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| '''
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| A linear function has one independent variable (x) and one dependent variable (y), and has the following form:
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| y = f(x) = ax + b
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| This function is used to calculate a value for the dependent variable when we choose a value for the independent variable.
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| Explanation:
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| f(x) = the output (the dependant variable)
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| x = the input (the independant variable)
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| a = slope = is the coefficient of the independent variable. It gives the rate of change of the dependent variable
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| b = intercept = is the value of the dependent variable when x = 0. It is also the point where the diagonal line crosses the vertical axis.
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| '''
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| Here, the numbers and variables means:
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| f(x) = The output. This number is where we get the predicted value of Calorie_Burnage
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| x = The input, which is Average_Pulse
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| 2 = Slope = Specifies how much Calorie_Burnage increases if Average_Pulse increases by one. It tells us how "steep" the diagonal line is
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| 80 = Intercept = A fixed value. It is the value of the dependent variable when x = 0
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| Graph Explanations:
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| - The horizontal axis is generally called the x-axis. Here, it represents Average_Pulse.
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| - The vertical axis is generally called the y-axis. Here, it represents Calorie_Burnage.
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| - Calorie_Burnage is a function of Average_Pulse, because Calorie_Burnage is assumed to be dependent on Average_Pulse.
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| - In other words, we use Average_Pulse to predict Calorie_Burnage.
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| - The blue (diagonal) line represents the structure of the mathematical function that predicts calorie burnage.
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| '''
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