A 18.10 kg mass falling while also attached to a spring (k = 1950.00 N/m), as shownabove.
Fantastic news! We've Found the answer you've been seeking!
Question:
![image text in transcribed](https://s3.amazonaws.com/si.experts.images/answers/2024/06/66794459910e6_3856679445968ea1.jpg)
A 18.10 kg mass falling while also attached to a spring (k = 1950.00 N/m), as shownabove. At point K the spring is at equilibrium (=0) and the mass has been given aninitial speed (vi) directed towards the water. The mass travels 0.40 m (between Kand L) then hits a pool of water at point L where the water exerts an average force of48.30 N [upwards], while it is still connected to the spring. The mass travels 1.04 m(from L to M) and stops at point M. Determine the initial speed (vi) of the mass.Enter an answer with three digits and in S.l. units.* Upload the matching solution to your answer here (with your name at the top)1 mark for correct answer input, 5 marks for diagram and clear & correct process toanswer
![image text in transcribed](https://s3.amazonaws.com/si.experts.images/answers/2024/06/6679445a1e4e4_38566794459ea2a8.jpg)
Posted Date: