Examples of frequency in the following topics:
-
- The perception of frequency is called pitch.
- The perception of frequency is called pitch.
- The SI unit of frequency is called a Hertz, denoted Hz.
- Different species can hear different frequency ranges.
- Three flashing lights, from lowest frequency (top) to highest frequency (bottom). f is the frequency in hertz (Hz); or the number of cycles per second.
-
- The lowest commonly encountered radio frequencies are produced by high-voltage AC power transmission lines at frequencies of 50 or 60 Hz.
- In this case, a carrier wave having the basic frequency of the radio station (perhaps 105.1 MHz) is modulated in frequency by the audio signal, producing a wave of constant amplitude but varying frequency.
- Other channels called UHF (ultra high frequency) utilize an even higher frequency range of 470 to 1000 MHz.
- Frequency modulation for FM radio.
- (a) A carrier wave at the station's basic frequency.
-
- The period is the duration of one cycle in a repeating event, while the frequency is the number of cycles per unit time.
- The frequency is defined as the number of cycles per unit time.
- Frequency is usually denoted by a Latin letter f or by a Greek letter ν (nu).
- Note that period and frequency are reciprocals of each other .
- Sinusoidal waves of various frequencies; the bottom waves have higher frequencies than those above.
-
- The wave resulting from the superposition of two similar-frequency waves has a frequency that is the average of the two.
- This wave fluctuates in amplitude, or beats, with a frequency called the beat frequency.
- We can determine the beat frequency mathematically by adding two waves together.
- One can also measure the beat frequency directly.
- The number of beats per second, or the beat frequency, shows the difference in frequency between the two notes.
-
- Response of an RLC circuit depends on the driving frequency—at large enough frequencies, inductive (capacitive) term dominates.
- Now, we will examine the system's response at limits of large and small frequencies.
- At large enough frequencies $(\nu \gg \frac{1}{\sqrt{2\pi LC}})$, XL is much greater than XC.
- The impedance Z at small frequencies $(\nu \ll \frac{1}{\sqrt{2\pi LC}})$ is dominated by the capacitive term, assuming that the frequency is high enough so that XC is much larger than R.
- Distinguish behavior of RLC series circuits as large and small frequencies
-
- Frequencies at which the response amplitude is a relative maximum are known as the system's resonance frequencies.
- The reactances vary with frequency $\nu$, with XL large at high frequencies and XC large at low frequencies given as:
- $\nu_0$ is the resonant frequency of an RLC series circuit.
- A variable capacitor is often used to adjust the resonance frequency to receive a desired frequency and to reject others. is a graph of current as a function of frequency, illustrating a resonant peak in Irms at $\nu_0 = f_0$.
- An RLC series circuit with an AC voltage source. f is the frequency of the source.
-
- Looked at from another point of view, for any sampling interval $\Delta$ , there is a special frequency (called the Nyquist frequency), given by $f_s = \frac{1}{2\Delta}$ .
- The extrema (peaks and troughs) of a sinusoid of frequency $f_s$ will lie exactly $1/2f_s$ apart.
- Figure 4.9 shows a cosine function sampled at an interval longer than $1/2f_s$ ; this sampling produces an apparent frequency of 1/3 the true frequency.
- This means that any frequency component in the signal lying outside the interval $(-f_s,f_s)$ will be spuriously shifted into this interval.
- Figure 4.9: A sinusoid sampled at less than the Nyquist frequency gives rise to spurious periodicities.
-
- The phenomenon of driving a system with a frequency equal to its natural frequency is called resonance.
- The phenomenon of driving a system with a frequency equal to its natural frequency is called resonance.
- When tuning a radio, for example, people are adjusting the resonant frequency of the radio circuit so that it only oscillates to the desired station's broadcast (or driving) frequency.
- Resonance occurs when the driving frequency equals the natural frequency, and the greatest response is for the least amount of damping.
- Heavy cross winds drove the bridge into oscillations at its resonant frequency.
-
- Extremely high frequency (EHF) is the highest microwave frequency band.
- Super high frequency (SHF) is the designation for electromagnetic wave frequencies in the range of 3 GHz to 30 GHz.
- Microwaves at a frequency of 2.45 GHz are produced by accelerating electrons.
- The maser, rather than amplifying visible light energy, amplifies the lower-frequency, longer-wavelength microwaves and radio frequency emissions.
- The range of frequencies and wavelengths is remarkable.
-
- Since the time between waves is reduced, the frequency is increased.
- If the observer is moving away from the sound source, the frequency will be lowered, and if the observer moves closer to the sound source, the frequency is increased.
- If the source approaches the observer at an angle (but still with a constant velocity), the observed frequency that is first heard is higher than the object's emitted frequency.
- If the speeds and are small compared to the speed of the wave, the relationship between observed frequency and emitted frequency is approximately
- The wave-fronts are produced with the same frequency as before.