e dy K d. 2 m dt (1) m Where: 1. y is the vertical displacement of the shock absorber 2. t is the time 3. m is a quarter

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answerhappygod
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e dy K d. 2 m dt (1) m Where: 1. y is the vertical displacement of the shock absorber 2. t is the time 3. m is a quarter

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E Dy K D 2 M Dt 1 M Where 1 Y Is The Vertical Displacement Of The Shock Absorber 2 T Is The Time 3 M Is A Quarter 1
E Dy K D 2 M Dt 1 M Where 1 Y Is The Vertical Displacement Of The Shock Absorber 2 T Is The Time 3 M Is A Quarter 1 (13.97 KiB) Viewed 15 times
E Dy K D 2 M Dt 1 M Where 1 Y Is The Vertical Displacement Of The Shock Absorber 2 T Is The Time 3 M Is A Quarter 2
E Dy K D 2 M Dt 1 M Where 1 Y Is The Vertical Displacement Of The Shock Absorber 2 T Is The Time 3 M Is A Quarter 2 (9.53 KiB) Viewed 15 times
e dy K d. 2 m dt (1) m Where: 1. y is the vertical displacement of the shock absorber 2. t is the time 3. m is a quarter the mass of the vehicle m= 350kg + num3kg 4. k is the spring constant k = 1200N/m 5. c is the damping constant c = 600N s/m initially but you should vary it as described below
Take y(0) = 0.15m and in initial velocity of shock absorber, 0, at t = 0 as in the reference. Find a suitable time step for your Runge- Kutta implementation by comparing the answer to the solution given in the reference.
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