What potential strategies could you use to find the distance from the Bumper Cars to the roller Coaster?
Check all that apply
A.) Use the distance formula using the points (-5, 4) and (-2, 4); approximately 2.6 units
B.) Draw the diagonal; drop a right triangle to see the vertical distance of 6 and horizontal distance of 9; Add 6 + 9 = 15; 15 units
C.) Count the diagonal squares from the bumper cars to the roller coaster.
D.) 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
E.) Use the distance formula using the points (-5, 4) and (4, -2); approximately 10.8 units
F.) 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
A.) Use the distance formula using the points (-5, 4) and (-2, 4); approximately 2.6 units
B.) Draw the diagonal; drop a right triangle to see the vertical distance of 6 and horizontal distance of 9; Add 6 + 9 = 15; 15 units
C.) Count the diagonal squares from the bumper cars to the roller coaster.
D.) 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
E.) Use the distance formula using the points (-5, 4) and (4, -2); approximately 10.8 units
F.) 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