because the Turboprop engines can change power settings near instanteously due to the engine itself always running at 100% RPM and the only thing needing to be changed is the pitch of the props (Something I read up on and can confirm to be true) the pilot will instead go into full reverse to help slow the plane down more easily and release the hook from the wire
@@sonniedae6398 oh yeah actually I heard about this I think you're right