ME 352 Spring 2013 Project 4 Abstract Introduction Anal

ME 352 Spring 2013 Project 4 Abstract Introduction Analysis Procedure Preliminary Kinematics Force (F) on the piston using indicator diagram Power Equation ode45 implementation Flywheel Design Results and Discussion Tabulated Results Position variable(s) vs. theta2 First-order kinematic coefficient(s) vs. theta2 Second-order kinematic coefficient(s) vs. theta2 Force on the piston F vs theta2 (0:15:720 deg.) PlotsForce on piston Response of the system 1 Force on piston = 0 lb theta2 vs time theta2dot vs time 2 Force on piston = F lb theta2 vs time theta2dot vs time 3 Initial idle speed > 30 rad/sec (force F on the piston) theta2 vs time theta2dot vs time 4 Addition of flywheel (force F on the piston) theta2 vs time theta2dot vs time 5 Peak pressure suddenly increased to 600 psi theta2 vs time theta2dot vs time Interpretation and discussion of your results/plots Conclusions General Formatting and code
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