C.1- Simple Harmonic Motion

Created by

Megan Butler

Cards (50)

What is the symbol for angular frequency? 
ω
What is the formula for angular frequency in terms of period? 
ω = \frac{2\pi}{T}
What is the formula for angular frequency in terms of frequency? 
ω = 2\pi f
What does it mean for a motion to be isochronous? 
It means the time period remains constant.
What is the base equation for acceleration in simple harmonic motion (SHM)? 
a = -ω²x
How is simple harmonic motion (SHM) defined? 
SHM is an oscillation where acceleration is proportional and opposite to displacement.
What is the maximum displacement in SHM called?
Amplitude (X₀)
What is the total mechanical energy in SHM represented by? 
Eₜ
What is the relationship between kinetic energy (Eₖ) and potential energy (Eₚ) in SHM? 
Eₖ + Eₚ = Eₜ
What is the formula for kinetic energy in SHM? 
Eₖ = \frac{1}{2} mw²(x₀² - x²)
What is the formula for potential energy in SHM? 
Eₚ = \frac{1}{2} mw²x²
What is the formula for total energy in SHM? 
Eₜ = \frac{1}{2} mw²x₀²
What is the formula for velocity in SHM? 
v = ±ω\sqrt{x₀² - x²}
What is the formula for the period of a simple pendulum?
T = 2\pi\sqrt{\frac{l}{g}}
What is the formula for the period of a mass-spring system? 
T = 2\pi\sqrt{\frac{m}{k}}
What does the equation x = x₀ \sin(ωt + φ) represent in SHM?
It represents the displacement as a function of time, starting at the origin.
What is the relationship between angular frequency and spring constant? 
ω² = \frac{k}{m}
What is the relationship between acceleration and displacement in SHM? 
a α -x
What are the key characteristics of simple harmonic motion (SHM)? 
Isochronous: time period remains constant
Acceleration is proportional and opposite to displacement
Examples include pendulums, mass-spring systems, and vibrating strings
What are the equations for displacement, velocity, and acceleration in SHM?
Displacement: \( x = x₀ \cos(ωt) \)
Velocity: \( v = -ωx₀ \sin(ωt) \)
Acceleration: \( a = -ω²x₀ \cos(ωt) \)
How does the time period of a simple pendulum change with length? 
A shorter length results in a smaller time period.
What is the hypothesis for the mass-spring experiment? 
The spring constant will remain the same for all masses used.
What is the relationship between T² and mass in the mass-spring system? 
T² ∝ m
What are the energy equations in SHM? 
Total Energy: \( E_T = \frac{1}{2} mω²x₀² \)
Potential Energy: \( E_p = \frac{1}{2} mω²x² \)
Kinetic Energy: \( E_k = \frac{1}{2} mω²(x₀² - x²) \)
What does the graph of energy in SHM show over time? 
The total energy remains constant while kinetic and potential energy vary.
If the maximum displacement is 4 m and the mass is 3 kg, what is the total energy in SHM if ω = 2 rad/s? 
Using \( E_T = \frac{1}{2} mω²x₀² = \frac{1}{2} \cdot 3 \cdot (2)^2 \cdot (4)^2 = 48 \text{ J} \)
How do the equations for displacement, velocity, and acceleration change with position in SHM? 
The equations can change based on the phase of the motion.
What is the significance of the phase difference in SHM?
It indicates the starting point of the oscillation.
What is the formula for the angular frequency in terms of spring constant and mass? 
ω = \sqrt{\frac{k}{m}}
What does the equation \( a = -ω²\sqrt{\frac{k}{m}} \) represent in SHM?
It represents the acceleration in terms of angular frequency and mass-spring constant.
What is the relationship between the time period and mass in a mass-spring system?
The time period increases with increasing mass.
What is the effect of increasing the length of a pendulum on its time period?
Increasing the length increases the time period.
How does the energy in SHM relate to the displacement from equilibrium? 
Energy is maximum at maximum displacement and zero at equilibrium.
What is the natural frequency of an oscillator? 
It is the frequency at which every oscillator vibrates after an initial disturbance.
What is the forced or driving frequency? 
It is the frequency of an applied external force.
What is free oscillation? 
Free oscillation occurs when a system oscillates without an external force being applied.
What is forced or driving oscillation?
Forced oscillation occurs when a system oscillates due to an external force.
What is damping in oscillating systems? 
Damping is the loss of energy to surroundings, which decreases the amplitude of oscillation.
What is resonance? 
Resonance is the increase in amplitude when the forced frequency is in phase with the natural frequency.
What are the differences between free and forced oscillation? 
Free oscillation: No external force applied, natural frequency.
Forced oscillation: External force applied, oscillates at forced frequency.