Please help with 5-6 of this fbd worksheet on circular motion. Please include the center, equation, forces, and radial and tangential or perpendicular axes. 7-35.A car rounding a flat curve (What forcekeeps the car from sliding off the road?)6. A ball sliding upward inside a frictionlesscircular loop, at the 3:00 positionFc =.Fc =.7. A person standing in the rotatingdrum of an amusement park ride8. The cylindrical drum in (7) has speededup and the floor has dropped downFc= FFc =%3D 7-3 Free-body Diagrams for Circular Motion, Part 1For each situation 1- 10, follow the steps below to write the equation for Fc.•• Identify the object, its circular path, and the center of the circle.Draw the free-body diagram (FBD).DO include all forces that act on the object.DO NOT include forces the object exerts on its surroundings.· Sketch the radial (+r) and the tangential (±t) or perpendicular (+p) axes on the FBD.The radial axis, r, points from the object to the center of the circle.Radially inward is the +r direction. Radially outward is the -r direction.Write an equation for Fe in terms of the forces acting on the object. For example,Fc= Fg - FN.%3D1. A yo-yo on a string, circling into thepage on a flat, frictionless surface2. A cart moving at constant speed overthe top of a circular hillFc= _FN on Earth loyg objectN on Earth byObjectFroTonobjectby V Fq on object bystring

(5) Free body diagram for a car rounding a flat curve Fc=f (friction)

Answered: A car rounding a flat curve (Wha keeps…

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A car rounding a flat curve (Wha keeps the car from sliding off the Fc=

Inquiry into Physics

8th Edition

ISBN:9781337515863

Author:Ostdiek

Publisher:Ostdiek

Chapter3: Energy And Conservation Laws

Section: Chapter Questions

Problem 9C: A series of five 0.1-kg spheres are arrayed along a thin, lightweight rigid rod with length 0.5 m at...

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Concept explainers

Centripetal Force

A particle, body, object or certain mass while travelling in a rotational path or semicircular path, experiences an inertia force. If that inertia force pulls the towards the inward of the imaginary circle in the rotation, it is termed as centripetal force.

Question

Please help with 5-6 of this fbd worksheet on circular motion. Please include the center, equation, forces, and radial and tangential or perpendicular axes.

7-3
5.
A car rounding a flat curve (What force
keeps the car from sliding off the road?)
6. A ball sliding upward inside a frictionless
circular loop, at the 3:00 position
Fc =.
Fc =.
7. A person standing in the rotating
drum of an amusement park ride
8. The cylindrical drum in (7) has speeded
up and the floor has dropped down
Fc= F
Fc =
%3D

7-3 Free-body Diagrams for Circular Motion, Part 1
For each situation 1- 10, follow the steps below to write the equation for Fc.
•• Identify the object, its circular path, and the center of the circle.
Draw the free-body diagram (FBD).
DO include all forces that act on the object.
DO NOT include forces the object exerts on its surroundings.
· Sketch the radial (+r) and the tangential (±t) or perpendicular (+p) axes on the FBD.
The radial axis, r, points from the object to the center of the circle.
Radially inward is the +r direction. Radially outward is the -r direction.
Write an equation for Fe in terms of the forces acting on the object. For example,
Fc= Fg - FN.
%3D
1. A yo-yo on a string, circling into the
page on a flat, frictionless surface
2. A cart moving at constant speed over
the top of a circular hill
Fc= _F
N on Earth loyg object
N on Earth by
Object
Fro
Ton
objectby V Fq on object by
string

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