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The distance formula The distance formula d = (x2-x1)2 + (y2-y1)2 The distance formula is used to find the distance between two points d = (x2-x1)2 + (y2-y1)2 The distance formula is used to find the distance between two points d = (x2-x1)2 + (y2-y1)2 The distance formula is used to find the distance between two points d = (x2-x1)2 + (y2-y1)2 The distance formula is used to find the distance between two points d = (x2-x1)2 + (y2-y1)2 The distance formula is used to find the distance between two points d = (x2-x1)2 + (y2-y1)2 on a graph The distance formula is used to find the distance between two points d = (x2-x1)2 + (y2-y1)2 on a graph First label the points as x1, x2, y1, y2 d = (x2-x1)2 + (y2-y1)2 First label the points as x1, x2, y1, y2 (-3 , 1) d = (x2-x1)2 + (y2-y1)2 (3 , 3) First label the points as x1, x2, y1, y2 (-3 , 1) x1 d = (x2-x1)2 + (y2-y1)2 (3 , 3) First label the points as x1, x2, y1, y2 (-3 , 1) x1 y1 d = (x2-x1)2 + (y2-y1)2 (3 , 3) First label the points as x1, x2, y1, y2 (-3 , 1) x1 y1 d = (x2-x1)2 + (y2-y1)2 (3 , 3) x2 First label the points as x1, x2, y1, y2 (-3 , 1) x1 y1 d = (x2-x1)2 + (y2-y1)2 (3 , 3) x2 y2 First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x1 y1 d = (x2-x1)2 + (y2-y1)2 (3 , 3) x2 y2 First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) d = (x2-x1)2 + (y2-y1)2 (3 , 3) First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) d = (x2-x1)2 + (y2-y1)2 (3 , 3) x1 First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) d = (x2-x1)2 + (y2-y1)2 (3 , 3) x1 y1 First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 d = (x2-x1)2 + (y2-y1)2 (3 , 3) x1 y1 First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (-3 (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (-3 - (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (-3 - 3) (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (-3 - 3)2 (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (-3 - 3)2 + (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (-3 - 3)2 + (1 (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (-3 - 3)2 + (1 + (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (-3 - 3)2 + (1 + 3) (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (-3 - 3)2 + (1 + 3)2 (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 and simplify (you can label them either way) (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (-3 - 3)2 + (1 + 3)2 (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 and simplify (you can label them either way) (-3 , 1) x2 y2 d = (-6)2 + (4)2 (x2-x1)2 + (y2-y1)2 (-3 - 3)2 + (1 + 3)2 (3 , 3) x1 y1 Then plug them into the formula First label the points as x1, x2, y1, y2 and simplify (you can label them either way) (-3 , 1) x2 y2 d = (-6)2 + (4)2 (x2-x1)2 + (y2-y1)2 (-3 - 3)2 + (1 + 3)2 (3 , 3) x1 y1 = 36 + 16 Then plug them into the formula First label the points as x1, x2, y1, y2 and simplify (you can label them either way) 52 (-3 , 1) x2 y2 d = (-6)2 + (4)2 (x2-x1)2 + (y2-y1)2 (-3 - 3)2 + (1 + 3)2 (3 , 3) x1 y1 = 36 + 16 This answer can be simplified 52 (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (3 , 3) x1 y1 This answer can be simplified to an exact answer 52 (-3 , 1) x2 y2 d = (x2-x1)2 + (y2-y1)2 (3 , 3) x1 y1 This answer can be simplified to an exact answer 52 (-3 , 1) x2 2 y2 13 d = (x2-x1)2 + (y2-y1)2 (3 , 3) x1 y1 This answer can be simplified to an exact answer or a rounded answer 52 (-3 , 1) x2 2 y2 13 d = (x2-x1)2 + (y2-y1)2 (3 , 3) x1 y1 This answer can be simplified to an exact answer or a rounded answer 52 (-3 , 1) x2 7.2111 2 y2 13 d = (x2-x1)2 + (y2-y1)2 (3 , 3) x1 y1 d = ( (x2-x1)2 + (y2-y1)2 , ) ( , ) d = ( x1 ? 2 (x2-x1)2 + (y2-y1)2 , y1 1 ) ( x2 5 , 5 y2 ? ) ( - )2 + ( - )2 d = ( x1 2 (x2-x1)2 + (y2-y1)2 , y1 1 ) ( x2 5 , 5 y2 ) ( ( 5 - )2 2 + ( )2 + ( )2 5 - 1 )2 d = ( x1 2 (x2-x1)2 + (y2-y1)2 , y1 1 ) ( x2 5 , 5 y2 ) ( ( 3 5 + - )2 2 + ( )2 + ( 4 )2 5 - 1 )2 d = ( x1 2 (x2-x1)2 + (y2-y1)2 , y1 1 ) ( x2 5 , 5 y2 ) ( 9 ( + 3 5 16 - )2 2 + ( = )2 + ( 4 )2 5 - 1 )2 d = ( x1 2 (x2-x1)2 + (y2-y1)2 , y1 1 ) ( x2 5 , 5 y2 ) ( 9 ( + 3 5 16 - )2 2 + ( = )2 + ( 4 25 )2 5 = - 1 )2 d = ( x1 2 (x2-x1)2 + (y2-y1)2 , y1 1 ) ( x2 5 , 5 y2 ) Another method of finding the distance is to use ( 2 , 1 ) ( 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use ( 2 , 1 ) ( 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use a2 +b2 = c2 ( 2 , 1 ) ( 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use a2 +b2 = c2 A right triangle can be made ( 2 , 1 ) ( 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use a2 +b2 = c2 A right triangle can be made ( drawing the legs parallel 2 to the axis , 1 ) ( 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use a2 +b2 = c2 A right triangle can be made ( drawing the legs parallel 2 to the axis , 1 ) ( 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use a2 +b2 = c2 A right triangle can be made ( drawing the legs parallel 2 to the axis , 1 ) ( 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use a2 +b2 = c2 Then the side lengths ( can easily be found 2 , 1 3 ) ( 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use a2 +b2 = c2 Then the side lengths ( can easily be found 2 , 1 3 ) ( 4 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use a2 +b2 = c2 Using the legs we can ( find the hypontenuse 2 , 1 3 ) ( 4 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use a2 +b2 = c2 Using the legs we can ( find the hypontenuse 2 (which is the distance) , 1 3 ) ( 4 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use 32 + 42 = c2 a2 +b2 = c2 Using the legs we can ( find the hypontenuse 2 (which is the distance) , 1 3 ) ( 4 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use 32 + 42 = c2 9 + 16 = c2 a2 +b2 = c2 Using the legs we can ( find the hypontenuse 2 (which is the distance) , 1 3 ) ( 4 5 , 5 ) Another method of finding the Pythagorean theorum the distance is to use 32 + 42 = c2 9 + 16 = c2 a2 +b2 = c2 25 = c2 Using the legs we can ( find the hypontenuse 2 (which is the distance) , 1 3 ) ( 4 5 , 5 ) |