Lowest frequency of a periodic wave
A) low frequency
B) frequency
C) fundamental frequency
D) prime frequency
Fundamental frequency is the lowest frequency of a periodic wave.
Option C is answer
Fundamental frequency
Lowest frequency of a periodic wave A) low frequency B) frequency C) fundamental frequency D) prime...
According to the Fourier series, a periodic sine wave has (select one): (a) The fundamental frequency only (b) Even Harmonic waveforms (c) Odd Harmonic Waveforms Consider the previous problem again. What is the bandwidth associated with it? Answer: According to the Fourier series, a periodic square wave has (select one): (a) The fundamental frequency only (b) Even Harmonic waveforms (c) Odd Harmonic Waveforms Consider the previous problem again. What is the bandwidth associated with it? 21. According to the Fourier...
What is the lowest frequency (excluding the fundamental) at which standing wave can occur in a 0.85-m long pipe with one end open and one end closed. The speed of sound in air is 337 m/s.
what is the lowest frequency (excluding the fundamental) at which standing wave can occur in a 0.85-m long pipe with one end open and one end closed. The speed of sound in air is 335 m/s.
If the fundamental period of a complex periodic wave is 5 ms, then what is the wave’s fundamental frequency?
a) The fundamental frequency of a vibrating system is 450 Hz. If the system is a cylindrical pipe with only one end open, give the lowest frequency (excluding the fundamental) at which a standing wave can occur. b)The fundamental frequency of a vibrating system is 275 Hz. If the system is a cylindrical pipe with only one end open, give the lowest frequency (excluding the fundamental) at which a standing wave can occur.
Rank the rods shown in the figure in terms of their fundamental resonant frequency, from lowest frequency to highest frequency. Rank the rods shown in the figure in terms of their fundamental resonant frequency, from lowest frequency to highest frequency.
The frequency of the standing wave when there is one loop is called the fundamental frequency of the first harmonic. In general, what statement can be made about the degree to which the frequency at each of the harmonics increases compared to the frequency at the fundamental frequency, or first harmonic?
A tube open at one end produces a standing wave with a fundamental frequency of 625 Hz when the temperature is -10.0 °C, what is the length of the tube, in meters? b) If we wanted to produce a standing wave with the same fundamental frequency in a string with a length of 1.30 m and a mass of 4.00 g, what would be the tension in the string, in Newtons? a)_____ m b) _____ N
The fundamental frequency of a vibrating system is 500 Hz. If the system is a cylindrical pipe with both ends open, give the lowest frequency (excluding the fundamental) at which a standing wave can occur.
The fundamental frequency of a vibrating system is 200 Hz. If the system is a cylindrical pipe with both ends open, give the lowest frequency (excluding the fundamental) at which a standing wave can occur.