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forcesCoR (1.4364999999999999 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.859; // reference length (in m) - wheelbase |
Aref 2.064; // reference area (in m^2.064) - frontal area |
forcesCoR (1.4364999999999999 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.758; // reference length (in m) - wheelbase |
Aref 2.495; // reference area (in m^2.495) - frontal area |
forcesCoR (1.386 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.758; // reference length (in m) - wheelbase |
Aref 2.495; // reference area (in m^2.495) - frontal area |
forcesCoR (1.386 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.958; // reference length (in m) - wheelbase |
Aref 2.169; // reference area (in m^2.169) - frontal area |
forcesCoR (1.486 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.958; // reference length (in m) - wheelbase |
Aref 2.169; // reference area (in m^2.169) - frontal area |
forcesCoR (1.486 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.996; // reference length (in m) - wheelbase |
Aref 2.467; // reference area (in m^2.467) - frontal area |
forcesCoR (1.505 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.996; // reference length (in m) - wheelbase |
Aref 2.467; // reference area (in m^2.467) - frontal area |
forcesCoR (1.505 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.796; // reference length (in m) - wheelbase |
Aref 2.081; // reference area (in m^2.081) - frontal area |
forcesCoR (1.4049999999999998 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.796; // reference length (in m) - wheelbase |
Aref 2.081; // reference area (in m^2.081) - frontal area |
forcesCoR (1.4049999999999998 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.696; // reference length (in m) - wheelbase |
Aref 1.833; // reference area (in m^1.833) - frontal area |
forcesCoR (1.355 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.696; // reference length (in m) - wheelbase |
Aref 1.833; // reference area (in m^1.833) - frontal area |
forcesCoR (1.355 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.896; // reference length (in m) - wheelbase |
Aref 2.353; // reference area (in m^2.353) - frontal area |
forcesCoR (1.4549999999999998 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
// Geometrical parameters: |
lref 2.896; // reference length (in m) - wheelbase |
Aref 2.353; // reference area (in m^2.353) - frontal area |
forcesCoR (1.4549999999999998 0 -0.3176); // center of rotation for moment coeff. calculations |
lrefRef 2.78618; // case independent reference length from the drivAer2a case (in m) - wheelbase |
ArefRef 2.17; // case independent reference area from the drivAer2a case (in m^2) - frontal area |
forcesCoRRef (1.40009 0 -0.3176); // case independent reference center of rotation from the drivAer2a case for moment coeff. calculations |
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