Tranche 4 Stage 1 Application Information Session Glenavon House Hotel Tuesday 24 th March 2015.
Simple Harmonic Motion A.S. 4.1.1 – 4.1.8 Due Tuesday, March 24 WebAssign Due Tuesday, March 24...
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Transcript of Simple Harmonic Motion A.S. 4.1.1 – 4.1.8 Due Tuesday, March 24 WebAssign Due Tuesday, March 24...
Simple Harmonic MotionA.S. 4.1.1 – 4.1.8Due Tuesday, March 24WebAssign Due Tuesday, March 24Quiz on Tuesday, March 24
Warm-up (March 16):Predict what will happen to the period of an oscillating mass if the amplitude is increased? If the mass is increased?
Hooke’s Law The force applied to a spring in
order to extend or compress it is proportional to the amount of displacement of the spring from its rest position.
The spring force will be equal and opposite to the applied force, as it is a tension that is a reaction force to the applied force𝑭 𝒔𝒑𝒓𝒊𝒏𝒈=−𝒌𝒙
Elastic LimitOnce a spring has reached its
elastic limit, it will not return to its original length.
Hooke’s Law only applies if a spring will return to its original position (length)
By definition: Elastic Limit is the maximum range of extension(or compression) for which Hooke’s law is satisfied.
SHM for a Mass on a Horizontal Spring
Rest Position: the position of the mass when it is experiencing no net force
Restoring Force: the force the spring applies to the mass in order to pull it back to the rest position. ◦The strength of the force depends on the
displacement of the mass and the spring constant of the spring.
Displacement: The change in position of the mass relative to its rest position◦The positive direction must be defined and
kept constant for a system.
Conditions for SHM:The equilibrium (rest) position
must be in a fixed position.
The acceleration of the mass must be proportional to and in the opposite direction as its displacement.
Angular Frequency (w)Frequency, in general (linear frequency),
is simply a count of how many times the mass reaches a set point per second. ◦For an oscillation: The number of times per
second an oscillating mass completes one full cycle (one full oscillation)
◦ In one oscillation, how does the motion compare to circular motion?
Angular Frequency puts the count found in linear Frequency in terms of the amount of radians the mass has covered per second.
Angular FrequencyHow many radians does a mass
oscillate through in one cycle?How can the angular frequency and
the linear frequency be mathematically related? (what’s the conversion equation?)
Quick Sample:If a mass completed 30 full
oscillations in 20.0 seconds, what is the angular frequency for this mass?
Angular frequency = Note: ANGULAR frequency is NOT
measured in Hertz (Hz), and it is typically acceptable to leave it in terms of p.
Back to our spring:What are the units for the ratio
To what does this simplify?
Huh…this looks similar to the unit for angular frequency…Which means, we can mathematically define w:
SHM Defining EquationReview: what’s the mathematical
condition for SHM to occur?
What’s our definition of angular frequency?
Put them together, and you’ll get the Defining Equation for SHM:
Fundamental Vocabulary:Amplitude (A or x0): the
maximum displacement from the equilibrium position during an oscillation
Period (T): The amount of time, in seconds, required for one full oscillation.◦Frequency is the mathematical
inverse to the period:
Exploration lab:You’ll be exploring the behavior
of an object in simple harmonic motion, and will be observing the effect of a variety of variables on the period of the oscillations you see.
All observations will be done in your lab book, and you’ll be printing a few graphs and taping them in your books as well.