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Precalculus Enhanced with Graphing Utilities

Sullivan

$Math Studyset 91影视 Explanations$ Math

6th Edition 路 1200 pages

ISBN: 9780321795465

Chapter 8: Q. 1 (page 534)

Write the formula for the distance $d$ from $P_{1} = (x_{1}, y_{1})$ to $P_{2} = (x_{2}, y_{2})$ .

Short Answer

Expert verified

The solution is $d = \sqrt{{(x_{2} - x_{1})}^{2} + {(y_{2} - y_{1})}^{2}}$ .

Step by step solution

Step 1. Given information

$P_{1} = (x_{1}, y_{1})$ and $P_{2} = (x_{2}, y_{2})$

Step 2. Calculation

The formula for the distance $d$ from $P_{1} = (x_{1}, y_{1})$ to $P_{2} = (x_{2}, y_{2})$ is -

$d = \sqrt{{(x_{2} - x_{1})}^{2} + {(y_{2} - y_{1})}^{2}}$

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Write the formula for the distance dfrom P1=x1,y1to P2=x2,y2.

Short Answer

Step by step solution

Step 1. Given information

Step 2. Calculation

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Write the formula for the distance $d$ from $P_{1} = (x_{1}, y_{1})$ to $P_{2} = (x_{2}, y_{2})$ .