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Physics 151: Lecture 16 Today

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Car has mass m. A) 2R B) 5R C) 5/2 R D) none of the above. Physics 151: ... Compare the compression of the spring, xA, for a fully loaded car with that, xB, ... – PowerPoint PPT presentation

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Title: Physics 151: Lecture 16 Today

1
Physics 151 Lecture 16Todays Agenda

Todays Topics
Conservation of mechanical energy
Nonconservative forces and loss of energy from a
system
Other relationships for potential energy

2
Conservation of Energy
See text 8-4

If only conservative forces are present, the
total energy (sum of potential and kinetic
energies) of a system is conserved.

E K U
?E ?K ?U W ?U
using ?K W W (-W) 0
using ?U -W
Both K and U can change, but E K U remains
constant.
3
Example The simple pendulum.
See text Example 8.3

Suppose we release a mass m from rest a distance
h1 above its lowest possible point.
What is the maximum speed of the mass and
wheredoes this happen ?
To what height h2 does it rise on the other side ?

m
h1
h2
v
4
Example The simple pendulum.
See text Example 8.3

Energy is conserved since gravity is a
conservative force (E K U is constant)
Choose y 0 at the bottom of the swing, and U
0 at y 0 (arbitrary choice).E 1/2mv2 mgy.

y
h1
h2
y0
v
5
Lecture 16, ACT 1The Roller Coaster

I have built a Roller Coaster . A motor tugs the
cars to the top and then they are let go and are
in the hands of gravity. To make the following
loop, how high do I have to let the release the
car ??

A) 2R B) 5R C) 5/2 R D) none of the above
6
Another Problem Involving a Spring

A large spring is used to stop the cars after
they come down the last hill of a roller coaster.
The cars start at rest at the top of the hill and
are caught by a mechanism at the instant their
velocities at the bottom are zero. Compare the
compression of the spring, xA, for a fully loaded
car with that, xB, for a lightly loaded car when
mA 2mB.

a. xA 1/2 xB. b. xA xB. c. xA
(2)1/2 xB. d. xA 2 xB. e. xA 4 xB.
7
Non-conservative Forces
See text 8.5

If the work done does not depend on the path
taken, the force involved is said to be
conservative.
If the work done does depend on the path taken,
the force involved is said to be
non-conservative.
An example of a non-conservative force is
friction
Pushing a box across the floor, the amount of
work that is done by friction depends on the path
taken.
Work done is proportional to the length of the
path !

8
Generalized Work Energy Theorem

WNC ?K ?U ?E

9
Lecture 16, ACT 2Stones and Friction

I throw a stone into the air. While in flight it
feels the force of gravity and the frictional
force of the air resistance. The time the stone
takes to reach the top of its flight path (i.e.
go up) is,
A) larger than
B) equal to
C) less than
The time it takes to return from the top (i.e.
go down).

10
Lecture 16, ACT 2Solution

We know that WNC ?K ?U ?E
Thus as time progresses the amount of energy in
the earth-rock system is continually decreasing
If I consider the way up versus the way down at a
given height,
then Eup Kup Uup gt Edown Kdown Udown
But, at a given height U is always the same.
So, Kup gt Kdown
v at a given height is always less on the way
down

The answer is (C) it takes less time to go up
11
Same problem but with numbers

A 2.0-kg mass is projected vertically upward from
ground level with an initial speed of 30 m/s. The
mass rises to a maximum height of 35 m above
ground level. How much work is done on the mass
by air resistance between the point of projection
and the point of maximum height?

a. 0.21 kJ b. 0.21 kJ c. 0.40 kJ d. 0.69
kJ e. 0.69 kJ
12
Question

As an object moves from point A to point B only
two forces act on it one force is
nonconservative and does 30 J of work, the other
force is conservative and does 50 J of work.
Between A and B,
the kinetic energy of object increases,
mechanical energy decreases.
the kinetic energy of object decreases,
mechanical energy decreases.
the kinetic energy of object decreases,
mechanical energy increases.
the kinetic energy of object increases,
mechanical energy increases.
None of the above.

13
Question - 2

As an object moves from point A to point B only
two forces act on it one force is conservative
and does 70 J of work, the other force is
nonconservative and does 50 J of work. Between A
and B,
the kinetic energy of object increases,
mechanical energy increases.
the kinetic energy of object decreases,
mechanical energy increases.
the kinetic energy of object decreases,
mechanical energy decreases.
the kinetic energy of object increases,
mechanical energy decreases.
None of the above.

14
ACT- 2

Objects A and B, of mass M and 2M respectively,
are each pushed a distance d straight up an
inclined plane by a force F parallel to the
plane. The coefficient of kinetic friction
between each mass and the plane has the same
value . At the highest point,
K A gt K B .
K A K B .
K A lt K B .
The work done by F on A is greater than the work
done on B.
The work done by F on A is less than the work
done on B.

15
Lecture 16, ExampleSkateboard

Lets now suppose that the surface is not
frictionless and the same skateboarder reach the
speed of 7.0 m/s at bottom of the hill. What was
the work done by friction on the skateboarder ?

Conservation of Total Energy
K1 U1 K2 U2
Wf
m 25 kg
Wf 0 mgR 1/2mv2 0
Wf 1/2mv 2 - mgR
R3 m
Wf (1/2 x25 kg x (7.0 m/s2)2 - - 25 kg
x 10m/s2 3 m)
Wf 613 - 735 J - 122 J
Total mechanical energy decreased by 122 J !
16
Conservative Forces and Potential Energy
See Text section 8.6