Title: 3'10 Linear Approximation and Differentials
13.10 - Linear Approximation and Differentials
2Linear (or Tangent Line) Approximations
For values close to a,
3Linear Approximation Examples
Determine the linearization (another name for
linear approximation) of f (x) ln x at a 1.
Find the linear approximation of the function
And use it to approximate the numbers
and
4Differentials
Up to now, weve thought of dy/dx as notation for
a derivative. We can think of dx and dy as
separate quantities called differentials.
5Differentials
We can now think of dy / dx as a ratio of two
quantities and separate them. So for a given
change in x (dx) we can calculate a change in y
(dy).
6Differentials Example 1
Find the differential dy and evaluate dy for the
given values of x and dx.
7Differentials Example 2
You may have used this concept when calculating
errors in measurements or calculations.
The radius of a circular disk is given as 24 cm
with a maximum error in measurement of 0.2 cm.
(a) Use differentials to estimate the maximum
error in the calculated area of the disk. (b)
What is the relative errors (dA / A)