Uncertainty in Measured Quantities - PowerPoint PPT Presentation

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Uncertainty in Measured Quantities

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Uncertainty in Measured Quantities Measured values are not exact Uncertainty must be estimated ... how does the uncertainty propagate through the calculation – PowerPoint PPT presentation

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Title: Uncertainty in Measured Quantities


1
Uncertainty in Measured Quantities
  • Measured values are not exact
  • Uncertainty must be estimated
  • simple method is based upon the size of the
    gauges gradations and your estimate of how much
    more you can reliably interpolate
  • statistical method uses several repeated
    measurements
  • calculate the average and the variance
  • choose a confidence level (95 recommended)
  • use t-table to find uncertainty limits
  • Propagation of uncertainty
  • Uncertainty in calculated values
  • when you use a measured value in a calculation,
    how does the uncertainty propagate through the
    calculation
  • Uncertainty in values from graphs and tables

2
Comparing a Measured Value (x) to aTheoretical
or Known Value (Y)
  • Compute ?, the uncertainty in x, as already
    described
  • If (x - ?) lt Y lt (x ?)
  • there is no significant difference between x and
    Y at the confidence level used to find ?.
  • Otherwise
  • x and Y are not equal at the confidence level
    used.

3
Comparing Two Measured Values
  • Suppose x was measured using two different
    instruments as an example
  • Approach 1
  • find ??1 and ?2 as previously described
  • suppose x1 gt x2
  • then if (x2 ?2) gt (x1 -??1) there is no
    significant difference between the two at the
    confidence level used to find the uncertainties

4
Comparing Two Measured ValuesA Second Approach
  • Calculate tcalc
  • Look up ttable for (N1 N2 - 2) degrees of
    freedom at the desired confidence level
  • There is no significant difference between the
    two values if

5
Uncertainty in Values Read from Graphs
  • Suppose x was measured or calculated and now y is
    being determined
  • Note that ?low and ?high are not equal
  • My personal preference is to take whichever is
    larger and use it as both the low and high
    uncertainty

6
Uncertainty from Charts with Parameters
  • Suppose x and p were measured or calculated and y
    is now desired
  • Method shown is a worst case uncertainty
  • assumes maximum of both errors
  • errors often offset each other

7
Uncertainty in Values from a Table
  • As before, ?low and ?high are not equal

8
Error Propagation in Calculations
  • Suppose x, y, and z were measured (or calculated
    from other measured values)
  • this means the uncertainty for each is known
  • Now want to calculate A which is a function of
    these measured values
  • also want to know the uncertainty in the
    calculated value of A
  • A f(x,y,z)

9
Error Propagation
  • For infinitesimal errors (dx, dy, and dz)
  • Assuming the errors are small enough that the
    partials of f are not affected, the actual errors
    (?A, ?x, ?y and ?z) can be substituted for the
    infinitesimal ones (dA, dx, dy, and dz)

10
Errors arent known Uncertainties are known
  • The uncertainties are the maximum values of the
    errors, not the actual errors
  • It is likely that some errors will cancel each
    other out
  • and that most errors will be smaller than the
    maximum
  • Square both sides of the previous equation, then
    average over all possible errors (assuming a
    normal distribution)

11
Formula for Uncertainty in a Calculated Value
  • Resulting equation for Uncertainty
  • Example Suppose a cylinder has a radius of 3.3
    0.1 cm and a length of 10.8 0.2 cm. What is its
    volume and what is the uncertainty in that volume?

12
Solution
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