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Transcript
Physics 101: Lecture 12
Work and Energy
Chapter 6: Work and Energy
Reminders:
Exam I, Tuesday September 30th at 5 PM
See PHY101 Web page for room assignments
Do not forgot to bring your UB ID card !
Physics 101: Lecture 12, Pg 1
Work & Energy
An important concept in physics
Alternative approach to mechanics
Many applications beyond mechanics
Thermodynamics (movement of heat)
Quantum mechanics...
Very useful tools
You will learn new (sometimes much easier) ways to
solve problems
Physics 101: Lecture 12, Pg 2
Work done by a Constant Force
The work done on an object by a constant (i.e.
displacement independent) force F is given by
W = Fs s
Unit : [W] = N m = J (Joule)
s : magnitude of displacement
Fs : magnitude of the force in the direction of the
displacement (Fs=F cosΘ)
W can be positive or negative:
W = + Fs s if Fs points in the same direction as s
W = - Fs s if Fs is opposite of s
Physics 101: Lecture 12, Pg 3
Lecture 9, Preflight 1 & 2
You are towing a car up a hill with constant velocity.
The work done on the car by the normal force is:
1. positive
2. negative
3. zero
FN
V
T
correct
W
The normal force is perpendicular to the
displacement, hence, does no work.
Physics 101: Lecture 12, Pg 4
Concept Question
You are towing a car up a hill with constant velocity.
The work done on the car by the gravitational force is:
1. positive
2. negative
3. zero
FN
V
T
correct
W
With the surface defined as the x-axis, the x component
of gravity is in the opposite direction of the
displacement, therefore work is negative.
Physics 101: Lecture 12, Pg 5
Concept Question
You are towing a car up a hill with constant velocity.
The work done on the car by the tension force is:
1. positive
2. negative
3. zero
FN
correct
V
T
W
Tension is in the same direction as the displacement.
Physics 101: Lecture 12, Pg 6
Work/Kinetic Energy Theorem:
Work done by a constant net force:
Wnet = Fnet s = m a s = m (vf2 –v02)/2
KE = m v2/2 is called the kinetic energy of an object.
{Net Work done on an object}
=
{change in kinetic energy of object}
Wnet=ΔKE
= KEf - KE0 = ½ m vf2 – ½ m v02
Also works for a variable force !
Physics 101: Lecture 12, Pg 7
Work done by Gravity
Object falling vertically upward or downward :
Wgravity = Fgravity s = m g (h0-hf)
PE = m g h is called gravitational potential energy
Object falling downward: Wgravity > 0
Object moving upward: Wgravity < 0
Gravity is an example for a conservative force:
work done is independent of path or
force does no net work on object moving around a closed path.
Physics 101: Lecture 12, Pg 8
Conservation of Mechanical Energy
or
Total mechanical energy of an object remains constant
provided the net work done by non-conservative forces
is zero:
Etot = KE + PE = constant
KEf + PEf = KE0 + PE0
=> ΔKE + ΔPE = 0
Otherwise, in the presence of a net work done by
non-conservative forces (e.g. friction):
Wnc = ΔKE + ΔPE = KEf – KE0 + PEf-PEo
Physics 101: Lecture 12, Pg 9
