Question
What potential strategies could you use to find the distance from the Bumper Cars to the roller Coaster? Check all that apply.
(2 points)
Count the diagonal squares from the bumper cars to the roller coaster.
Draw the diagonal; drop a right triangle to see the vertical distance of 6 and horizontal distance of 9; use the Pythagorean Theorem to solve for the diagonal distance; approximately 10.8 units
Draw the diagonal; drop a right triangle to see the vertical distance of 6 and horizontal distance of 9; A dd 6+9=15 15 units
Use the distance formula using the points (- 5, 4) and (- 2, 4) approximately 2.6 units
Use the distance formula using the points (- 5, 4) and (4, - 2) approximately 10.8 units
Draw the diagonal; drop a right triangle to see the vertical distance of 9 and horizontal distance of 6; use the Pythagorean Theorem to solve for the diagonal distance; approximately 3.87 units
(2 points)
Count the diagonal squares from the bumper cars to the roller coaster.
Draw the diagonal; drop a right triangle to see the vertical distance of 6 and horizontal distance of 9; use the Pythagorean Theorem to solve for the diagonal distance; approximately 10.8 units
Draw the diagonal; drop a right triangle to see the vertical distance of 6 and horizontal distance of 9; A dd 6+9=15 15 units
Use the distance formula using the points (- 5, 4) and (- 2, 4) approximately 2.6 units
Use the distance formula using the points (- 5, 4) and (4, - 2) approximately 10.8 units
Draw the diagonal; drop a right triangle to see the vertical distance of 9 and horizontal distance of 6; use the Pythagorean Theorem to solve for the diagonal distance; approximately 3.87 units
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Answered by
GPT 3.5
- Count the diagonal squares from the bumper cars to the roller coaster.
- Draw the diagonal; drop a right triangle to see the vertical distance of 6 and horizontal distance of 9; use the Pythagorean Theorem to solve for the diagonal distance; approximately 10.8 units
- Draw the diagonal; drop a right triangle to see the vertical distance of 9 and horizontal distance of 6; use the Pythagorean Theorem to solve for the diagonal distance; approximately 3.87 units
- Draw the diagonal; drop a right triangle to see the vertical distance of 6 and horizontal distance of 9; use the Pythagorean Theorem to solve for the diagonal distance; approximately 10.8 units
- Draw the diagonal; drop a right triangle to see the vertical distance of 9 and horizontal distance of 6; use the Pythagorean Theorem to solve for the diagonal distance; approximately 3.87 units
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