Not in game though ^^"
So i’m interested by your source.
Not in game though ^^"
So i’m interested by your source.
Because the rocket is flying in space with some kind of angle of attack. And she has to constantly deflect the steering wheels.Since at AoA = 0 its lifting force is zero
It was a misconception on his behalf.
A minimum launch range is the technical limit the R27 can be launch (just leave the rail)
It is the range the R27ER can receive signal guidance, update its fir control and launch.
It means nothing, whether the missile while hit a target.
I did not asked you, but the other guy.
Let him answer please i wanna see the source.
Wrong.
The a missile is flying at over the speed of sound. It needs zero angle of attack to generate lift.
Can you find a pure supersonic missile as this sketch drawing with static angles of attack built in?
I already have you dead in the water, look up what a cambered airfoil is.
What’s that?
You don’t understand what you’re writing about
https://cdn.discordapp.com/attachments/935575539027181619/1144327513837932647/image.png?ex=663db54b&is=663c63cb&hm=ac493028a90b43331a971fe1f08a80b3b729d7329b5d2c4b3aa831505fdd5400&
M=2, Lift=0
The Su-27SK Manual also says
Give it
I’m asking to SEE the Source, not being told to check one.
No pictures of a book cover.
You are unable to show any supersonic missile with built in deflection at any of angle of attack like your sketch drawing. if it flies supersonic, they do not need it.
Your logic is flawed, right from the gate.
Lift can be generated AoA = 0. It is already done in subsonic & transonic aircraft especially fighters of the 4th generation.
At the bottom says positive lift at 0°angle of attack.
Although it says only for the rear hemisphere
There’s no positive camber on missile fins though? Am I missing something?
The positive camber is what’s producing the lift, since it creates a low pressure region above the wing, lifting it…
We don’t have a plane, but a rocket. Whose profile is optimized for supersonic flight. At M=3.5 I even had a negative lift
what does the rocket look like
No, because are not there to provide lift. They are flight control surfaces and only deflect just enough airflow to rotate the aircraft or missile in three dimensions - horizontal or yaw, vertical or pitch, and longitudinal or roll.
Ah, I got confused. Thought you were trying to make the case that a missile provides lift at 0 AoA
Nevermind, scrolled up a bit
Where is this lift being produced?
Not saying your wrong, I’m just curious how this is possible since aerodynamic do change at supersonic/hypersonic flight in some ways, unless you mean zero AoA with slight deflection of the control surfaces or something?
Great you gave me the title,… : i’m asking for the bloody sentence were you gave that information from.
It’s all written there. Section 5
The missiles wings does, but it does not need camber in its wings, nor does it need to be positioned ant and angle of attack to maintain lift.
It operates on highspeed pressure (shock waves) that is why their wings have sharp edges and diamond shape.
Supersonic missile like the R27ERs wings does not respond to airflow or skin friction drag. Their lift is generated by continual shock wave energy, and course is changed by high and low shock expansions.
Their control surfaces are not airfoils and are flat do not produce lift to carry the weight of the missile. They only deflect very slightly to generate enough high and low shock waves to change attitude of flight.
Do i look like i own the document?
Give a screenshot, i’m asking for it since the start, and you turn around it.
When a supersonic airfoil is operating it uses shock to produce lift
That is why they are diamond shaped. They do not need to be angle up for lift. They are traveling much to fast to even react to airflow like conventional aircraft.
They are travelling faster than the average bullet flights