CEIR11 Basic Civil Engineering Module 3 PDF

Summary

These lecture notes provide a basic overview of transportation engineering, focusing on concepts like transportation modes, road classification, and various aspects of transportation systems. The document emphasizes the role transportation plays in an economy, poverty alleviation, and urban/industrial development.

Full Transcript

CEIR11
Basic Civil Engineering

Dr. Lekshmi Mohan V
Assistant Professor
Department of Civil Engineering
National Institute of Technology, Tiruchirappalli
Email: [email protected]
 Module:3 Transportation
Modes of Transportation - Classification of Roads - Cross sectional Elements - Pavements - Traffic Parameters - Traffic
Management Systems

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 Transportation Engineering
“Transportation Engineering is the application of technological and scientific principles to
the planning, functional design, operation and management of facilities for any mode of
transportation in order to provide for the safe, rapid, comfortable, convenient,
economical and environmentally compatible movement of people and goods.”

- The Institute of Transportation Engineers, USA (1987)

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 Role of Transportation

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Economic Growth
Shapes, sustains and enhances the economy of a country
Transport and economy are closely inter-related

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Poverty Alleviation
Provision of a good road connectivity to
villages can increase the agricultural yield,
employment potential, general health of
the rural population and per capita
income.

Accelerates Agricultural
Development
Inputs like better seeds, pesticides and
fertilisers can reach the farmer at a low
cost if there is a good transport system.

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Urbanisation and
Industrial Development
As the transport infrastructure is
expanded, the rural population will slowly
migrate to towns and cities, and the
shifted population will gain employment
in manufacturing and services in the
towns and cities.
Exploitation of Natural
Resources

Most of the low-income and middle income
economies depend upon exploitation of natural
resources and their export to sustain their economy.
India is able to export its iron ore deposits because of
its transport infrastructure (railways, roads and
ports).
Saudi Arabia, rich in oil, is able to export oil because
of a good system of pipe lines and shipping.

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 Place Utility

RAW MATERIALS HAVE TO BE GOODS PRODUCED HAVE TO BE LOCATION FROM WHERE ITS
PROCESSED AND TRANSFORMED INTO TRANSPORTED TO CONSUMER MARGINAL UTILITY IS LOW, TO PLACES
CONSUMER GOODS WHERE ITS MARGINAL UTILITY IS
HIGH.

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Time Utility of Transport
Transport shortens the time needed to travel from place to place.
The time thus saved has a value attached to it, for the passengers, for the commodity in
transit and for the vehicles involved in transport.
Determines how fast and consistently a product moves from one point to another

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 Bridges the Separation between
the Producer and the Consumer
In India, steel is produced in the coal and iron ore belt of
West Bengal, Bihar, Jharkhand, Chhattisgarh and Orissa. It
is consumed all over the country.

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Helps Preserve the Quality
of Perishable Goods

Perishable goods like milk, fruits,
vegetables, fish, poultry products, meat
and flowers can be transported quickly
from the places of production to the
consumer

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Transport Reduces the Cost of Goods
A good system of transport (for example: good roads) has a low cost of transport. This helps
in bringing the goods to the consumer at a reduced cost.

Facilitates International Trade
Facilitates Administration of Vast Areas
Jammu-Kashmir valley Railway line, slated for connecting Kashmir Valley to the rest of
India’s vast rail network will facilitate the administration.
The Srinagar-Leh National Highway has facilitated the administration of the remote area of
Ladak.

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Tourism Promotion

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Vital for Defence and Strategic Needs

US Interstate Highway system -
conceived to provide a high level of
service to interstate travel and to meet
defence needs
Autobahn system in Germany helped
the Germans to move their tanks and
supplies to the war front
India, the vast network of border roads
has served to guard the country’s
frontiers.
Facilitates, Evacuation and Relief Operations during Natural
Disasters

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 Economic

Social & Role of
transportation Military
Cultural

Political

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 Modes of Transportation

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Different Modes of Transportation
❖Roadways or Highways
❖Railways
❖Waterways
❖Airways
❖Ropeways
❖Pipelines
❖Intermodal transportation

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Roadways
❖A road is an identifiable route, way or path between two or more places.

❖Roads are typically smoothed, paved, or otherwise prepared to allow easy travel.

❖A "road" is simply any pathway fit for riding.

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Where we are in the global stage?
❖The United States has the largest network of roadways of any
single country in the world with 6,645,709 km (as of 31 March
2017).

❖India has the second largest road system in the world with
5,897,671 km (as of 31 March 2017).

❖India has approximately 4.87 km of roads per 1,000 people.

❖India's road network carries over 65 percent of its freight and
about 85 percent of passenger traffic.
❖63.24% of Indian roads are paved.

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Characteristics of Road Transport
❖Roads are used by various types of road vehicles
Example: passenger cars, buses, trucks, two and three wheeled automobiles, pedal cycles
and animal drawn vehicles trucks, etc.
Railway tracks are used only by rail locomotives and wagons, waterways are used by only
ships and boats.

❖Road transport requires a relatively small investment for government.
Motor vehicles are much cheaper than other carriers like rail locomotives and wagons, water
and air carriers.
Construction and maintenance of roads is also cheaper than that of railway tracks, docks,
harbors and airports.

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Characteristics of Road Transport
❖Road transport offers a complete freedom to road users to transfer the vehicle from one

lane to another and from one road to another according to the need and convenience. This

flexibility of changes in location, direction, speed and timings of travel is not available to other

modes of transport.

❖In particular, for short distance travel, road transport saves time. Trains stop at junctions and

main stations for comparatively longer time.

❖Speed of movement is directly related with the severity of the accident.

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Classification of Roads
The roads are classified based on many factors as follows:
Materials
Location & function
Traffic volume
Width
Economy
Rigidity
Topography

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Classification Based on Materials
Earthen roads
Gravel roads
Murrum roads
Kankar roads
WBM roads
Bituminous roads
Concrete roads

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Earthen Roads

Earthen roads are laid with soil.
They are cheaper than all types of roads.
This type of road is provided for fewer
traffic areas or countryside areas.
A good drainage system should be
provided, which reflects excellent
performance for a more extended period.

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Gravel Roads

Gravel roads are also low-quality roads,
but they are better when compared with
earthen roads.
A compacted mixture of gravel and earth
is used as pavement material in this case.

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Murrum Roads

Murrum is a matter obtained from the
disintegration of igneous rocks by
weathering agencies. This is used to make
roads called murrum roads.

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Kankar Roads

Kankar is an impure form of limestone.
Kankar roads are provided where lime is
available in a reasonable quantity. The
Kankar roads are low quality and
performance.

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30
WBM Roads
Water Bound Macadam (WBM) roads
contain crushed stone aggregate in its base
course.
The aggregates are spread on the surface
and rolled after sprinkling water.
WBM roads provide better performance
compared to earthen, gravel, murrum, and
CEIR11 Basics of Civil Engineering

kankar roads.
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 Bituminous Roads
Bituminous roads are prevalent roads
around the world.
They are the most used roads in the world.
Suitable for driving conditions.
The thickness of bituminous roads depends
upon the subgrade soil conditions.

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Concrete Roads
Cement concrete is used to construct the
pavements in case of concrete roads.
These are very popular and costlier than all
other types of roads.
They are not flexible, so they require less
maintenance.
Concrete roads are suitable for high traffic
areas.
They are laid with joints and time of
construction is more.

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Based on Traffic Volume
Light traffic roads-The roads which are carrying 400 vehicles daily on an average is called light
traffic roads.
Medium traffic roads-If a road is carrying 400 to 1000 vehicles per day, then it is said to be a
medium traffic road.
High traffic roads-If a road is carrying is more than 1000 vehicles per day then it is considered
as high traffic road.

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Based on Economy
1.Low-cost roads
2.Medium cost roads
3.High-cost roads

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Based on Rigidity
Flexible roads - consist of a flexible layer as a pavement surface, which requires proper
maintenance; otherwise, it can be disintegrated easily with heavy traffic. All types of roads
except concrete roads fall under this category.
Rigid roads - cement concrete roads falls under this category

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 Flexible Pavement Rigid Pavement
It consists of a series of layers with the highest quality It consists of one layer Portland cement concrete slab
materials at or near the surface of pavement. or relatively high flexural strength.

It reflects the deformations of subgrade and It is able to bridge over localized failures and area of
subsequent layers on the surface. inadequate support.

Its stability depends upon the aggregate interlock, Its structural strength is provided by the pavement
particle friction and cohesion. slab itself by its beam action.

Pavement design is greatly influenced by the subgrade Flexural strength of concrete is a major factor for
strength. design.

It functions by a way of load distribution through the It distributes load over a wide area of subgrade
component layers because of its rigidity and high modulus of elasticity.

Temperature variations due to change in atmospheric Temperature changes induce heavy stresses in rigid
conditions do not produce stresses in flexible pavements.
pavements.
Flexible pavements have self healing properties due to Any excessive deformations occurring due to heavier
heavier wheel loads are recoverable due to some wheel loads are not recoverable, i.e. settlements are
extent. permanent.
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Classification of Rural Roads
National Highways
State Highways
Major District Roads
Minor & Other District Roads
Village Roads

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Classification of Rural Roads
National Highways
State Highways
Major District Roads
Minor & Other District Roads
Village Roads

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 National Highway (N.H)
They connect capitals of states, ports, large
towns, industrial centres,
Such highways are the main arteries of road
transport in the country.
These are of national importance for
strategic, administrative and other purposes.
Example: N.H-34, N.H-31.

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 State Highways (S.H)

These roads are the main arteries of
traffic within a state.
They connect important cities and
district headquarters within the
state.
They are also known as Provincial
Highways.
These highways are the main arteries
of road transport within a state.

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Major District Roads (M.D.R)
The important roads within a district serving area of production and markets and connecting
those with each other or with main highways are known as Major District Roads.

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Other District Roads (O.D.R)
The roads serving rural areas of production and connecting them with an outlet to market
centres, taluk headquarters, block headquarters or other main roads are called Other District
Roads.

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Village Roads
The roads connecting villages or groups of villages with each other or with the nearest road
of a higher category are known as village roads.

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Classification of Urban Roads
The road systems within urban areas are classified as urban roads. In India, urban roads are
classified into the following categories:
Expressways
Arterial Roads
Sub-arterial Roads
Collector Streets
Local Streets

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Expressways
The portion of the roadway of an urban road
reserved for use only by high speed or
power-driven vehicles is called Expressway
or motorway or superhighway.

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Arterial Roads
These are streets primarily for the high traffic on a continuous route. Arterials have a higher
level of traffic mobility.

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Sub-arterial Roads
These roads serve the same purposes as an arterial road but have a lower level of traffic than
the arterial roads.

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Collector Streets
Collector Streets provide access to arterial streets and they collect & distribute from and to
local streets.

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Local Streets
Local Streets provide access to adjoining property. These streets do not carry a large volume
of traffic.

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 Cross sectional elements of highway

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Cross sectional elements of highway
The features of the cross-section of the pavement influences the life of the pavement
as well as the riding comfort and safety.

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1. Pavement surface characteristics
For safe and comfortable driving four aspects of the pavement surface are important;
1. friction between the wheels and the pavement surface,
2. smoothness of the road surface,
3. light reflection characteristics of the top of pavement surface, and
4. drainage to water.

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1.1 Friction
Friction between the wheel and the pavement surface is a crucial factor in the design of
horizontal curves and thus the safe operating speed.
It affect the acceleration and deceleration ability of vehicles.
Lack of adequate friction can cause skidding or slipping of vehicles.
1. Skidding happens when the path traveled along the road surface is more than the
circumferential movement of the wheels due to friction
2. Slip occurs when the wheel revolves more than the corresponding longitudinal
movement along the road.

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1.1 Friction
Various factors that affect friction are:
1. Type of the pavement (like bituminous, concrete, or gravel),
2. Condition of the pavement (dry or wet, hot or cold, etc),
3. Condition of the tyre (new or old), and
4. Speed and load of the vehicle.

The frictional force that develops between the wheel and the pavement is the load acting
multiplied by a factor called the coefficient of friction and denoted as f.

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1.2 Unevenness
Unevenness index is a measure of unevenness which is the cumulative measure of
vertical undulations of the pavement surface recorded per unit horizontal length of
the road.

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1.3 Light Reflection
1.White roads have good visibility at night, but caused glare during day time.
2.Black roads has no glare during day, but has poor visibility at night
3.Concrete roads has better visibility and less glare
It is necessary that the road surface should be visible at night and reflection of light is
the factor that answers it.

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1.4 Drainage
The pavement surface should be absolutely impermeable to prevent seepage of
water into the pavement layers. Further, both the geometry and texture of pavement
surface should help in draining out the water from the surface in less time.

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2. Camber
Camber or cant is the cross slope provided to raise
middle of the road surface in the transverse direction to
drain off rain water from road surface.
Too steep slope is undesirable for it will erode the
surface.
Camber is measured in 1 in n or n% (Eg. 1 in 50 or 2%)
and the value depends on the type of pavement surface.

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3. Width of carriage way
Width of the carriage way or the width of the pavement depends on the width of the
traffic lane and number of lanes.

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4. Kerbs
Kerbs indicate the boundary between the carriage way and the shoulder or islands or
footpaths.

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5. Road margins
The portion of the road beyond the carriageway and on the roadway can be generally
called road margin. Various elements that form the road margins are given below.

5.1 Shoulders
Shoulders are provided along the road edge and is intended for accommodation of
stopped vehicles, serve as an emergency lane for vehicles and provide lateral
support for base and surface courses.

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5. Road margins
5.2 Parking lanes
Parking lanes are provided in urban lanes for side parking. Parallel parking is
preferred because it is safe for the vehicles moving on the road.

5.3 Bus-bays
Bus bays are provided by recessing the kerbs for bus stops. They are provided so
that they do not obstruct the movement of vehicles in the carriage way.

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5. Road margins
5.4 Service roads
Service roads or frontage roads give access to access controlled highways like
freeways and expressways.

5.5 Cycle track
Cycle tracks are provided in urban areas when the volume of cycle traffic is high

5.6 Footpath
Footpaths are exclusive right of way to pedestrians, especially in urban areas.

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Cross sectional elements of highway

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6. Width of formation
Width of formation or roadway width is the sum of the widths of pavements or
carriage way including separators and shoulders.

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7. Right of way
Right of way (ROW) or land width is the width of land acquired for the road, along its
alignment. It should be adequate to accommodate all the cross-sectional elements of
the highway and may reasonably provide for future development.

Control line is a line which represents the nearest limits of future uncontrolled
building activity in relation to a road.

Building line represents a line on either side of the road, between which and the
road no building activity is permitted at all.

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Cross section of road in cutting

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Cross section of road in embankment

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 TRAFFIC SIGNS

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Traffic Signs
Symbols on portable support provided on roads to give information, warning and guidance to
the road users are known as traffic signs or road signs.
Necessity of Road Signs
To give timely warning of hazardous situations.
To regulate the traffic.
To provide safety to the traffic.
To expedite the traffic.
To guide the traffic by supplying information about directions and point of interest.

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Classification of Traffic Signs
Cautionary or warning signs
Regulatory signs
Informatory Signs

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Cautionary or Warning Signs
Used to warn the road users of certain hazardous situations on and adjacent to the roadway.

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Cautionary or Warning Signs

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Cautionary or Warning Signs

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Mandatory or Regulatory Signs
These road signs are used to inform road user about certain laws, regulations, prohibition or
restrictions which have to be complied with and any case of non-compliance are liable to
legal action.

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Mandatory or Regulatory Signs

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Mandatory or Regulatory Signs

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Mandatory or Regulatory Signs

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Informatory Signs
These road signs are used to provide guidance to the road users in respect of direction and
place identification, facilities like a petrol pump, parking etc.

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ROAD MARKINGS

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Road markings
Road markings are a psychological barrier and an important component of a highway, which
function in guiding and controlling the traffic.
It also channelizes the pedestrians and cyclists movement into a safe location ensuring
smooth and orderly flow of traffic and for promoting road safety.
Types
Longitudinal Markings
Transverse Markings
Hazard Marking
Block Marking
Arrow Marking
Directional Marking
Facility Marking

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Longitudinal Markings
The main purpose of longitudinal marking is
to guide and navigate the driver for
forwarding movements and to prohibit
overtaking maneuvering at certain hazardous
locations to avoid sideswipe and head-on
collision accidents.
The longitudinal markings are usually in
white and yellow color, where white is used
prominently and yellow is used where it is
strictly prohibited not to be straddled by the
vehicles.

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Longitudinal Markings
Broken Center Line -can be crossed during
overtaking maneuver
Single Continuous Center Line - no overtaking
lines are used where overtaking is prohibited.
They can be either white or yellow in color.
Double Continuous Center line - used to
reinforce the message that it shall never be
crossed. They can be either white or yellow in
color. In urban roads having space constraints,
the construction of raised median will reduce
the lane width in roads. In such cases, double
continuous marking signifies median with
barrier.
Traffic Lane lines

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Transverse Markings
The transverse markings are provided across the carriageway for the purpose of traffic
control with broken lines, single/double continuous lines such as stop marking and give-way
marking. These transverse markings are always accompanied with corresponding signs.
Stop line
Pedestrian crossings

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Hazard Marking
The hazard markings facilitate the major actions of the vehicles such as traffic
merging/diverging, prohibiting to cross-over, and deflecting the traffic ahead of hazardous
situations. These markings are generally done with chevron and diagonal marking, hatch
marking and prohibitory marking.

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Block Marking
The markings made on the road which are in blocks such as zebra crossing for pedestrians,
triangular and checkered marking for speed breakers. The quality of block marking with
adequate visibility is of utmost importance.
The application of thermoplastic paint for block marking is generally different from
longitudinal marking.

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Arrow Marking
The arrows painted on the carriageway are meant to give direction for the driver to take
mandatorily turns.

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Directional Marking
The word message which is directional in nature is classified under directional marking.

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Facility Marking
The markings which are intended to facilitate the parking for the vehicles are termed as
facility marking.

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Traffic Signal
Traffic lights, traffic signals, stoplights are signaling devices positioned at road intersections,
pedestrian crossings, and other locations to control flows of traffic
A traffic signal is used as an instructing device that indicates the road user to act according to
the displayed sign.

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Traffic Signal

Illumination of the red signal prohibits
any traffic from proceeding

Illumination of the yellow/amber light
denoting, if safe to do so, prepare to
stop short of the intersection,

Illumination of the green light allows
traffic to proceed in the direction
denoted,

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Traffic Rules in India
Keep left when driving on a two-way road so that the vehicles in the opposite direction can pass through the
right side smoothly.
If a driver wants to turn left, then it’s necessary to stay close to the left side and then takes a left turn.
If the driver wants to turn right, it’s necessary he/she should be at the centre of the road he/she is driving on
and then take a right gradually.
When approaching a road junction, road intersection, pedestrian crossing, it is important for the driver to slow
down.
When being overtaken or passed by another vehicle, a driver should not increase the speed of his vehicle or
prevent the vehicle from passing his vehicle.
Overtaking a vehicle is prohibited in the below cases:
If the passing would cause danger to other vehicles moving in any direction.
If the vehicle overtaking is near a point, a bend or corner or a hill as it may cause a serious accident due to
unclear view of the road ahead.
It is important for the driver as well as the pillion to wear a helmet

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Traffic Rules in India
The driver is not allowed to park vehicle on the top of a hill, near a road crossing, on the footpath, near traffic
lights, on the pedestrian road or near the entrance of the building.
The vehicle registration number should be displayed at all times.
Only one pillion is allowed on a two-wheeler vehicle
It is important for a driver to make way for cyclists as well.
To maintain road safety and avoid any mishaps, it is necessary that the lights of the vehicle should not be
obstructed.
On a one way road, driving in a reverse direction is not allowed.
While overtaking another vehicle on the road, the driver should not cross the yellow line.
The STOP sign on the road should not be crossed
Horn should be used only when required
Overtaking can be done only from the right side of the vehicle

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