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 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= ?

Given a solenoid of total number of windings, N, of length, l, and circular cross sectional...

Given a solenoid of total number of windings, N, of length, l, and circular cross sectional area, A. A current, I, is flowing through the wire winding that is made of copper. Assume that the copper has a resistivity p and the charge carrier density, n. Assuming that the winding wire is circular in shape with a cross-sectional area, a, and the adjacent wires are closely spaced together so the wire diameter is simply d=l/N. The volume of solenoid space...