A spring is hooked up horizontally, with its left cease fixed. A spring stability connected to the free quit and pulled towards the proper shows that a pressure of 6.0 N reasons a displacement of 0.03 m. We exchange the spring stability with a 0.5 kg object, pull it 0.02 m to the proper alongside a friçtionless air track, launch it from rest, and watch it oscillate. 1. What is the pressure steady of the spring? 2. What is the angular frequency of the oscillations? three What is the frequency of the oscillations? 4. What is the duration of the oscillations? 5. What is the amplitude of the oscillations? 6. What is the role of the oscillating physique three seconds after being released? 7. What is the whole mechanical strength of the oscillating body?

A spring is hooked up horizontally, with its left cease fixed. A spring stability connected to the free quit and pulled towards the proper shows that a pressure of 6.0 N reasons a displacement of 0.03 m. We exchange the spring stability with a 0.5 kg object, pull it 0.02 m to the proper alongside a friçtionless air track, launch it from rest, and watch it oscillate. 1. What is the pressure steady of the spring? 2. What is the angular frequency of the oscillations? three What is the frequency of the oscillations? 4. What is the duration of the oscillations? 5. What is the amplitude of the oscillations? 6. What is the role of the oscillating physique three seconds after being released? 7. What is the whole mechanical strength of the oscillating body?