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What is the relationship of the amplitude with the amplitude of the fundamental in the triangular wave frequency response?
The amplitude of the fundamental ('first harmonic') component of the triangular wave
is 0.8107 of the whole composite triangle's amplitude.
So the composite wave's amplitude is 1.234 times the amplitude of the fundamental.
(Both are rounded.)
(The amplitudes, not the triangle.)
What else can I help you with?
What is the fifth harmonic of a 500 Hz triangular wave?
The fifth harmonic of a 500 Hz triangular wave would be at a frequency of 2500 Hz. This means that the fifth harmonic would have a frequency that is five times the fundamental frequency of the triangular wave.
What is the effect of frequency on amplitude?
The relationship between frequency and amplitude depends on the system being analyzed. In some systems, increasing frequency may result in an increase in amplitude (resonance), while in others it may decrease. Generally, higher frequencies can lead to higher amplitudes in resonant systems, while non-resonant systems may have a more complex relationship between frequency and amplitude.
What is the relationship between amplitude and frequency in a wave?
The relationship between amplitude and frequency in a wave is that amplitude refers to the height or intensity of a wave, while frequency refers to the number of wave cycles that occur in a given time period. In general, higher amplitude waves have greater energy and intensity, while higher frequency waves have more cycles occurring in a shorter time period.
What is the relationship between the frequency and amplitude in a wave, and how does the frequency affect the amplitude in terms of wave properties?
The frequency of a wave refers to how many times it repeats in a given time period, while the amplitude is the height of the wave. In general, higher frequency waves have higher amplitudes. This means that as the frequency of a wave increases, the amplitude also tends to increase. This relationship is important in understanding how waves behave and interact with each other.
What is the relationship between the steady state amplitude of forced oscillation and the driving frequency in a mechanical system?
The relationship between the steady state amplitude of forced oscillation and the driving frequency in a mechanical system is that the amplitude of the oscillation increases as the driving frequency approaches the natural frequency of the system. This phenomenon is known as resonance. At resonance, the system absorbs more energy from the driving force, causing the amplitude of the oscillation to be at its maximum.
What is the fifth harmonic of a 500 Hz triangular wave?
The fifth harmonic of a 500 Hz triangular wave would be at a frequency of 2500 Hz. This means that the fifth harmonic would have a frequency that is five times the fundamental frequency of the triangular wave.
What is the effect of frequency on amplitude?
The relationship between frequency and amplitude depends on the system being analyzed. In some systems, increasing frequency may result in an increase in amplitude (resonance), while in others it may decrease. Generally, higher frequencies can lead to higher amplitudes in resonant systems, while non-resonant systems may have a more complex relationship between frequency and amplitude.
What is the relationship between amplitude and frequency in a wave?
The relationship between amplitude and frequency in a wave is that amplitude refers to the height or intensity of a wave, while frequency refers to the number of wave cycles that occur in a given time period. In general, higher amplitude waves have greater energy and intensity, while higher frequency waves have more cycles occurring in a shorter time period.
What is the relationship between the frequency and amplitude in a wave, and how does the frequency affect the amplitude in terms of wave properties?
The frequency of a wave refers to how many times it repeats in a given time period, while the amplitude is the height of the wave. In general, higher frequency waves have higher amplitudes. This means that as the frequency of a wave increases, the amplitude also tends to increase. This relationship is important in understanding how waves behave and interact with each other.
What is the relationship between the steady state amplitude of forced oscillation and the driving frequency in a mechanical system?
The relationship between the steady state amplitude of forced oscillation and the driving frequency in a mechanical system is that the amplitude of the oscillation increases as the driving frequency approaches the natural frequency of the system. This phenomenon is known as resonance. At resonance, the system absorbs more energy from the driving force, causing the amplitude of the oscillation to be at its maximum.
The relationship between the fundamental frequency and harmonics in its harmonic series?
Scroll down to related links and look at "Calculations of Harmonics from Fundamental Frequency".
Definition of Fundamental frequency and waves?
The fundamental frequency of a wave is the lowest frequency (longest wavelength) that can be used to define its period. The easiest way to understand it is via a musical analogy: The fundamental frequency is the root tone of the overtone or harmonic series.
How does the amplitude and frequency affect wavelength?
The amplitude of a wave does not affect its wavelength as wavelength is determined by the speed of the wave and its frequency. Frequency and wavelength are inversely proportional; as frequency increases, wavelength decreases, and vice versa. This relationship is expressed mathematically as wavelength = speed of the wave / frequency.
When a waves' amplitude increases does the frequency change?
Velocity of wave = frequency * wavelength (the universal wave equation does not involve amplitude) There is no direct relationship between the amplitude and the wavelength of a wave and therefore if the amplitude increases the wavelength will not necessarily change.
How are frequency and amplitude related?
They're not. The same amplitude can have high or low frequency, and the same frequency can have large or small amplitude.
What is the relationship between a fundamental not and it's overtone?
An overtone is a higher frequency vibration that occurs simultaneously with the fundamental note. The overtone's frequency is always a multiple of the fundamental note's frequency, which gives each instrument or voice its unique timbre.
What is the realstionship between a fundamental note and it and overtones?
The fundamental note is the lowest frequency produced by a vibrating object. Overtones are higher frequency components that accompany the fundamental note, adding richness and complexity to the sound. The relationship between the fundamental note and its overtones is that the overtones are integer multiples of the frequency of the fundamental note.
