L1. Freely falling mass
1/h
i
i
i
L2. Downwards moving mass with counteracting driving force
N
1/h
i
i
i
L3. Downwards moving mass with driving force
N
1/h
i
i
i
L4. Downwards moving mass with driving force
N
1/h
i
i
i
L5. Horizontally moving mass without driving force
1/h
i
i
i
L6. Horizontally moving mass with form fit driving force
N
1/h
i
i
i
L7. Horizontally moving mass with frictional driving force
1/h
i
i
i
L8. Falling mass on an inclined plane
°
1/h
i
i
i
L9. Downward moving mass with opposing drive force on an inclined plane
N
°
1/h
i
i
i
L10. Downward moving mass with drive force on an inclined plane
N
°
1/h
i
i
i
L11. Upward moving mass with drive force on an inclined plane
N
°
1/h
i
i
i

R1a. Freely oscillating mass at horizontal impact
Calculation according to rotational parameters
kg*m²
1/s
1/h
i
i
i
Simplified calculation according to translational parameters
1/h
i
i
i
R1b. Freely oscillating mass at vertical impact
Calculation according to rotational parameters
kg*m²
1/s
1/h
i
i
i
Simplified calculation according to translational parameters
1/h
i
i
i
R2a. Downwards pivoting mass with counteracting driving torque at horizontal impact
Calculation according to rotational parameters
kg*m²
1/s
1/h
i
i
i
Simplified calculation according to translational parameters
1/h
i
i
i
R2b. Downwards pivoting mass with counteracting driving torque at vertical impact
Calculation according to rotational parameters
kg*m²
1/s
1/h
i
i
i
Simplified calculation according to translational parameters
1/h
i
i
i
R3a. Downwards pivoting mass with driving torque at horizontal impact
Calculation according to rotational parameters
kg*m²
1/s
1/h
i
i
i
Simplified calculation according to translational parameters
1/h
i
i
i
R3b. Downwards pivoting mass with driving torque at vertical impact
Calculation according to rotational parameters
kg*m²
1/s
1/h
i
i
i
Simplified calculation according to translational parameters
1/h
i
i
i
R4a. Upwards pivoting mass with driving torque at horizontal impact
Calculation according to rotational parameters
kg*m²
1/s
1/h
i
i
i
Simplified calculation according to translational parameters
1/h
i
i
i
R4b. Upwards pivoting mass with driving torque at vertical impact
Calculation according to rotational parameters
kg*m²
1/s
1/h
i
i
i
Simplified calculation according to translational parameters
1/h
i
i
i
R5. Horizontally pivoting mass without driving torque
Calculation according to rotational parameters
kg*m²
1/s
1/h
i
i
i
Simplified calculation according to translational parameters
1/h
i
i
i
R6. Horizontally pivoting mass with form fit driving torque
Calculation according to rotational parameters
kg*m²
1/s
1/h
i
i
i
Simplified calculation according to translational parameters
1/h
i
i
i
R7. Horizontally pivoting mass with frictional driving torque
Calculation according to rotational parameters
kg*m²
1/s
1/h
i
i
i
Simplified calculation according to translational parameters
1/h
i
i
i
Conversion of effective mass to velocity
Shock absorber data
Nm
kg
kg
Velocity range
m/s
m/s

Conversion of velocity to effective mass
Shock absorber data
Nm
m/s
m/s
Range of effective mass
kg
kg
Results
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