A contra rotating propeller, with five gears and seven shafts.
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Se
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Source of effort; voltage supplied by
the power source; a Li-Po battery in this study.
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Rw
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Motor winding resistance.
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Iw
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Motor winding inductance.
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GY
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dc Motor; a Gyrator.
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T
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Gyrator Modulus.
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bs1
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Bearing resistance on shaft number
one.
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Js1
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JS1=Js’1+Jg1+Jr.
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Js1
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Total inertia for shaft number one.
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Js’1
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Inertia of shaft number one.
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Jg1
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Inertia of gear number one.
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Jr
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Inertia for dc motor rotor.
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Ks1
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Stiffness of shaft number one.
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Ms1
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Ms1=Ms’1+Mm+Mg1.
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Ms1
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Total mass for the shaft number one.
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Ms’1
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Mass for the shaft number one.
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Mm
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Mass for the dc motor.
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Mg1
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Mass for the gear number one.
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m1
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Distance from the center of mass of
the Ms1 to the shaft number one; moment arm to transform the
torque in to force to be applied to the Ms1.
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TF
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Transformer, mechanical transformer in
this study, spur gear mesh.
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Rs12
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Transformer Modulus, transmission
ratio between shaft number one and two.
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bs2
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Bearing resistance on shaft number
two.
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Js2
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JS2=Js’2+ Jg2+Jg6.
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Js2
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Total inertia for shaft number two.
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Js’2
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Inertia of shaft number two.
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Jg2
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Inertia of gear number two.
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Jg6
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Inertia of gear number six.
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Ks2
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Stiffness of shaft number two.
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Ms2
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Ms2=Ms’2+Mg6+Mg2.
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Ms2
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Total mass for the shaft number two.
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Ms’2
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Mass for the shaft number two.
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Mg6
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Mass for the gear number six.
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Mg2
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Mass for the gear number two.
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m2
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Distance from the center of mass of
the Ms2 to the shaft number two; moment arm to transform the
torque in to force to be applied to the Ms2.
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Rs23
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Transformer Modulus, transmission
ratio between shaft number two and three.
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bs3
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Bearing resistance on shaft number three.
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Js3
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JS3=Js’3+ Jg3+Jg4.
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Js3
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Total inertia for shaft number three.
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Js’3
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Inertia of shaft number three.
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Jg3
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Inertia of gear number three.
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Jg4
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Inertia of gear number four.
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Ks3
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Stiffness of shaft number three.
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Ms3
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Ms2=Ms’2+Mg3+Mg4.
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Ms3
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Total mass for the shaft number one.
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Ms’3
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Mass for the shaft number three.
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Mg3
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Mass for the gear number three.
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Mg4
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Mass for the gear number four.
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m3
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Distance from the center of mass of
the Ms3 to the shaft number three; moment arm to transform the
torque in to force to be applied to the Ms3.
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Rs34
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Transformer Modulus, transmission
ratio between shaft number three and four.
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bs4
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Bearing resistance on shaft number
four.
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Js4
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JS4=Js’4+ Jg5+Jp1.
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Js4
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Total inertia for shaft number four.
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Js’4
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Inertia of shaft number four.
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Jg5
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Inertia of gear number five.
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Jp1
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Inertia of propeller number one.
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Ks4
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Stiffness of shaft number three
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Ms4
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Ms4=Ms’4+Mg5+Mp1.
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Ms4
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Total mass for the shaft number four.
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Ms’4
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Mass for the shaft number four.
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Mg5
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Mass for the gear number five.
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Mp1
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Mass for the propeller number one.
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m4
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Distance from the center of mass of
the Ms4 to the shaft number four; moment arm to transform the
torque in to force to be applied to the Ms4.
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Rs25
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Transformer Modulus, transmission
ratio between shaft number two and five.
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bs5
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Bearing resistance on shaft number five.
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Js5
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JS5=Js’5+ Jg7+Jp2.
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Js5
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Total inertia for shaft number five.
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Js’5
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Inertia of shaft number five.
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Jg7
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Inertia of gear number seven.
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Jp2
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Inertia of propeller number two.
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Ks5
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Stiffness of shaft number five.
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Ms5
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Ms4=Ms’5+Mg5+Mp2.
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Ms5
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Total mass for the shaft number four.
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Ms’5
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Mass for the shaft number five.
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Mg7
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Mass for the gear number seven.
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Mp2
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Mass for the propeller number two.
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m5
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Distance from the center of mass of
the Ms5 to the shaft number five; moment arm to transform the
torque in to force to be applied to the Ms5.
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RPS
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RPS=KT1/(KQ1*D1)
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RPS
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Transformer Modulus, for propeller
number one.
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KT1
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Coefficient of thrust for propeller
number one.
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KQ1
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Coefficient of torque for propeller
number one.
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D1
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Diameter for propeller number one.
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KT1
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KT1=Tp1/(Rho*n12*D14)
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KQ1
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KQ1=Qp1/(Rho*n12*D15)
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Tp1
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Thrust from propeller number one.
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n1
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Speed for propeller number one, in
rev/s.
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Qp1
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Torque required to rotate propeller
number one.
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P1
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Propeller number one, mounted on the
shaft number four.
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RPH
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RPH=KT2/(KQ2*D2)
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RPH
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Transformer Modulus, for propeller
number 2.
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KT2
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Coefficient of thrust for propeller
number two.
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KQ2
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Coefficient of torque for propeller
number two.
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D2
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Diameter for propeller number two.
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KT2
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KT=Tp2/(Rho*n22*D24)
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KQ2
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KQ=Qp2/(Rho*n22*D25)
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Tp2
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Thrust from propeller number two.
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Rho
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Density of the fluid, air in this
study.
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n2
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Speed for propeller number two, in
rev/s.
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Qp2
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Torque required to rotate propeller
number two.
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P2
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Propeller number two, mounted on the
hollow shaft; only of the system, shaft number five.
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mc1
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Distance from the center of mass of
the chassis to the shaft number one; moment arm to transform torque in to
force to be applied to the chassis.
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mc2
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Distance from the center of mass of
the chassis to the shaft number two; moment arm to transform torque in to
force to be applied to the chassis.
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mc3
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Distance from the center of mass of
the chassis to the shaft number three; moment arm to transform torque in to
force to be applied to the chassis.
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mc4
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Distance from the center of mass of
the chassis to the shaft number four; moment arm to transform torque in to
force to be applied to the chassis.
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mc5
|
Distance from the center of mass of
the chassis to the shaft number five; moment arm to transform torque in to
force to be applied to the chassis.
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Mc
|
Mass of the chassis.
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