a) In extreme cases, the filled bucket of water is dropped from rest (see the figure above). Help Ana and her community determine the velocity of the bucket upon hitting the surface of the water. b) When these extreme cases happen, we need to make sure the bucket is strong enough. What materials can be used for the water bucket? Are there special considerations since this will be deployed in rural communities?

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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a) In extreme cases, the filled bucket of water is dropped from rest (see the figure above). Help Ana and
her community determine the velocity of the bucket upon hitting the surface of the water.
b) When these extreme cases happen, we need to make sure the bucket is strong enough. What
materials can be used for the water bucket? Are there special considerations since this will be
deployed in rural communities?
Transcribed Image Text:a) In extreme cases, the filled bucket of water is dropped from rest (see the figure above). Help Ana and her community determine the velocity of the bucket upon hitting the surface of the water. b) When these extreme cases happen, we need to make sure the bucket is strong enough. What materials can be used for the water bucket? Are there special considerations since this will be deployed in rural communities?
The bucket filled with water weighs around 50 kg and have a rest position. There are 2 meters between the
bucket's rest position and the surface of the water in the well. The system is connected to a reel with a
mass of 25 kg and a radius of gyration about its center of mass A of kA = 125 mm.
Water
75 mm
2 meters
Transcribed Image Text:The bucket filled with water weighs around 50 kg and have a rest position. There are 2 meters between the bucket's rest position and the surface of the water in the well. The system is connected to a reel with a mass of 25 kg and a radius of gyration about its center of mass A of kA = 125 mm. Water 75 mm 2 meters
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