Geomatics 3. Field conditions require a highway curve to pass through a fixed point with elevation...
Field conditions require a highway curve to pass through a fixed point. Compute a suitable equal- tangent vertical curve and full-station elevations for the following: Grades of g,--3.80 % and g +1.00 %, VPI elevation 850.00 ft at station 30+00. Fixed elevation 852.00 ft at station 30+00. 2) Field conditions require a highway curve to pass through a fixed point. Compute a suitable equal- tangent vertical curve and full-station elevations for the following: Grades of g,--3.80 % and g +1.00...
There should be seven different elevations for the answer Problem 25.8 3 of 5 > A 530-ft curve, g,--1.00%, g,-+4.90%, VPI stations 46+00, VPI elevation 1350.00 ft, stakeout at full stations. Part A Tabulate station elevations for an equal-tangent parabolic curve for the data given above. Express your answers, separated by commas, to six significant figures. from lowest to highest elevation. ft, ft, ft, ft, ft, ft, ft Submit Request Answer
(A) For an equal tangent vertical curve g1 = -4%, g2 = +3%, L = 200.00 ft, BVC Station = 10+00.00, BVC Elev = 5000.00 ft. EVC Station = ? (b) For an equal tangent vertical curve g1 = -4%, g2 = +3%, L = 200.00 ft, BVC Station = 10+00.00, BVC Elev = 5000.00 ft. EVC Elevation = ? (D) For an equal tangent vertical curve g1 = -4%, g2 = +3%, L = 200.00 ft, BVC Station =...
downward 2% grade. The length 2. of the curve is 800 feet. The elevation of the beginning of the curve is 648.52 ft. The station of VPI is 31+00. Find: A vertical curve connects an upward 5% grade with a 1) The station of high point (5%) 2) Tangent elevation of high point (5%) 3) Tangent offset of high point (5%) 4) Elevation of the centerline at high point (5%) 3. The mayor of Shoridan wants to erect a large...
13. A 400-ft long equal tangent sag vertical curve has its PVC at station 100+00 and o b elevation 500 ft, the initial grade g,--4% and the final grade g2 elevation of the lowest point of the curve. +2.5%. Determine the
highway geometric Q1) A. What are the Principal elements of the highway cross section? Draw the typical cross sections for a two-lane highway. (5 Points) B. Briefly discuss the various indirect design factors to be considered for geometric design of highway. (10 Points) Q2) A. What is Road Alignment? Briefly describe the requirements of an ideal alignment. (5 Points) B. An equal-tangent sag vertical curve has the initial grade is -3.2% and the final grade is +1.8%, PVI at 30+30...
A 1080 ft long tangent crest vertical curve connects tangents ( G1= 4% , G2 = -2.8%). The two stations intersect at ghost station 640+00 where elevation is 1325.000 ft. Determine the stationing and elevations of the following points. 1. PVC 2. PVT 3. High point 4. 640+20
Problem #3 (20 Points) Vertical Curve Problem (Use both Tangents) See Attached Vertical Curve Drawing Station Tangent Elevation Tangent Offset В VC 45+00 45+50 46+00 PVI 678.14 46+18.47 46+50 47+00 47+50 EVC I. gl=+4.3%, g2 =-3.196, L = 300, 2. Calculate stations for BVC and EVC and insert into table 3. Calculate station for high/low point and insert into table (this will be located between stations already entered in table, and not yet highlighted). 4. Calculate ALL tangent elevations, tangent...
EXIT 211 A A 2,125 ft equal tangent vertical curve joins a +2.2% grade to-3.6% grade. The PVI of the vertical curve is station 55+21 at elevation 150 ft. To meet MUTCD standards for advance guidance, an overhead sign structure must be placed at station 55+85. The bottom of the sign will be 18 ft above the roadway surface (more than the recommended 16.5 feet to accommodate larger trucks that use the roadway). WEST 56 Utopia Botlom of sign 18...
Problem 6 Use the following data to calculate the layout of an equal tangent vertical curve by offsets for every full station. Use Wolfpack for the calculations and provide an image of the output file. g1 = -1.20% g2 = +2.50% X PVI = 48+70 Y PVI = 5,893.48 L = 1500' Y = Yevc +81X+ ) x2 Problem 7 Using the data and results of vertical curve Problem 6, calculate the station and elevation of the high (or low)...