Periodic Waves - AP Physics 2
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Find the period if frequency is 0.25 Hz.
Find the period if frequency is 0.25 Hz.
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$T = 4$ s. Using $T = \frac{1}{f} = \frac{1}{0.25} = 4$ s.
$T = 4$ s. Using $T = \frac{1}{f} = \frac{1}{0.25} = 4$ s.
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Find the period if frequency is 0.25 Hz.
Find the period if frequency is 0.25 Hz.
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$T = 4$ s. Using $T = \frac{1}{f} = \frac{1}{0.25} = 4$ s.
$T = 4$ s. Using $T = \frac{1}{f} = \frac{1}{0.25} = 4$ s.
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State the formula for the frequency of a wave.
State the formula for the frequency of a wave.
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$f = \frac{1}{T}$. Frequency is the reciprocal of period.
$f = \frac{1}{T}$. Frequency is the reciprocal of period.
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What is the unit of wave speed?
What is the unit of wave speed?
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Meters per second (m/s). Standard SI unit for velocity measurements.
Meters per second (m/s). Standard SI unit for velocity measurements.
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What happens to frequency if the wavelength is doubled?
What happens to frequency if the wavelength is doubled?
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Frequency is halved, assuming constant speed. From $v = f\lambda$, if $\lambda$ doubles and $v$ constant, $f$ halves.
Frequency is halved, assuming constant speed. From $v = f\lambda$, if $\lambda$ doubles and $v$ constant, $f$ halves.
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Find the wavelength if speed is 10 m/s and frequency is 2 Hz.
Find the wavelength if speed is 10 m/s and frequency is 2 Hz.
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$\nu = 5$ m. Using $\lambda = \frac{v}{f} = \frac{10}{2} = 5$ m.
$\nu = 5$ m. Using $\lambda = \frac{v}{f} = \frac{10}{2} = 5$ m.
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What is a transverse wave?
What is a transverse wave?
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Wave with oscillations perpendicular to wave direction. Particle motion is at right angles to wave propagation.
Wave with oscillations perpendicular to wave direction. Particle motion is at right angles to wave propagation.
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Define a longitudinal wave.
Define a longitudinal wave.
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Wave with oscillations parallel to wave direction. Particle motion is along the direction of wave travel.
Wave with oscillations parallel to wave direction. Particle motion is along the direction of wave travel.
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What is the phase difference in constructive interference?
What is the phase difference in constructive interference?
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Multiples of $2\text{π}$ radians. Waves are in phase for maximum reinforcement.
Multiples of $2\text{π}$ radians. Waves are in phase for maximum reinforcement.
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Calculate the wave speed if wavelength is 4 m and period is 0.5 s.
Calculate the wave speed if wavelength is 4 m and period is 0.5 s.
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$v = 8$ m/s. Using $v = \frac{\lambda}{T} = \frac{4}{0.5} = 8$ m/s.
$v = 8$ m/s. Using $v = \frac{\lambda}{T} = \frac{4}{0.5} = 8$ m/s.
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What is the phase difference in destructive interference?
What is the phase difference in destructive interference?
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Odd multiples of $\text{π}$ radians. Waves are out of phase for cancellation.
Odd multiples of $\text{π}$ radians. Waves are out of phase for cancellation.
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State the unit of amplitude.
State the unit of amplitude.
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Meters (m). Amplitude is a distance measurement.
Meters (m). Amplitude is a distance measurement.
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Define node in a standing wave.
Define node in a standing wave.
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A point of zero amplitude. Location of destructive interference in standing waves.
A point of zero amplitude. Location of destructive interference in standing waves.
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State the unit of amplitude.
State the unit of amplitude.
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Meters (m). Amplitude is a distance measurement.
Meters (m). Amplitude is a distance measurement.
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Define frequency in terms of wave cycles.
Define frequency in terms of wave cycles.
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Number of cycles per second. Measures how often the wave pattern repeats.
Number of cycles per second. Measures how often the wave pattern repeats.
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Determine the period if the frequency is 5 Hz.
Determine the period if the frequency is 5 Hz.
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$T = 0.2$ s. Using $T = \frac{1}{f} = \frac{1}{5} = 0.2$ s.
$T = 0.2$ s. Using $T = \frac{1}{f} = \frac{1}{5} = 0.2$ s.
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What is the relationship between period and frequency?
What is the relationship between period and frequency?
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They are reciprocals: $T = \frac{1}{f}$. Frequency and period are inverse quantities.
They are reciprocals: $T = \frac{1}{f}$. Frequency and period are inverse quantities.
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State the relationship between intensity and amplitude.
State the relationship between intensity and amplitude.
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Intensity is proportional to amplitude squared. Energy carried by wave depends on amplitude squared.
Intensity is proportional to amplitude squared. Energy carried by wave depends on amplitude squared.
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State the unit of wavelength.
State the unit of wavelength.
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Meters (m). Standard SI unit for distance measurements.
Meters (m). Standard SI unit for distance measurements.
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Calculate wavelength if wave speed is 20 m/s and frequency is 4 Hz.
Calculate wavelength if wave speed is 20 m/s and frequency is 4 Hz.
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$\nu = 5$ m. Using $\lambda = \frac{v}{f} = \frac{20}{4} = 5$ m.
$\nu = 5$ m. Using $\lambda = \frac{v}{f} = \frac{20}{4} = 5$ m.
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What is the Doppler effect?
What is the Doppler effect?
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Change in frequency due to relative motion of source and observer. Apparent frequency shift due to motion.
Change in frequency due to relative motion of source and observer. Apparent frequency shift due to motion.
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What is an antinode?
What is an antinode?
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A point of maximum amplitude in a standing wave. Location of constructive interference in standing waves.
A point of maximum amplitude in a standing wave. Location of constructive interference in standing waves.
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State the formula for the frequency of a wave.
State the formula for the frequency of a wave.
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$f = \frac{1}{T}$. Frequency is the reciprocal of period.
$f = \frac{1}{T}$. Frequency is the reciprocal of period.
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Calculate the wave speed if wavelength is 4 m and period is 0.5 s.
Calculate the wave speed if wavelength is 4 m and period is 0.5 s.
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$v = 8$ m/s. Using $v = \frac{\lambda}{T} = \frac{4}{0.5} = 8$ m/s.
$v = 8$ m/s. Using $v = \frac{\lambda}{T} = \frac{4}{0.5} = 8$ m/s.
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What is the phase difference in constructive interference?
What is the phase difference in constructive interference?
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Multiples of $2\text{π}$ radians. Waves are in phase for maximum reinforcement.
Multiples of $2\text{π}$ radians. Waves are in phase for maximum reinforcement.
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Define a longitudinal wave.
Define a longitudinal wave.
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Wave with oscillations parallel to wave direction. Particle motion is along the direction of wave travel.
Wave with oscillations parallel to wave direction. Particle motion is along the direction of wave travel.
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What is the speed of sound in air at room temperature?
What is the speed of sound in air at room temperature?
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Approximately 343 m/s. Standard reference value for sound wave calculations.
Approximately 343 m/s. Standard reference value for sound wave calculations.
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What is the formula for the power of a wave?
What is the formula for the power of a wave?
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$P = I \times A$. Power equals intensity times area.
$P = I \times A$. Power equals intensity times area.
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What is the unit of wave speed?
What is the unit of wave speed?
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Meters per second (m/s). Standard SI unit for velocity measurements.
Meters per second (m/s). Standard SI unit for velocity measurements.
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Find the wavelength if speed is 10 m/s and frequency is 2 Hz.
Find the wavelength if speed is 10 m/s and frequency is 2 Hz.
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$\nu = 5$ m. Using $\lambda = \frac{v}{f} = \frac{10}{2} = 5$ m.
$\nu = 5$ m. Using $\lambda = \frac{v}{f} = \frac{10}{2} = 5$ m.
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