Normal force coefficient with aerodynamic normal force Solution

STEP 0: Pre-Calculation Summary
Formula Used
Normal force coefficient = Aerodynamic Normal Force/(Dynamic Pressure*Reference Area)
Cz = Z/(q*S)
This formula uses 4 Variables
Variables Used
Normal force coefficient - Normal force coefficient is the dimensionless coefficient associated with the component of aerodynamic forces along the yaw axis on an aircraft.
Aerodynamic Normal Force - (Measured in Newton) - Aerodynamic normal force is the component of aerodynamic force along the yaw axis of an aircraft.
Dynamic Pressure - (Measured in Pascal) - Dynamic Pressure is simply a convenient name for the quantity which represents the decrease in the pressure due to the velocity of the fluid.
Reference Area - (Measured in Square Meter) - The Reference Area is arbitrarily an area that is characteristic of the object being considered. For an aircraft wing, the wing's planform area is called the reference wing area or simply wing area.
STEP 1: Convert Input(s) to Base Unit
Aerodynamic Normal Force: 19 Newton --> 19 Newton No Conversion Required
Dynamic Pressure: 10 Pascal --> 10 Pascal No Conversion Required
Reference Area: 5.08 Square Meter --> 5.08 Square Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Cz = Z/(q*S) --> 19/(10*5.08)
Evaluating ... ...
Cz = 0.374015748031496
STEP 3: Convert Result to Output's Unit
0.374015748031496 --> No Conversion Required
FINAL ANSWER
0.374015748031496 0.374016 <-- Normal force coefficient
(Calculation completed in 00.004 seconds)

Credits

Created by Vinay Mishra
Indian Institute for Aeronautical Engineering and Information Technology (IIAEIT), Pune
Vinay Mishra has created this Calculator and 300+ more calculators!
Verified by Maiarutselvan V
PSG College of Technology (PSGCT), Coimbatore
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18 Aircraft Dynamics Nomenclature Calculators

Sideslip angle
Go Sideslip Angle = asin(Velocity along pitch axis/(sqrt((Velocity along Roll Axis^2)+(Velocity along pitch axis^2)+(Velocity along yaw axis^2))))
Mean Aerodynamic Chord for Propeller-Driven Airplane
Go Mean aerodynamic chord = (1/Reference Area)*int(Chord Length^2,x,-Wingspan/2,Wingspan/2)
Pitching moment coefficient
Go Pitching moment coefficient = Pitching moment/(Dynamic Pressure*Reference Area*Characteristic length)
Rolling moment coefficient
Go Rolling moment coefficient = Rolling moment/(Dynamic Pressure*Reference Area*Characteristic length)
Yawing moment coefficient
Go Yawing Moment Coefficient = Yawing Moment/(Dynamic Pressure*Reference Area*Characteristic length)
Pitching moment
Go Pitching moment = Pitching moment coefficient*Dynamic Pressure*Reference Area*Characteristic length
Rolling moment
Go Rolling moment = Rolling moment coefficient*Dynamic Pressure*Reference Area*Characteristic length
Yawing moment
Go Yawing Moment = Yawing Moment Coefficient*Dynamic Pressure*Reference Area*Characteristic length
Normal force coefficient with aerodynamic normal force
Go Normal force coefficient = Aerodynamic Normal Force/(Dynamic Pressure*Reference Area)
Aerodynamic normal force
Go Aerodynamic Normal Force = Normal force coefficient*Dynamic Pressure*Reference Area
Aerodynamic axial force
Go Aerodynamic Axial Force = Axial force coefficient*Dynamic Pressure*Reference Area
Side force coefficient
Go Side force coefficient = Aerodynamic Side Force/(Dynamic Pressure*Reference Area)
Aerodynamic side force
Go Aerodynamic Side Force = Side force coefficient*Dynamic Pressure*Reference Area
Angle of attack
Go Angle of Attack = atan(Velocity along yaw axis/Velocity along Roll Axis)
Velocity along pitch axis for small sideslip angle
Go Velocity along pitch axis = Sideslip Angle*Velocity along Roll Axis
Velocity along roll axis for small sideslip angle
Go Velocity along Roll Axis = Velocity along pitch axis/Sideslip Angle
Velocity along roll axis for small angle of attack
Go Velocity along Roll Axis = Velocity along yaw axis/Angle of Attack
Velocity along yaw axis for small angle of attack
Go Velocity along yaw axis = Velocity along Roll Axis*Angle of Attack

Normal force coefficient with aerodynamic normal force Formula

Normal force coefficient = Aerodynamic Normal Force/(Dynamic Pressure*Reference Area)
Cz = Z/(q*S)

What is the purpose of aerodynamic coefficients?

Aerodynamic Coefficients are non-dimensional numbers that are used to determine the aerodynamic characteristics of an aircraft.

How to Calculate Normal force coefficient with aerodynamic normal force?

Normal force coefficient with aerodynamic normal force calculator uses Normal force coefficient = Aerodynamic Normal Force/(Dynamic Pressure*Reference Area) to calculate the Normal force coefficient, The Normal force coefficient is dependent on the aerodynamic normal force, dynamic pressure and reference area. Normal force coefficient is denoted by Cz symbol.

How to calculate Normal force coefficient with aerodynamic normal force using this online calculator? To use this online calculator for Normal force coefficient with aerodynamic normal force, enter Aerodynamic Normal Force (Z), Dynamic Pressure (q) & Reference Area (S) and hit the calculate button. Here is how the Normal force coefficient with aerodynamic normal force calculation can be explained with given input values -> 0.374016 = 19/(10*5.08).

FAQ

What is Normal force coefficient with aerodynamic normal force?
The Normal force coefficient is dependent on the aerodynamic normal force, dynamic pressure and reference area and is represented as Cz = Z/(q*S) or Normal force coefficient = Aerodynamic Normal Force/(Dynamic Pressure*Reference Area). Aerodynamic normal force is the component of aerodynamic force along the yaw axis of an aircraft, Dynamic Pressure is simply a convenient name for the quantity which represents the decrease in the pressure due to the velocity of the fluid & The Reference Area is arbitrarily an area that is characteristic of the object being considered. For an aircraft wing, the wing's planform area is called the reference wing area or simply wing area.
How to calculate Normal force coefficient with aerodynamic normal force?
The Normal force coefficient is dependent on the aerodynamic normal force, dynamic pressure and reference area is calculated using Normal force coefficient = Aerodynamic Normal Force/(Dynamic Pressure*Reference Area). To calculate Normal force coefficient with aerodynamic normal force, you need Aerodynamic Normal Force (Z), Dynamic Pressure (q) & Reference Area (S). With our tool, you need to enter the respective value for Aerodynamic Normal Force, Dynamic Pressure & Reference Area and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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