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minimum gradient

is important only at locations where surface drainage is important, camber will take care of the lateral drainage, but the longitudinal drainage along the side drains requires some slope for smooth flow of water

overtaking sight distance

is measured along the center line of the road over which a driver with his eye level 1.2 m above the road surface can see the top of an object 1.2 m above the road surface

intermediate sight distance

is often referred to as combined distance travelling at design speed needs to stop before reaching a stationary object

horizontal alignment

is one of the most important features influencing the efficiency and safety of a highway

horizontal transition curve

is provided to change the horizontal alignment from straight to circular curve gradually and has a radius which decreases from infinity at the straight end tangent point to the desired radius of the circular curve at the other end curve point

sight distance

is the actual distance along the road surface, over which a driver from a specified height above the carriage way has visibility of stationary or moving objects

setback distance or clearance distance

is the distance required from the centreline of a horizontal curve to an obstruction on the inner side of the curve to provide adequate sight distance at a horizontal curve

lag distance

is the distance the vehicle travelled during the reaction time and is given by velocity multiply by time

breaking distance

is the distance travelled by the vehicle during braking operation

headlight sight distance

is the distance visible to a driver during night driving under the illumination of head lights

ruling gradient

is the maximum gradient with which the designer attempts to design the vertical profile of the road

overtaking sight distance

is the minimum distance open to the vision of the driver of a vehicle intending to overtake the slow vehicle ahead safely against the traffic in the opposite direction

overtaking zones

the desirable length of overtaking zones is 5 times OSD and the minimum is three times OSD

speed the vehicle

affects the sight distance., higher the speed, more time will be required to stop the vehicle

off tracking

when a vehicle negotiates a horizontal curve, the rear wheels follow a path of shorter radius than the front wheels

design consideration

are comfort and security of the driver, and the appearance of the profile alignment, among these, a sight distance requirement for the safety is most important on summit curves

overtaking zones

are provided when OSD cannot be provided throughout the length of the highway

sag curve or valley curve

are vertical curves with convexity downwards

summit curve

are vertical curves with gradient upwards

exceptional gradient

are very steeper gradients given at unavoidable situations, in mountainous and steep terrain, the gradient is restricted to 2.5%

gradient up to 7%

can have considerable effect on the speeds of the passenger cars

vertical alignment

consists of gradients and vertical curves, the vertical alignment is usually drawn as a profile, which is a graph with elevation as vertical axis and the horizontal distance along the centre line of the road as the horizontal axis

centrifugal force

depends on speed and radius of the horizontal curve and is counteracted to a certain extent by transverse friction between the tyre and pavement surface

efficiency of brakes

depends upon the age of the vehicle, vehicle characteristics etc.

headlight sight distance

ensures that the roadway ahead is illuminated to at least the stopping distance

A = g1% + g2%

formula for A

H = [ L ( g1 + g2 ) ] / 8

formula for H, symmetrical

H = [ ( L1 ) ( L2 ) ( g1 + g2 ) ] / [ 2 ( L1 + l2 ) ]

formula for H, unsymmetrical

L = ( A S² ) / [ 100 ( √ 2 h1 + √ 2 h2 )² ]

formula for S < L, crest

L = [ S² ( g2 - g1 ) ] / [ 2 ( S θ + h ) ] g2 - g1 = decimal, with sign θ = multiply to π / 180 for rad

formula for S < L, headlamp

L = ( A S² ) / ( 122 + 3.5 S )

formula for S < L, sag

L = 2 S - [ 200 ( √ h1 + √ h2 )² ] / A

formula for S > L, crest

L = [ 2 ( S θ + h ) ] / ( g2 - g1 ) g2 - g1 = decimal, with sign θ = multiply to π / 180 for rad

formula for S > L, headlamp

L = 2 S - ( 122 + 3.5 S ) / A

formula for S > L, sag

S1 = [ ( g1 ) ( L1 )² ] / 2 H S2 = L - S1 or S2 = [ ( g2 ) ( L2 )² ] / 2 H S1 = L - S2

formula for S1 or S2, with H, unsymmetrical

S1 / g1 = L / ( g1 + g2 ) or S2 / g2 = L / ( g1 + g2 )

formula for S1 or S2, with L, symmetrical

S = V t + V² / [ 2 G ( f + g1 ) ]

formula for V, crest

L = ( A V² ) / 395

formula for V, sag

g3% ( L1 + L2 ) = +- g1% ( L1 ) +- g2% ( L2 )

formula for g3, unsymmetrical

add (if going up) or subtract (if going down) the area below to grade diagram

how to get elevation

add (if going right) or subtract (if going left) the length on horizontal plane

how to get station

horizontal curve design elements

include design of super elevation, extra widening at horizontal curves, design of transition curve, and set back distance

horizontal alignment design

involves the understanding on the design aspects such as design speed and the effect of horizontal curve on the vehicles

overtaking sight distance

is the minimum sight distance on two-way single roadway roads that must be available to enable the driver of one vehicle to pass another vehicle safely without interfering with the speed of an oncoming vehicle travelling at the design speed

gradient

is the rate of rise or fall along the length of the road with respect to the horizontal

design speed

is the single most important factor in the design of horizontal alignment

reaction time of the driver

is the time taken from the instant the object is visible to the driver to the instant when the brakes are applied

intermediate sight distance

it allows two drivers travelling towards each other at design speed to stop before meeting and allows overtaking with safety when no opposing traffic in view

frictional resistance

plays an important role to bring the vehicle to stop

g1 / S1 = g2 / S2

ratio and proportion

centrifugal force

reactive force acting outward on a vehicle negotiating it

extra widening

refers to the additional width of carriageway that is required on a curved section of a road over and above that required on a straight alignment

length of transition curve

should be determined as the maximum of rate of change of centrifugal acceleration, rate of change of super elevation, and an empirical formula

critical length of grade

the maximum length of the ascending gradient which a loaded truck can operate without undue reduction in speed is called critical length of the grade

grade compensation

the maximum length of the ascending gradient which a loaded truck can operate without undue reduction in speed is called critical length of the grade

psychological widening

there is a tendency for the drivers to drive close to the edges of the pavement on curves. some extra space is to be provided for more clearance for the crossing and overtaking operations on curves

limiting gradient

this gradient is adopted when the ruling gradient results in enormous increase in cost of construction, on rolling terrain and hilly terrain it may be frequently necessary to adopt this gradient

mechanical widening

to provide the same clearance between vehicles travelling in opposite direction on curved roads as is provided on straight sections, there must be extra width of carriageway available


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