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Oscillations
Mass Spring
The period is about 6.3 seconds, the frequency is 1/period=.016 Hz, the amplitude of velocity is about 23 m/s and the amplitude of position is about 44 m. The velocity has a phase that is 90 degrees (1/4 Period) ahead of position.
length(t) = length(t - dt) + (Vel) * dtINIT length = 0INFLOWS:Vel = velocityvelocity(t) = velocity(t - dt) + (Acceleration) * dtINIT velocity = 10INFLOWS:Acceleration = equilibrium_Length-lengthequilibrium_Length = 20
Assume that the units of position are mm and velocity are mm/s.
For this mass spring system what is:The period of oscillation?The frequency of oscillationThe amplitude of the velocity? And the phase difference between the velocity and position?
Assume that the units of position are mm and velocity are mm/s.
For this mass spring system what is:The period of oscillation? ~3.6 secondThe frequency of oscillation? 1/3.6=0.28 HzThe amplitude of the velocity? About 550 mm/sAnd the phase difference between the velocity and position? Velocity is 90 degrees ahead of position
position(t) = position(t - dt) + (velocity) * dt
INIT position = InitialPosition
INFLOWS:
velocity = VelocityStock
VelocityStock(t) = VelocityStock(t - dt) + (acceleration) * dt
INIT VelocityStock = InitialVelocity
INFLOWS:
acceleration = -gravity-position*springStiffness/mass
gravity = 981
InitialPosition = 10
InitialVelocity = 0
mass = 200
springStiffness = 2000
Y_eq = -gravity*mass/springStiffness
Grades and Study time
Current_GPA(t) = Current_GPA(t - dt) + (improvement_in_grades) * dt
INIT Current_GPA = 3.3
INFLOWS:
improvement_in_grades = Effect_of_extra_studying_on_grades*(Study_time-
Normal_Study_time)
Study_time(t) = Study_time(t - dt) + (Change_in_Study_time) * dt
INIT Study_time = 20
INFLOWS:
Change_in_Study_time = Effect_of_grade_on_studying*(Desire_GPA-Current_GPA)
Desire_GPA = 3.5
Effect_of_extra_studying_on_grades = .03
Effect_of_grade_on_studying = 4
Normal_Study_time = 20
Car Sales inventory
Resonance
Resonance
If a system with a natural oscillation frequency (or natural frequencies) is driven by an outside influence that matches a natural frequency of the system, then the system will have a maximum amplitude oscillation at that frequency. This natural frequency is also sometimes called the resonant frequency.
What frequency gives the largest output signal from a system with the smallest input signal?
Resonance
If a system with a natural oscillation frequency (or natural frequencies) is driven by an outside influence that matches a natural frequency of the system, then the system will have a maximum amplitude oscillation at that frequency. This natural frequency is also sometimes called the resonant frequency.
What frequency gives the largest output signal from a system with the smallest input signal? The resonant frequency
Bay of Fundy Nova Scotia
Resonance
The system above has a natural frequency of 2.0 Hz (period 0.50 s). What is the resonant frequency of this system?
Resonance
The system above has a natural frequency of 2.0 Hz (period 0.50 s). What is the resonant frequency of this system? 2.0 Hz , the same as the natural frequency
Resonance
A system has four dominant natural frequencies corresponding to periods of 2.0 years, 5.0 years, 7.0 years, and 11.0 years.
If an external driving influence of period 3.0 years acts on this system what sort of oscillations would one expect?
Resonance
A system has four dominant natural frequencies corresponding to periods of 2.0 years, 5.0 years, 7.0 years, and 11.0 years.
If an external driving influence of period 3.0 years acts on this system what sort of oscillations would one expect?
Not much except for small amplitude random oscillations.
The ice age cycles have a very strong 100,000 yr component. However the solar cycles, thought to drive the ice age cycles, have a week 100,000 yr variation. This suggests that the Earth-System may be resonating at this time scale.
Beats(When two different oscillation combine)
The beat frequency is simply the difference between the two frequencies. The time between beats (or beat period) is 1/(beat frequency). Two oscillations, one of frequency 1.01 Hz and one with frequency 1.00 Hz, combine. What is the beat frequency? And what is the time between Beats?
Beats(When two different oscillation combine)
The beat frequency is simply the difference between the two frequencies. The time between beats (or beat period) is 1/(beat frequency). Two oscillations, one of frequency 1.01 Hz and one with frequency 1.00 Hz, combine. What is the beat frequency? 0.01 Hz And what is the time between Beats? 1/0.01 Hz=100 seconds