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1.5: Interpolation

  • Page ID
    9463
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    Linear interpolation is one of the most common techniques for estimating values between two given data points. For example, when using steam tables, we often have to carry out interpolations. With this technique, we assume that the function between the two points is linear. MATLAB has a built-in interpolation function.

    The

    interp1
    

    Function

    Give an x-y table, y_new = interp1(x,y,x_new) interpolates to find y_new. Consider the following examples:

    To demonstrate how the interp1 function works, let us create an x-y table with the following commands; x = 0:5; y = [0,20,60,68,77,110]; To tabulate the output, we can use [x',y'] The result is ans = 0 0 1 20 2 60 3 68 4 77 5 110 Suppose we want to find the corresponding value for 1.5 or interpolate for 1.5. Using y_new = interp1(x,Y,x_new) syntax, let us type in: y_new=interp1(x,y,1.5) y_new = 40

    The table we created above has only 6 elements in it and suppose we need a more detailed table. In order to do that, instead of a single new x value, we can define an array of new x values, the interp1 function returns an array of new y values:new_x = 0:0.2:5; new_y = interp1(x,y,new_x); Let's display this table [new_x',new_y']. The result is

    ans = 0 0 0.2000 4.0000 0.4000 8.0000 0.6000 12.0000 0.8000 16.0000 1.0000 20.0000 1.2000 28.0000 1.4000 36.0000 1.6000 44.0000 1.8000 52.0000 2.0000 60.0000 2.2000 61.6000 2.4000 63.2000 2.6000 64.8000 2.8000 66.4000 3.0000 68.0000 3.2000 69.8000 3.4000 71.6000 3.6000 73.4000 3.8000 75.2000 4.0000 77.0000 4.2000 83.6000 4.4000 90.2000 4.6000 96.8000 4.8000 103.4000 5.0000 110.0000

    Using the table below, find the internal energy of steam at 215 ˚C and the temperature if the internal energy is 2600 kJ/kg (use linear interpolation).

    Temperature [C] Internal Energy [kJ/kg]
    100 2506.7
    150 2582.8
    200 2658.1
    250 2733.7
    300 2810.4
    400 2967.9
    500 3131.6

    An extract from Steam Tables

    First let us enter the temperature and energy values temperature = [100, 150, 200, 250, 300, 400, 500]; energy = [2506.7, 2582.8, 2658.1, 2733.7, 2810.4, 2967.9, 3131.6]; [temperature',energy'] returns ans = 1.0e+003 * 0.1000 2.5067 0.1500 2.5828 0.2000 2.6581 0.2500 2.7337 0.3000 2.8104 0.4000 2.9679 0.5000 3.1316 issue the following for the first question: new_energy = interp1(temperature,energy,215) returnsnew_energy = 2.6808e+003 Now, type in the following for the second question: new_temperature = interp1(energy,temperature,2600) returns new_temperature = 161.4210

    Summary of Key Points

    1. Linear interpolation is a technique for estimating values between two given data points,
    2. Problems involving steam tables often require interpolated data,
    3. MATLAB has a built-in interpolation function.

    This page titled 1.5: Interpolation is shared under a CC BY 4.0 license and was authored, remixed, and/or curated by Serhat Beyenir via source content that was edited to the style and standards of the LibreTexts platform; a detailed edit history is available upon request.

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