Challenge: Fit a Spring's Oscillation Data
In this challenge, you will work with displacement versus time data collected from a spring-mass system in oscillation. Your goal is to fit a sinusoidal model to the data, visualize both the raw measurements and the fitted curve, and analyze the quality of your fit by examining the residuals. This exercise will help you develop practical skills in model fitting and validation, which are essential for analyzing real experimental data in physics.
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Write a Python function to analyze spring-mass oscillation data by fitting a sinusoidal model and visualizing the results. This task will help you develop practical skills in model fitting and validation, which are essential for analyzing real experimental data in physics.
- Write a function that takes two arrays as input: one for time data and one for measured displacement data from a spring-mass oscillation experiment.
- Fit the displacement versus time data to the sinusoidal model defined as
A * sin(omega * t + phi) + C, where:Ais the amplitude;omegais the angular frequency;phiis the phase offset;Cis the vertical offset.
- Use the
scipy.optimize.curve_fitfunction to fit the model to the data. - Use the following initial parameter guesses for curve fitting:
- Amplitude (
A): half the range of the displacement data; - Angular frequency (
omega): 2.0; - Phase offset (
phi): 0; - Vertical offset (
C): mean of the displacement data.
- Amplitude (
- Plot both the original measured data (as points) and the fitted curve (as a line) on the same graph using
matplotlib.pyplot. - Compute the residuals as the difference between the measured displacement values and the fitted values at each time point.
- Plot the residuals as a function of time on a separate graph.
- Return the fitted parameters and the residuals from your function.
- Ensure your code is clear and well-structured, and that your plots include appropriate labels and titles.
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In this challenge, you will work with displacement versus time data collected from a spring-mass system in oscillation. Your goal is to fit a sinusoidal model to the data, visualize both the raw measurements and the fitted curve, and analyze the quality of your fit by examining the residuals. This exercise will help you develop practical skills in model fitting and validation, which are essential for analyzing real experimental data in physics.
Swipe to start coding
Write a Python function to analyze spring-mass oscillation data by fitting a sinusoidal model and visualizing the results. This task will help you develop practical skills in model fitting and validation, which are essential for analyzing real experimental data in physics.
- Write a function that takes two arrays as input: one for time data and one for measured displacement data from a spring-mass oscillation experiment.
- Fit the displacement versus time data to the sinusoidal model defined as
A * sin(omega * t + phi) + C, where:Ais the amplitude;omegais the angular frequency;phiis the phase offset;Cis the vertical offset.
- Use the
scipy.optimize.curve_fitfunction to fit the model to the data. - Use the following initial parameter guesses for curve fitting:
- Amplitude (
A): half the range of the displacement data; - Angular frequency (
omega): 2.0; - Phase offset (
phi): 0; - Vertical offset (
C): mean of the displacement data.
- Amplitude (
- Plot both the original measured data (as points) and the fitted curve (as a line) on the same graph using
matplotlib.pyplot. - Compute the residuals as the difference between the measured displacement values and the fitted values at each time point.
- Plot the residuals as a function of time on a separate graph.
- Return the fitted parameters and the residuals from your function.
- Ensure your code is clear and well-structured, and that your plots include appropriate labels and titles.
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