Solved

In a Suspension Bridge, the Shape of the Suspension Cables

Question 147

Multiple Choice

In a suspension bridge, the shape of the suspension cables is parabolic. The bridge shown in the figure has towers that are 400 m apart, and the lowest point of the suspension cables is 100 m below the top of the towers. Find the equation of the parabolic part of the cables, placing the origin of the coordinate system at the lowest point of the cable. NOTE: This equation is used to find the length of the cable needed in the construction of the bridge. In a suspension bridge, the shape of the suspension cables is parabolic. The bridge shown in the figure has towers that are 400 m apart, and the lowest point of the suspension cables is 100 m below the top of the towers. Find the equation of the parabolic part of the cables, placing the origin of the coordinate system at the lowest point of the cable. NOTE: This equation is used to find the length of the cable needed in the construction of the bridge. A) x<sup> 2</sup> = 800y B) y<sup> 2</sup> = 1,600x C) x<sup> 2</sup> = 400y D) x<sup> 2</sup> = 1,600y E) x<sup> 2</sup> = -400y


A) x 2 = 800y
B) y 2 = 1,600x
C) x 2 = 400y
D) x 2 = 1,600y
E) x 2 = -400y

Correct Answer:

verifed

Verified

Unlock this answer now
Get Access to more Verified Answers free of charge

Related Questions

Q140: Find the center and vertices of the

Q141: Find the standard form of the equation

Q142: Find the center and vertices of the

Q143: Find the standard form of the equation

Q144: Find the vertices and asymptotes of the

Q145: Find the vertex and directrix of the

Q146: An elliptical stained-glass insert is to be

Q148: Graph the hyperbola. <img src="https://d2lvgg3v3hfg70.cloudfront.net/TB8632/.jpg" alt="Graph the

Q149: Find the vertex and directrix of the

Q150: Find the standard form of the equation