![SOLVED:Use the total differential dz to approximate the change in z as (x, y) moves from P to Q. Then use a calculator to find the corresponding exact change Δz (to the SOLVED:Use the total differential dz to approximate the change in z as (x, y) moves from P to Q. Then use a calculator to find the corresponding exact change Δz (to the](https://cdn.numerade.com/previews/27bae2ec-7824-4ff0-9419-20138a28842e.gif)
SOLVED:Use the total differential dz to approximate the change in z as (x, y) moves from P to Q. Then use a calculator to find the corresponding exact change Δz (to the
![SOLVED: Use the total differential to approximate the quantity- Then use calculator to approximate the quantity; and give the absolute value of the difference in the twO results 16.042 982 Set up SOLVED: Use the total differential to approximate the quantity- Then use calculator to approximate the quantity; and give the absolute value of the difference in the twO results 16.042 982 Set up](https://cdn.numerade.com/ask_images/07b03f8726414e07af9b2fce0b08a313.jpg)
SOLVED: Use the total differential to approximate the quantity- Then use calculator to approximate the quantity; and give the absolute value of the difference in the twO results 16.042 982 Set up
![SOLVED:Use the total differential to approximate each quantity. Then use a calculator to approximate the quantity, and give the absolute value of the difference in the two results to 4 decimal places. SOLVED:Use the total differential to approximate each quantity. Then use a calculator to approximate the quantity, and give the absolute value of the difference in the two results to 4 decimal places.](https://cdn.numerade.com/previews/dc5dd2f8-80b7-46a6-acdd-2fdf598b084d_large.jpg)