How to Analyze Wave Period, Amplitude, and Frequency from a Graph?

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In summary, a computerized wave display is a visual representation of a waveform created using computer software, which allows for analysis and manipulation of the signal. It works by converting analog signals into digital data and uses algorithms to plot and display the waveform. The benefits of using a computerized wave display include easy visualization and analysis of complex waveforms, accurate measurement of amplitude and frequency, and the ability to manipulate the signal for various applications. It can be used for different types of signals, including sound, electrical, and biological signals, and can be tailored for specific applications. While similar in function, a computerized wave display and an oscilloscope are different tools, with an oscilloscope being a physical instrument used for electrical signals and a computerized
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akatsafa
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How do I find the period, amplitude, and frequency from a graph? It doesn't give me any numbers except that the voltage scale is 0.200 volts/division and the time scale is 0.50 milliseconds/division. How do I use these numbers to find the period, amplitude, and frequency?
 
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If it's like using an oscilloscope, then you have to count how many divisions are in a single period, and with that you can calculte the freq. as well

For the amplitude count how many divisions in the y-axis does the waveform have
 
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To find the period, amplitude, and frequency from a computerized wave display, you will need to use the voltage and time scales provided. The period is the time it takes for one complete cycle of the wave, and it can be found by measuring the distance between two consecutive peaks or troughs on the graph. In this case, since the time scale is 0.50 milliseconds/division, you can count the number of divisions between two consecutive peaks or troughs and multiply it by 0.50 milliseconds to find the period.

The amplitude is the maximum displacement of the wave from its equilibrium position and can be found by measuring the distance between the highest peak and the lowest trough on the graph. In this case, since the voltage scale is 0.200 volts/division, you can count the number of divisions between the highest peak and the lowest trough and multiply it by 0.200 volts to find the amplitude.

Lastly, the frequency is the number of complete cycles the wave completes in one second and can be found by dividing the number of cycles (determined by the period) by the time it takes to complete those cycles. In this case, since the time scale is 0.50 milliseconds/division, you will need to convert it to seconds by multiplying it by 0.001. Then, you can divide the number of divisions between two consecutive peaks or troughs by the time in seconds to find the frequency.

In summary, to find the period, amplitude, and frequency from a computerized wave display, you will need to use the voltage and time scales provided and apply the appropriate conversions.
 

1. What is a computerized wave display?

A computerized wave display is a visual representation of a waveform, such as sound or electrical signals, created using computer software. It displays the amplitude and frequency of the waveform over time, allowing for analysis and manipulation of the signal.

2. How does a computerized wave display work?

A computerized wave display works by converting analog signals into digital data, which can then be plotted and displayed on a computer screen. The software uses algorithms to analyze the data and create a visual representation of the waveform.

3. What are the benefits of using a computerized wave display?

The benefits of using a computerized wave display include the ability to easily visualize and analyze complex waveforms, accurately measure amplitude and frequency, and manipulate the signal for various applications such as audio editing or scientific research.

4. Can computerized wave displays be used for different types of signals?

Yes, computerized wave displays can be used for a variety of signals including sound, electrical, and even biological signals. The software can be tailored to specific types of signals and can be used for different applications such as music production or medical diagnostics.

5. Is there a difference between a computerized wave display and an oscilloscope?

While both a computerized wave display and an oscilloscope display waveforms, they are different tools. An oscilloscope is a physical instrument used to measure and display electrical signals, while a computerized wave display is a software-based tool used to analyze and manipulate various types of signals.

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