Oscillations and Resonance Name Lab Procedure Answer questions in red. Download and run the HTMLS application \"resonance\". Driving force: 30 N Driving equency: 5 rad. '5 Spring constant: 5 - 'Irn Mass: ' 1 kg Damping constant: 3 kg's ' Start ' I Stop I ' Reset I This is a simulation of a mass oscillating horizontally on a frictionless surface under the action of a spring with an equilibrium position at the center of the chart. 1. Try out the application, changing the frequency and amplitude of the driving force, mass and spring force applied to the mass on the spring. Reset the app back to original values (Press \"resetl\" button\"). 2. Reset the sim and press start. Set the damping constant to 4. The damping constant is like friction, it removes energy from the oscillating mass over time. Adjust its driving frequency to get it oscillating as close to resonance as you can. a) What is the amplitude of the oscillation of the mass you observe? How does it compare to the earlier maximum amplitude you observed with the damping constant set at 5? b) What is the resonant frequency you observe? c) Set the damping constant to 3. Adjust its driving frequency to get THE MASS oscillating as close to resonance as you can. What is the amplitude of the oscillation of the mass you observe? How does it compare to the earlier maximum amplitude you observed with the damping constant set at 5 or 4? d) What is the resonant frequency you observe? c) Any ideas on the three resonant frequencies you measured with the damping constant at 5, 4 and 3? We have not talked about damping in class, so just take an educated guess