Answered: Q2: Two intersecting profile gradients… | bartleby

Structural Analysis

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Transcribed Image Text:Q2: Two intersecting profile gradients consist of G1= -0.5% gradient meeting G2= 0.2% gradient. They are to be joined by a parabolic vertical curve 140.6m long. Station of the PVT= 261.1m, RL PVT = 30.5m. 1. Set out the vertical curve at stations 210 and 255. 2. Calculate the length of the single Chord between station 210 and 255. ( 3. Find the chainage and RL for the low/high point. 4. The gradient at the mid-point (L/2) please I need to solution MI

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Q4: A road is to be redesigned using a parabolic vertical curve to provide clearance beneath a bridge (see Figure below). The (PC OR PVC) has chainage 1140.00m, with an RL of 125.536m. A bridge at chainage 1300.00 has an RL = 128.5m at its lowest point. You must provide 4.5m clearance from the underside of the bridge, and the parabola will finish with a succeeding gradient, G 2=+3.6 %. G1= ? 1. What is the length of the curve? 2. What is the initial gradient G1? PC Ch 1140 RL 125.536 G1= ? L =? Point PVC PVT Easting (m) 122.8 326.1 Here De bridkje Ah = 4.5 Northing (m) Ch 1300 RL 128.5 40.2 76.3 G2 = +3.6% RL = 124.00 PT Elevation 125.536 ?
A +2% gradient and -3% gradient intersect at a VPI with chainage 800.000m and elevation above datum of 31.000m. Assuming the length of the vertical crest curve is 700.000m, calculate the finished level at station value (chainage) 500.000m. Note: Your answer should be provided to THREE decimal places and in units of meters.
A two-lane highway (one 3.6 m lane in each direction) goes from normal crown with 2% cross-slopes to 10% superelevation by means of a spiral transition curve. Determine the minimum length of the transition if the difference in grade between the centerline and edge of traveled way is limited to1:200.Round up to the next largest 20m interval.(b) Draw the superelevation diagram for the transition described in part a ,The station of the TS is 160+00

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