Horizontal Curves: Given: Da=5o  I = 40o , PI station = 40+00. Calculate Length of Curve, L.

Horizontal Curves: Given: Da=5o I = 40o , PI station = 40+00. Calculate PC Stationing.

Horizontal Curves: Given: Da=5o I = 40o , PI station = 40+00. Calculate PC Stationing.

ECC 310:       Horizontal Curve Assignment R=300.00        ∆= 52°- 15’- 34”                 Determine: L, T, L

ECC 310:       Horizontal Curve Assignment R=300.00        ∆= 52°- 15’- 34”                 Determine: L, T, L.C., M.O., E             ∆ = 20° 34’                              Da = 2°-05’-00”             Determine R, L, T, L.C., M.O., E             ∆ = 43°-25’-15”                      Da = 8°30’             Determine R, L, T, L.C., M.O., E             P.I. = 64 + 72.38                     T = 498.97             ∆ = 20° 34’                  R = 2750.35                L = 987.20             Find P.C., P.T., L.C., M.O., E             Da = 6°                        ∆...

Horizontal Curve Given: Radius (R) = 851.88' Degree of Curve (Da°) = 06°-43'-33" PC Station =...

Horizontal Curve Given: Radius (R) = 851.88' Degree of Curve (Da°) = 06°-43'-33" PC Station = 05 + 16.73 Deflection angle to Station 10 + 75 = ? Question 9 options: 18°-48'-18" 18°-46'-27" 18°-45'-12" 18°-41'-54"

Horizontal Curves: Problem 1 : Determine R, T, L, E, M, and the stations of the...

Horizontal Curves: Problem 1 : Determine R, T, L, E, M, and the stations of the PC and PT given the following information • D = 6°30’ • I = 20°30’ • PI Station = 25 + 45.00

A horizontal curve in the field is measured to have a length of 284.92 feet and...

A horizontal curve in the field is measured to have a length of 284.92 feet and a radius of 250.00 feet. For the horizontal curve determine the following: a. If the BC station is 35+42.10, the station of the EC. b. The tangential length and station of the PI if the BC station is 35+42.10. c. If the tangent adjacent to the BC has an azimuth of 380 00’00”, the azimuth of the tangent line adjacent to the EC.

a horizontal curve has a tangent length of 500 ft is to be designed with deflection...

a horizontal curve has a tangent length of 500 ft is to be designed with deflection angle 90 the point of the beginning of the curve pc station is 100 determine the radius of the curve R determine the length of the curve L determine the station of the end of the curve point PT

A horizontal curve on a three-lane highway with 12-ft lanes has a PC located at station...

A horizontal curve on a three-lane highway with 12-ft lanes has a PC located at station 10+00 and PT at station 13+70. The central angle is 25 degrees, the superelevation is 4%, and 40 ft of clearance is available between an obstruction and the centerline. Determine the maximum safe design speed to the nearest 5 mph.

Given: L=200 ft equal tangent parabolic curve with g1 = -1.25%, g2 = +1.25%, VPI station...

Given: L=200 ft equal tangent parabolic curve with g1 = -1.25%, g2 = +1.25%, VPI station = 146+00, and VPI elevation = 1,895.00 ft. a. Compute stationing of BVC. b. Compute stationing of EVC. c. Compute rate of change, r. d. Compute elevation of BVC. e. Compute elevation at Station 145+50.

Question Two. (30 Marks) Given the following measurements taken in the field The initial grade (G1...

Question Two. Given the following measurements taken in the field The initial grade (G1 = + 4%) Station of BC =1+100. PI elevation = 181.4 m Design level at distance L/2 from BC =177.4 m. Design level at distance L/2+40 =176.75 m. Determine the following. 1 Length of the vertical curve. (14 M). 2 The station and elevation of the highest point (10 M) 3 The station and elevation of EC (6 M)

Find the length L of the curve R(t)=5cos(t)i−5sin(t)j+3tk over the interval [2,5]. L= ?

Find the length L of the curve R(t)=5cos(t)i−5sin(t)j+3tk over the interval [2,5]. L= ?