physics 218: mechanics instructor: dr. tatiana erukhimova lecture 24
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Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova
Lecture 24
Ex.6
This is a one dimensional problem. A particle of mass m is attracted to the origin with a force of magnitude
2x
kFx
If a particle starts at x=A, moving to the right with velocity V0, where will it turn around? Could there be no solution?
x=0 x=A xV0
Quiz
A particle can only move along the x axis. Forces act on it so that its potential energy function is
42
21 4
1
2
1)( xkxkxU
where k1 and k2 are positive. The particle is started at x=a with zero velocity.
a)Where is the velocity a maximum? What is its magnitude?
b) Where else will the velocity be zero?c)What is the force on the particle as a function
of x?
Second exam Tuesday, October 21
105 Heldenfels
Section 801 and half of 802 start at 7 pm
Section 803 and half of 802 start at 8:15 pm
Work Energy Theorem
22
222
1
initialfinalr
r
total
mVmVrdFW
22
2222
11
22
11
initialfinalyx
yx
totaly
yx
yx
totalx
mVmVdyFdxF
If a force can be written as the gradient (slope) of some scalar function, that force is conservative.
U(x) is called the potential energy function for the force F
If such a function exists, then the force is conservative
1D case:dx
dUFx
)]()([ 12
2
1
2
1
xUxUdxdx
dU
FdxW
x
x
x
x
veconservati
veconservatiW does NOT depend on path!
1D case:dx
dUF
conW does NOT depend on path!
)]()([ 12 xUxUW con
If Fx(x) is known, you can find the potential energy function as
CdxxFxU x )()(
or
112221 ,0 UKUKW nc If
112221 UKUKW nc
Kinematics:
dt
dVa
dt
dVa y
yx
x ;
dt
dyV
dt
dxV yx ;
If is given, you can find anda
V
r
daVdtaV yyxx ;
dtVydtVx yx ;
ty
Newton’s 2nd Law
amF
xx maF yy maF
Work does not depend on the choice of coordinates! You can calculate work of each force in the most convenient system of coordinates.
Do not forget to work with components!
Usually there are several ways to solve the problem. Indicate the law or the theorem you use!
We will have a regular class on Wednesday!
Help Session:When: tonight at 7:00 pm
Where:Room 207 James J. Cain Engineering/Physics Lab Building
Spence St.
Have a great day!
Hw: Be prepared for the test
Good luck!
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