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They are independent quantities. Amplitude decides the intensity ie energy content of the wave and frequency is different right from amplitude.
If the maximum amplitude,E, is known then the instantaneous amplitude, e, can be found by e=E*sin(2*pi*f*t) where f is the frequency and t is the time in seconds from the start of the sine wave. Note that the angle in brackets is in radians.
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Hi there is no such a term "maximum amplitude". Amplitude itself is the maximum displacement. For a fixed frequency and fixed amplitude, as time passes then the displacement e varies as fractiion of max E. That is all. E is constant and f is another constant. They are not directly related in any way.
What else can I help you with?
What is the sine wave formula and how is it used to calculate the amplitude and frequency of a sine wave?
The sine wave formula is y A sin(Bx C), where A represents the amplitude, B represents the frequency, and C represents the phase shift. To calculate the amplitude, you can find the maximum value of the sine wave. To calculate the frequency, you can determine the number of cycles that occur in a given time period.
What is the relationship between the wavelength and frequency of a sine wave?
The wavelength and frequency of a sine wave are inversely related. This means that as the wavelength increases, the frequency decreases, and vice versa. The product of the wavelength and frequency of a sine wave is always equal to the speed of the wave.
If two sine waves of equal frequency and amplitude are superimposed what is the frequency of the resulting wave What will happen to a particle?
If two sine waves of equal frequency and amplitude are superimposed, the resulting wave will have the same frequency. The particle will experience constructive and destructive interference, leading to regions of higher and lower amplitudes.
What is the equation for a sine wave?
The equation for a sine wave is y A sin(Bx C) where A is the amplitude, B is the frequency, and C is the phase shift.
What is the formula for a sine wave?
The formula for a sine wave is y A sin(Bx C) where A is the amplitude, B is the frequency, x is the independent variable, and C is the phase shift.
What is the sine wave formula and how is it used to calculate the amplitude and frequency of a sine wave?
The sine wave formula is y A sin(Bx C), where A represents the amplitude, B represents the frequency, and C represents the phase shift. To calculate the amplitude, you can find the maximum value of the sine wave. To calculate the frequency, you can determine the number of cycles that occur in a given time period.
What parameter of a sine wave carrier can be modulated?
Amplitude, Frequency and Phase
What is the relationship between the wavelength and frequency of a sine wave?
The wavelength and frequency of a sine wave are inversely related. This means that as the wavelength increases, the frequency decreases, and vice versa. The product of the wavelength and frequency of a sine wave is always equal to the speed of the wave.
If two sine waves of equal frequency and amplitude are superimposed what is the frequency of the resulting wave What will happen to a particle?
If two sine waves of equal frequency and amplitude are superimposed, the resulting wave will have the same frequency. The particle will experience constructive and destructive interference, leading to regions of higher and lower amplitudes.
What is the equation for a sine wave?
The equation for a sine wave is y A sin(Bx C) where A is the amplitude, B is the frequency, and C is the phase shift.
Sinusoidal pwm generation using modulation index?
Not sure what type of modulation you are looking for, but there are two that can be manipulated, either individually or in conjunction:Frequency modulation index refers to the relation between the sine wave frequency (sine_freq) and the triangle (or saw-tooth) wave frequency (triang_freq).The frequency modulation index is equal to ((triang_freq)/(sine_freq)).Amplitude modulation index refers to the relation between the sine wave amplitude (sine_amp) and the triangle (or saw-tooth) wave amplitude (triang_amp).The amplitude modulation index is equal to ((sine_amp)/(triang_amp)).Varying the modulation index (normally by varying the frequency or amplitude of the triangle wave form) changes that respective modulation index.From personal experience, an appropriate amplitude modulation index for an SPWM waveform should be around 0.8(that is, if the triangle has an amplitude of 10, the sine would have an amplitude of 8). This index should never be equal to 1 (one); it should always be less. A.K.A.: the triangle-wave amplitude should always be greater than the sine-wave.On the other hand, a triangle-wave frequency much greaterthan the sine-wave frequency makes an SPWM that in turn generates a "cleaner" synthesized sine-wave in the H-bridge you are probably using. Try different freq. modulation indexes, but an index of at least 10 should be used (preferably somewhere around 100 if you want a good SPWM). That is, if the sine-wave frequency is 60 Hz, the triangle-wave frequency should be above 600, preferably 6,000 or more. Complications in the filter design in the "output" of the H-bridge will vary greatly when playing around with the frequency modulation index. That being said, keeping the amplitude modulation index at a static 0.8, and playing around with the triangle-wave frequency should be your best bet.
What is the formula for a sine wave?
The formula for a sine wave is y A sin(Bx C) where A is the amplitude, B is the frequency, x is the independent variable, and C is the phase shift.
Does the amplitude of a sine function describe the distance between the highest and lowest values of the function?
The amplitude of a sine function describes the distance from the midline of the wave to its highest or lowest point, not the total distance between the highest and lowest values. Specifically, it is half the distance between the maximum and minimum values of the function. For a sine function, the amplitude is calculated as the absolute value of the coefficient in front of the sine term.
What is the equation of a sine wave?
The equation of a sine wave is y A sin(Bx C) D, where A represents the amplitude, B is the frequency, C is the phase shift, and D is the vertical shift.
How do you calculate the length of a Hz sine wave?
The length of a Hz sine wave can be calculated using the formula: length = 1/frequency. For example, for a sine wave of 1 Hz, the length would be 1 second. This formula is derived from the relationship between frequency (number of cycles per second) and the period (duration of one cycle), where period = 1/frequency.
What type of instruments sine wave?
Sinusoidal waves are commonly produced by instruments such as synthesizers, function generators, and oscillators. These instruments are capable of generating pure sine waves with a consistent frequency and amplitude.
How to find the equation of a sine wave?
To find the equation of a sine wave, you need to know the amplitude, period, and phase shift of the wave. The general form of a sine wave equation is y Asin(B(x - C)), where A is the amplitude, B is the frequency (related to the period), and C is the phase shift. By identifying these values from the given information or graph, you can write the equation of the sine wave.
