Vinay Mishra
Indian Institute for Aeronautical Engineering and Information Technology (IIAEIT), Pune
Vinay Mishra has created this Calculator and 300+ more calculators!
Maiarutselvan V
PSG College of Technology (PSGCT), Coimbatore
Maiarutselvan V has verified this Calculator and 200+ more calculators!

11 Other formulas that you can solve using the same Inputs

Load factor for a given turn radius
Load factor=sqrt(1+(((Velocity^2)/([g]*Turn Radius))^2)) GO
Velocity for a given turn radius
Velocity=sqrt(Turn Radius*[g]*(sqrt((Load factor^2)-1))) GO
Turn radius
Turn Radius=(Velocity^2)/([g]*sqrt((Load factor^2)-1)) GO
Velocity for a given turn rate
Velocity=[g]*(sqrt((Load factor^2)-1))/Turn Rate GO
Turn rate
Turn Rate=[g]*(sqrt((Load factor^2)-1))/Velocity GO
Load factor for a given pull-up maneuver radius
Load factor=1+((Velocity^2)/(Turn Radius*[g])) GO
Pull-up maneuver radius
Turn Radius=(Velocity^2)/([g]*(Load factor-1)) GO
Velocity for a given pull-up maneuver rate
Velocity=[g]*(Load factor-1)/Turn Rate GO
Pull-up maneuver rate
Turn Rate=[g]*(Load factor-1)/Velocity GO
Weight for a given load factor
Weight=Lift force/Load factor GO
Lift for a given load factor
Lift force=Load factor*Weight GO

11 Other formulas that calculate the same Output

Velocity of the follower after time t (Cycloidal motion)
Velocity=((Angular velocity of the cam*Stroke of the follower)/Angular displacement of the cam during out stroke)*(1-(cos((2*pi*Angle through which the cam rotates)/(Angular displacement of the cam during out stroke)))) GO
Velocity of the follower for tangent cam with roller follower(contact with straight flanks)
Velocity=Angular velocity of the cam*(Radius of the base circle+Radius of the roller)*(sin(Angle turned by cam from beginning of roller)/((cos(Angle turned by cam from beginning of roller))^2)) GO
Velocity OF A Progressive Wave
Velocity=Wavelength Of A Wave/Time Period Of Progressive Wave GO
Velocity Of The Particle
Velocity=(Quantum Number*Plancks Constant)/(Mass*Radius*2*pi) GO
Velocity due to voltage
Velocity=sqrt((2*[Charge-e]*Velocity of electron)/[Mass-e]) GO
Velocity Of Wave in String
Velocity=sqrt(Tension Of String/Mass Per Unit length) GO
Velocity OF A Progressive Wave(Using Angular Frequency)
Velocity=(Wavelength*Angular Frequency)/(4*pi) GO
Velocity OF A Progressive Wave(Using Frequency)
Velocity=Wavelength Of A Wave*frequency GO
Velocity Of A Wave(Using Wave Number)
Velocity=Angular Frequency/Wave Number GO
Velocity Of Sound In Liquid
Velocity=sqrt(bulk modulus/Density) GO
Velocity Of Sound In Solids
Velocity=sqrt(Elasticity/Density) GO

Velocity for a given pull-up maneuver radius Formula

Velocity=sqrt(Turn Radius*[g]*(Load factor-1))
v=sqrt(R*[g]*(n-1))
More formulas
Pull-up maneuver radius GO
Load factor for a given pull-up maneuver radius GO
Pull-up maneuver rate GO
Load factor for a given pull-up maneuver rate GO
Velocity for a given pull-up maneuver rate GO
Pull-down maneuver radius GO
Velocity for a given pull-down maneuver radius GO
Load factor for a given pull-down maneuver radius GO
Pull-down maneuver rate GO
Velocity for a given pull-down maneuver rate GO
Load factor for a given pull-down maneuver rate GO

At what G Do you pass out?

A typical person can handle about 5 g0 (49 m/s2) (meaning some people might pass out when riding a higher-g roller coaster, which in some cases exceeds this point) before losing consciousness.

How to Calculate Velocity for a given pull-up maneuver radius?

Velocity for a given pull-up maneuver radius calculator uses Velocity=sqrt(Turn Radius*[g]*(Load factor-1)) to calculate the Velocity, The Velocity for a given pull-up maneuver radius of an aircraft is dependent upon the maneuver radius and load factor of the aircraft. Velocity and is denoted by v symbol.

How to calculate Velocity for a given pull-up maneuver radius using this online calculator? To use this online calculator for Velocity for a given pull-up maneuver radius, enter Turn Radius (R) and Load factor (n) and hit the calculate button. Here is how the Velocity for a given pull-up maneuver radius calculation can be explained with given input values -> 24.25694 = sqrt(300*[g]*(1.2-1)).

FAQ

What is Velocity for a given pull-up maneuver radius?
The Velocity for a given pull-up maneuver radius of an aircraft is dependent upon the maneuver radius and load factor of the aircraft and is represented as v=sqrt(R*[g]*(n-1)) or Velocity=sqrt(Turn Radius*[g]*(Load factor-1)). Turn Radius is the radius of the flight path causing the airplane to turn in a circular path and Load factor is the ratio of the aerodynamic force on the aircraft to the gross weight of the aircraft.
How to calculate Velocity for a given pull-up maneuver radius?
The Velocity for a given pull-up maneuver radius of an aircraft is dependent upon the maneuver radius and load factor of the aircraft is calculated using Velocity=sqrt(Turn Radius*[g]*(Load factor-1)). To calculate Velocity for a given pull-up maneuver radius, you need Turn Radius (R) and Load factor (n). With our tool, you need to enter the respective value for Turn Radius and Load factor and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Velocity?
In this formula, Velocity uses Turn Radius and Load factor. We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Velocity=Wavelength Of A Wave/Time Period Of Progressive Wave
  • Velocity=Wavelength Of A Wave*frequency
  • Velocity=(Wavelength*Angular Frequency)/(4*pi)
  • Velocity=Angular Frequency/Wave Number
  • Velocity=sqrt(Tension Of String/Mass Per Unit length)
  • Velocity=sqrt(bulk modulus/Density)
  • Velocity=sqrt(Elasticity/Density)
  • Velocity=sqrt((2*[Charge-e]*Velocity of electron)/[Mass-e])
  • Velocity=(Quantum Number*Plancks Constant)/(Mass*Radius*2*pi)
  • Velocity=((Angular velocity of the cam*Stroke of the follower)/Angular displacement of the cam during out stroke)*(1-(cos((2*pi*Angle through which the cam rotates)/(Angular displacement of the cam during out stroke))))
  • Velocity=Angular velocity of the cam*(Radius of the base circle+Radius of the roller)*(sin(Angle turned by cam from beginning of roller)/((cos(Angle turned by cam from beginning of roller))^2))
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