I'd like some help for questions 242 and 243 please In an adventure park ride, people arestrapped in a small cage that is whirled in avertical circle on cables, as sketched to thecageright. The cables make an angle of 30° withthe vertical. The radius of the circle (shownas a dotted line) is 8.0 m. The cage (with itsoccupants) has a mass of 250 kg.cablecableQuestion 239At the top of the circular path, the cage istravelling at 10 m s. Calculate the netforce acting on the cage at this point.Question 240Show that the tension in each of the cablesat the top of the circle is close to 360 N.Question 241At the bottom of the circle, the gravitational potential energy (GPE) of the car hasdecreased. This loss in GPE has been converted to KE. Calculate the speed of thecar at the bottom of the circular path. Question 242The owners of the ride are concerned that the cables are safe. They believe that thetension in the cables will be greater at the bottom of the circular path. Are theycorrect? Justify your answer with reasons drawn from your knowledge of physicsprinciples.Question 243As the ride slows to a stop, it is travelling at 8 m s at the lowest point of the circularpath. Calculate the tension in the cables at this point.

Given that: Mass of the cage, m=250 kgRadius of the circle, r=8.0 mθ= 30 ° with vertical We need to…

In an adventure park ride, people are strapped in a small cage that is whirled in a vertical circle on cables, as sketched to the right. The cables make an angle of 30° with the vertical. The radius of the circle (shown as a dotted line) is 8.0 m. The cage (with its occupants) has a mass of 250 kg. Question 239 At the top of the circular path, the cage is travelling at 10 m s. Calculate the net force acting on the cage at this point. S

In an adventure park ride, people are strapped in a small cage that is whirled in a vertical circle on cables, as sketched to the right. The cables make an angle of 30° with the vertical. The radius of the circle (shown as a dotted line) is 8.0 m. The cage (with its occupants) has a mass of 250 kg. Question 239 At the top of the circular path, the cage is travelling at 10 m s. Calculate the net force acting on the cage at this point. S

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Question

I'd like some help for questions 242 and 243 please

In an adventure park ride, people are
strapped in a small cage that is whirled in a
vertical circle on cables, as sketched to the
cage
right. The cables make an angle of 30° with
the vertical. The radius of the circle (shown
as a dotted line) is 8.0 m. The cage (with its
occupants) has a mass of 250 kg.
cable
cable
Question 239
At the top of the circular path, the cage is
travelling at 10 m s. Calculate the net
force acting on the cage at this point.
Question 240
Show that the tension in each of the cables
at the top of the circle is close to 360 N.
Question 241
At the bottom of the circle, the gravitational potential energy (GPE) of the car has
decreased. This loss in GPE has been converted to KE. Calculate the speed of the
car at the bottom of the circular path.

Question 242
The owners of the ride are concerned that the cables are safe. They believe that the
tension in the cables will be greater at the bottom of the circular path. Are they
correct? Justify your answer with reasons drawn from your knowledge of physics
principles.
Question 243
As the ride slows to a stop, it is travelling at 8 m s at the lowest point of the circular
path. Calculate the tension in the cables at this point.

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