Ch5 Circular Motion and Force

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Title: Ch5 Circular Motion and Force

1
Ch5Circular Motion and Force
2
Centripetal Force - Swinging Ball

Any body rotating about a fixed point will
experience a centripetal (center seeking)
acceleration.
This acceleration is always directed inwards
towards the center of the circle.
If asked to find the centripetal force, then
simply multiply the acceleration by the mass.
When viewing Swinging Ball problems, note that
the body has a force (tension, normal,) acting
on it that is pulling the body towards the center
of the circle at all times.

You are looking down on a flail spinning in a
horizontal circle.
The chain breaks on the flail.
Which flail (red, blue, or green) travels in the
path that the flail would follow after the chain
broke?

4
Centripetal Force - Swinging Ball

We will derive the equations relating the
tensions in the top and bottom of a vertically
swinging ball to the velocities of the ball at
the top and bottom of its swing.
Notice that the tension is pulling the ball
towards the center of rotation at all times.
Which tension would you expect to be the largest
top or bottom? Why?
Derive the tension for both cases

W
a
T
T
a
W
5
Centripetal Force Ferris Wheel

As the man riding the Ferris wheel is moving in a
circle, he experiences a centripetal force (red)
at all points as shown.
The seat is also exerting an upward normal force
on him (blue).
Derive an expression for the weight of the boy at
the top and bottom of the ride.

6
Circular Motion and Force

7
Circular Motion and Force

A test dummy (m 62.5 kg) rides freely in a
high-speed roller coaster with a radius of
curvature of r 52.00 m.
What type of a problem is this one?
A Ferris wheel problem.
If the coaster was moving at vT 18.00 m/s
at the top of the coaster, then what is the
apparent weight of the test dummy at this point?
What is the maximum safe
speed of the roller coaster?

RUN
8
Circular Motion and Force

An airplane, whose engine failed, was gliding to
the ground.
Once the engine restarted, the pilot pulled up
in order to keep the plane from crashing into the
ground.
The radius of curvature of the pull up is 175.0
m, and the planes speed at the lowest point of
this curve is 78.0 m/s.
What is the apparent weight of the 58.2 kg pilot
at this lowest point in flight?

9
Friction Types for Rolling and Skidding Tires

What type of friction acts between the road and a
tire that is rolling without skidding?
What type of friction acts between the road and a
tire that is skidding?
Watch the red dot on the tire below as it rolls
and then slides.

10
Skidding and Curves

When an ATV safely negotiates a curve, the
centripetal acceleration produced by the inward
acting static friction is able to accelerate
(change the direction of) the ATV.
The tracks left behind by this ATV would look
like the ones to the right.
When an ATV goes around the curve at too high a
speed, the tires begin to skid.
The tracks left behind by this ATV would look
like the ones to the right.

11
Negotiating Curves

Watch the animation to the right and explain what
has happened.
What force acted on the ATV that prevented it
from slipping off the road during the first lap
and in which direction was it acting?
The static friction directed inwards towards the
center of curvature.
What forces were acting on the ATV when it
slipped off the road?

12
Negotiating Curves - Unbanked

When a car negotiates an unbanked curve, the only
force causing the centripetal acceleration is the
static friction acting inwards along the radius
of curvature.
This static friction accelerates the car and
causes it to turn.
Derive an expression for the maximum speed the
ATV can have to safely negotiate a curve of
radius r when the coefficient of static friction
between the tires and the road is ?s.

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