Explain_the_difference_between_damping_ratio_and_damping_coefficient_and_identify_what_physical components_of_each_system_you_anticipate_causing_the_most_damping. Are_there_specific_damping elements, or_is_damping_generated_throughout_the_system?
1. Explain_the_difference_between_damping_ratio_and_damping_coefficient_and_identify_what_physical components_of_each_system_you_anticipate_causing_the_most_damping. Are_there_specific_damping elements, or_is_damping_generated_throughout_the_system?
2. Using_the_dynamic_equation_for_pendulum, derive_the_equation_for_the_damping_coefficient_in_terms_of system_parameters.
3. Explain_why_the_natural_frequency_measurements_should_better_reflect_the_system’s_true_undamped natural_frequency_(and_therefore_correlate_better_with_calculated_values)_than_the_frequency_of_oscillation measurements.
4. For_a Linear Spring-Mass System, Torsional Spring-Mass System, and Simple Pendulum System: identify_the_necessary_measurements_required_to_identify_the_natural_frequency_and the damping_ratio_for_the_linear_SMD_and_the_simple_pendulum.
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