A rope is tied to a bucket of water, and the bucket is swung in a vertical circle of radius 1.2 m. What must be the minimum speed of the bucket at
![homework and exercises - Rotating the bucket in circular motion without spilling water - Physics Stack Exchange homework and exercises - Rotating the bucket in circular motion without spilling water - Physics Stack Exchange](https://i.stack.imgur.com/NCbX9.png)
homework and exercises - Rotating the bucket in circular motion without spilling water - Physics Stack Exchange
![A cord is tied to a pail of water and the pail is swung in a vertical circle of 1.2 m. What is the minimum velocity the pail must have at the A cord is tied to a pail of water and the pail is swung in a vertical circle of 1.2 m. What is the minimum velocity the pail must have at the](https://useruploads.socratic.org/rZBf7CTNQHmHlXIpnl0i_fbd.gif)
A cord is tied to a pail of water and the pail is swung in a vertical circle of 1.2 m. What is the minimum velocity the pail must have at the
![Talachucho on Twitter: "Liu moved the bucked around his head and then he does 5 vertical swings using the centrifugal/centripede force. Of course, moving with a constant speed, the water will stay Talachucho on Twitter: "Liu moved the bucked around his head and then he does 5 vertical swings using the centrifugal/centripede force. Of course, moving with a constant speed, the water will stay](https://pbs.twimg.com/media/EfvPDVWWAAAkSBz.jpg)
Talachucho on Twitter: "Liu moved the bucked around his head and then he does 5 vertical swings using the centrifugal/centripede force. Of course, moving with a constant speed, the water will stay
![SOLVED: The water in a bucket whirled in a vertical circle doesn't fall out because a. the centripetal force balances the gravitational force b. there's a centrifugal force pushing the water upward SOLVED: The water in a bucket whirled in a vertical circle doesn't fall out because a. the centripetal force balances the gravitational force b. there's a centrifugal force pushing the water upward](https://cdn.numerade.com/ask_previews/9046a416-b0b8-4484-bff0-0bb46c987003_large.jpg)