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WORK AND WORK AND CONSERVATION OF CONSERVATION OF
ENERGYENERGYSTYMVERLY GAWAT
JENERUS JUAN
AND ALWEN AGYAM
Work is the transfer of energy through motion. In order for work to take place, a force must be exerted through a distance. The amount of work done depends on two things: the amount of force exerted and the distance over which the force is applied. There are two factors to keep in mind when deciding when work is being done: something has to move and the motion must be in the direction of the applied force. Work can be calculated by using the following formula: Work=force x distance
WorkWork
Work is done on the books when they are being lifted, but no work is done on them when they are being held or carried horizontally.
WorkWork
Work can be positive Work can be positive or negativeor negative
• Man does positive work lifting box
Man does negative work
lowering box
Gravity does positive work when box lowers
Gravity does negative work when box is raised
Work done by a constant ForceWork done by a constant Force
Ekin = Wnet
• W = F s = |F| |s| cos = Fs s
|F| : magnitude of force |s| = s : magnitude of displacement Fs = magnitude of force in direction of displacement :
Fs = |F| cos
: angle between displacement and force vectors• Kinetic energy : Ekin= 1/2 m v2
• Work-Kinetic Energy Theorem:
F
s
Conservation of Mechanical EnergyConservation of Mechanical Energy
Total mechanical energy of an object remains constant
provided the net work done by non-conservative forces
is zero: Etot = Ekin + Epot = constantor
Ekin,f+Epot,f = Ekin,0+Epot,0
Otherwise, in the presence of net work done bynon-conservative forces (e.g. friction):
Wnc = Ekin,f – Ekin,0 + Epot,f-Epot,i
Example ProblemExample Problem
Suppose the initial kinetic and potential energies of a system are 75J and 250J respectively, and that the final kinetic and potential energies of the same system are 300J and -25J respectively. How much work was done on the system by non-conservative forces? 1. 0J 2. 50J 3. -50J 4. 225J 5. -225J
correct
Work done by non-conservative forces equals the difference between final and initial kinetic energies plus the difference between the final and initial gravitational potential energies.
W = (300-75) + ((-25) - 250) = 225 - 275 = -50J.
Samar HathoutSamar Hathout
ExampleExample
Samar Hathout
Conservation of EnergyConservation of Energy
Conservative forces:• Gravity, electrical, QCD…Non-conservative forces:• Friction, air resistance…Non-conservative forces still conserve energy!Energy just transfers to thermal energy
PE f KE f PEi KEiKE PE
Samar Hathout
ExampleExample
A diver of mass m drops from a board 10.0 m above the water surface, as in the Figure. Find his speed 5.00 m above the water surface. Neglect air resistance.
9.9 m/s
ExampleExample
A skier slides down the frictionless slope as shown. What is the skier’s speed at the bottom?
H=40 m
L=250 m
start
finish
28.0 m/s
Example Example
Three identical balls are thrown from the top of a building with the same initial speed. Initially, Ball 1 moves horizontally. Ball 2 moves upward. Ball 3 moves downward.
Neglecting air resistance, which ball has the fastest speed when it hits the ground?A) Ball 1
B) Ball 2C) Ball 3D) All have the same speed.
Springs (Hooke’s Law)Springs (Hooke’s Law)
Proportional to displacement from equilibrium
F kx
Potential Energy of Potential Energy of SpringSpring
PE=-Fx
x
F
PE 1
2(kx)x
PE 1
2kx2
x
Example Example
b) To what height h does the block rise when moving up the incline?
A 0.50-kg block rests on a horizontal, frictionless surface as in the figure; it is pressed against a light spring having a spring constant of k = 800 N/m, with an initial compression of 2.0 cm.
3.2 cm
Power Power
Average power is the average rate at which a net force
does work:
Pav = Wnet / tSI unit: [P] = J/s = watt (W)
Or Pav = Fnet s /t = Fnet vav
Example Example
A 1967 Corvette has a weight of 3020 lbs. The 427 cu-in engine was rated at 435 hp at 5400 rpm.a) If the engine used all 435 hp at 100% efficiency during acceleration, what speed would the car attain after 6 seconds?b) What is the average acceleration? (in “g”s)
a) 120 mph b) 0.91g
Example Example
Consider the Corvette (w=3020 lbs) having constantacceleration of a=0.91ga) What is the power when v=10 mph?b) What is the power output when v=100 mph?
a) 73.1 hp b) 732 hp (in real world a is larger at low v)