What is the difference between linear approximation and a differential?
From my understanding, linear approximations and differentials both use the tangent line to a function to estimate the value of the function at a point. I understand that their respective equations are different - but conceptually how are they different?
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$\begingroup$The differential of a function at a point is an idealization of that function — it is a gadget that remembers a little bit extra information about the behavior of that function than just its value at the point.
(to be clear, the differential itself doesn't remember the value, only the extra information)
A linear approximation is a linear function that approximates something. A typical formula for a good linear approximation uses the value of the function at a point along with the differential of the function at the same point to produce produce an estimate of the function at values near that point. (this approximation is often called the differential approximation)
For a brief but sloppy explanation of the difference:
- The differential consists of just the slope
- The linear approximation consists of both the value and the slope
