Civil Engineering - Highway Engineering - Discussion
Discussion Forum : Highway Engineering - Section 5 (Q.No. 35)
35.
Three points, A, B and C 500 m apart on a straight road have 500 m, 505 m and 510 m as their reduced levels. The road is said to have
Discussion:
36 comments Page 1 of 4.
Agha Bilal said:
10 months ago
To understand the gradient between points A, B, and C, we need to analyze the difference in their reduced levels and how the terrain changes from one point to another.
Given data:
Point A: Reduced level = 500 m.
Point B: Reduced level = 505 m.
Point C: Reduced level = 510 m.
The points A, B, and C are 500 m apart, meaning the distances between each pair are:
Distance between A and B = 500 m.
Distance between B and C = 500 m.
Distance between A and C = 1000 m (A to B to C).
Analyzing the gradient:
1. Between A and B:
- The difference in reduced levels between A and B is( 505 - 500 = 5) m.
- Since the reduced level at B (505 m) is greater than at A (500 m), there is a *positive gradient* between A and B. The terrain rises from A to B.
2. Between B and C:
- The difference in reduced levels between B and C is( 510 - 505 = 5) m.
- Since the reduced level at C (510 m) is higher than at B (505 m), there is a *positive gradient* between B and C. The terrain continues to rise from B to C.
Conclusion:
The road between points A and C has a *positive gradient* overall. There is a rise from A to B (positive gradient), and then from B to C, the terrain continues to rise, so the gradient between A and C is positive throughout. There is **no negative gradient** between any of the points.
Thus, the road has *a positive gradient between A and C*.
Given data:
Point A: Reduced level = 500 m.
Point B: Reduced level = 505 m.
Point C: Reduced level = 510 m.
The points A, B, and C are 500 m apart, meaning the distances between each pair are:
Distance between A and B = 500 m.
Distance between B and C = 500 m.
Distance between A and C = 1000 m (A to B to C).
Analyzing the gradient:
1. Between A and B:
- The difference in reduced levels between A and B is( 505 - 500 = 5) m.
- Since the reduced level at B (505 m) is greater than at A (500 m), there is a *positive gradient* between A and B. The terrain rises from A to B.
2. Between B and C:
- The difference in reduced levels between B and C is( 510 - 505 = 5) m.
- Since the reduced level at C (510 m) is higher than at B (505 m), there is a *positive gradient* between B and C. The terrain continues to rise from B to C.
Conclusion:
The road between points A and C has a *positive gradient* overall. There is a rise from A to B (positive gradient), and then from B to C, the terrain continues to rise, so the gradient between A and C is positive throughout. There is **no negative gradient** between any of the points.
Thus, the road has *a positive gradient between A and C*.
(1)
Pamu said:
1 year ago
I think only option C should be the right answer.
Adane T said:
3 years ago
I think B is the correct answer.
(1)
Engr Shabbir said:
3 years ago
I think C is the correct answer.
Faturam said:
4 years ago
C is the right answer.
Behroz Ali said:
4 years ago
B is the correct Answer.
Suraj Giri said:
5 years ago
Here, it's given RL not staff reading, continuous increase of RL means positive gradient between A and C. So answer must be B.
(5)
Krishna Nayak said:
5 years ago
Thanks @Mohit Patial.
@pcivilian said:
5 years ago
C is the Right answer.
Jitendra said:
5 years ago
Absolutely right, Thanks @Mohit Patia.
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