Question

In a classic carnival ride, patrons stand against the wall in a cylindrically shaped room. Once the room gets spinning fast e5) Which of the following changes would decrease the coefficient of friction needed for this ride? increasing the riders mas

0 0
Add a comment Improve this question Transcribed image text
Answer #1


solo R=6.4M f = 21.8 xer/min the person $@ The Angular speed of V = wr= 2048 ={2**(2168) *6*4 14.610 m/s V=876 • 63 M8/on 19

Add a comment
Know the answer?
Add Answer to:
In a classic carnival ride, patrons stand against the wall in a cylindrically shaped room. Once...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions
  • In a classic carnival ride, patrons stand against the wall in a cylindrically shaped room. Once...

    In a classic carnival ride, patrons stand against the wall in a cylindrically shaped room. Once the room gets spinning fast enough, the floor drops from the bottom of the room! Friction between the walls of the room and the people on the ride make them the "stick" to the wall so they do not slide down. In one ride, the radius of the cylindrical room is R 6m and the room spins with a frequency of 23.2 revolutions per...

  • I need the answers for 5 and 6 parts In a classic carnival ride, patrons stand...

    I need the answers for 5 and 6 parts In a classic carnival ride, patrons stand against the wall in a cylindrically shaped room. Once the room gets spinning fast enough, the floor drops from the bottom of the room! Friction between the walls of the room and the people on the ride make them the "stick" to the wall so they do not slide down. In one ride, the radius of the cylindrical room is R = 6.1 m...

  • Carnival ride

    In a classic carnival ride, patrons stand against the wall in a cylindrically shaped room. Once the room gets spinning fast enough, the floor drops from the bottom ofthe room! Friction between the walls of the room and the people on the ride make them the “stick” to the wall so they do not slide down. In one ride, the radius of thecylindrical room is R = 6 m and the room spins with a frequency of 23.2 revolutions per...

  • Please I need an Answer ASAP

    In a classic carnival ride, patrons stand against the wall in a cylindrically shaped room. Once the room gets spinning fast enough, the floor drops from the bottom ofthe room! Friction between the walls of the room and the people on the ride make them the “stick” to the wall so they do not slide down. In one ride, the radius of thecylindrical room is R = 7.8 m and the room spins with a frequency of 20.0 revolutions per...

  • Friction Problem of a classical spinning carnival ride

    In a classic carnival ride, patrons stand against the wall in a cylindrically shaped room. Once the room gets spinning fast enough, the floor drops from the bottom ofthe room! Friction between the walls of the room and the people on the ride make them the “stick” to the wall so they do not slide down. In one ride, the radius of thecylindrical room is R = 6.8 m and the room spins with a frequency of 22.4 revolutions per...

  • “The Rotor” is a fun carnival ride. It’s made of a large hollow cylinder of radius...

    “The Rotor” is a fun carnival ride. It’s made of a large hollow cylinder of radius R, that’s rotated rapidly about the center axis. A rider stands with her back against the inner wall. At a certain speed, the floor drops, but the rider does not fall. 9) The Rotor" is a fun carnival ride. It's made of a large hollow cylinder of radius R, that's rotated rapidly about the center axis. A rider stands with her back against the...

  • At an amusement park there is a ride in which cylindrically shaped chambers spin around a...

    At an amusement park there is a ride in which cylindrically shaped chambers spin around a central axis. People sit in seats facing the axis, their backs against the outer wall. At one Instant the outer wall moves at a speed of 3.80 m/s, and an 56.4-kg person feels a 370-N force pressing against his back. What is the radius of a chamber?

  • At an amusement park there is a ride in which cylindrically shaped chambers spin around a...

    At an amusement park there is a ride in which cylindrically shaped chambers spin around a central axis. People sit in seats facing the axis, their backs against the outer wall. At one instant the outer wall moves at a speed of 3.31 m/s, and an 58.4-kg person feels a 294-N force pressing against his back. What is the radius of a chamber?

  • At an amusement park there is a ride in which cylindrically shaped chambers spin around a...

    At an amusement park there is a ride in which cylindrically shaped chambers spin around a central axis. People sit in seats facing the axis, their backs against the outer wall. At one instant the outer wall moves at a speed of 3.09 m/s, and an 56.8-kg person feels a 343-N force pressing against his back. What is the radius of a chamber?

  • At an amusement park there is a ride in which cylindrically shaped chambers spin around a...

    At an amusement park there is a ride in which cylindrically shaped chambers spin around a central axis. People sit in seats facing the axis, their backs against the outer wall. At one instant the outer wall moves at a speed of 3.0 m/s, and an 83-kg person feels a 600-N force pressing against his back. What is the radius of the chamber?

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT