التصنيفات
الصف السابع

transport in the UAE للصف السابع

كود:
^9^ ^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^^9^  لوسمحتو اريد باراجراف عن ترانس بورتاشن في الامارات    والمواصلا المفضلة لي ارجوكو ضروري

لقراءة ردود و اجابات الأعضاء على هذا الموضوع اضغط هناسبحان الله و بحمده

التصنيفات
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تقرير عن المواصلات ((Transport)) -مناهج الامارات

السلام عليكم ورحمه الله وبركاته

يبتلكم تقرير عن المواصلاتTransport


دعواتكم

الملفات المرفقة

لقراءة ردود و اجابات الأعضاء على هذا الموضوع اضغط هناسبحان الله و بحمده

التصنيفات
الصف العاشر

تقرير عن transport مع كل شي………… -تعليم اماراتي

تفضلوا هـ التقرير …………………………….. وشكرا

Transport.doc

………………..ارجوا ان يحوز رضاكم…………………..

لقراءة ردود و اجابات الأعضاء على هذا الموضوع اضغط هناسبحان الله و بحمده

التصنيفات
الصف العاشر

Ship transport -تعليم الامارات

أشحالكم .؟ عساكم مرتاحين أبي تقرير كامل عن الباخرة ضرووووووووووووووووووووووووووووري يوم الأحد .

لقراءة ردود و اجابات الأعضاء على هذا الموضوع اضغط هناسبحان الله و بحمده

التصنيفات
الصف العاشر

تقرير عن transport للصف العاشر

تقرير عن transport

_______________________________________________

Transport or transportation is the movement of people and goods from one place to another. The term is derived from the Latin trans ("across") and portare ("to carry"). Industries which have the business of providing equipment, actual transport, transport of people or goods and services used in transport of goods or people make up a large broad and important sector of most national economies, and are collectively referred to as transport industries.

Aspects of transport
The field of transport has several aspects: loosely they can be divided into a triad of infrastructure, vehicles, and operations. Infrastructure includes the transport networks (roads, railways, airways, waterways, canals, pipelines, etc.) that are used, as well as the nodes or terminals (such as airports, railway stations, bus stations and seaports). The vehicles generally ride on the networks, such as automobiles, bicycles, buses, trains, aircraft. The operations deal with the way the vehicles are operated on the network and the procedures set for this purpose including the legal environment (Laws, Codes, Regulations, etc.) Policies, such as how to finance the system (for example, the use of tolls or gasoline taxes) may be considered part of the operations.

Broadly speaking, the design of networks are the world’s future. Domains of civil engineering and urban planning, the design of vehicles of mechanical engineering and specialized subfields such as nautical engineering and aerospace engineering, and the operations are usually specialized, though might appropriately belong to operations research or systems engineering.
Modes and categories
Main article: Mode of transport
Modes are combinations of networks, vehicles, and operations, and include walking, the road transport system, rail transport, ship transport and modern aviation.

Air transport
Cable transport
Conveyor transport
Human-powered transport
Hybrid transport
New Mobility Agenda
Rail transport
Road transport, including human-powered transport such as walking and cycling
Ship transport
Space transport
Sustainable transportation
Transport on other planets
Proposed future transport
Animal-powered transport
Animal-powered transport is a broad category of the human use of non-human working animals (also known as "beasts of burden") for the movement of people and goods. Humans may ride some of the larger of these animals directly, use them as pack animals for carrying goods, or harness them, singly or in teams, to pull (or haul) sleds or wheeled vehicles.

Air transport
Main article: Air transport
A fixed-wing aircraft, commonly called airplane or aeroplane, is a heavier-than-air craft where movement of the wings in relation to the aircraft is not used to generate lift. The term is used to distinguish from rotary-wing aircraft, where the movement of the lift surfaces relative to the aircraft generates lift. A more rare type of aircraft that is neither fixed-wing nor rotary-wing is an ornithopter. A heliplane is both fixed-wing and rotary-wing.

A Cessna 177 propeller-driven general aviation aircraftFixed-wing aircraft include a large range of craft from small trainers and recreational aircraft to large airliners and military cargo aircraft. Some aircraft use fixed wings to provide lift only part of the time and may or may not be referred to as fixed-wing.

The current term also embraces aircraft with folding the wings that are intended to fold when on the ground. This is usually to ease storage or facilitate transport on, for example, a vehicle trailer or the powered lift connecting the hangar deck of an aircraft carrier to its flight deck. It also embraces aircraft, such as the General Dynamics F-111, Grumman F-14 Tomcat and the Panavia Tornado, which can vary the sweep angle of their wings during flight. These aircraft are termed "variable geometry" aircraft. When the wings of these aircraft are fully swept, usually for high speed cruise, the trailing edges of their wings about the leading edges of their tailplanes, giving an impression of a single delta wing if viewed in plan. There are also rare examples of aircraft which can vary the angle of incidence of their wings in flight, such the F-8 Crusader, which are also considered to be "fixed-wing".

Two necessities for all fixed-wing aircraft (as well as rotary-wing aircraft) are air flow over the wings for lifting of the aircraft, and an open area for landing. The majority of aircraft, however, also need an airport with the infrastructure to receive maintenance, restocking, refueling and for the loading and unloading of crew, cargo and/or passengers. While the vast majority of aircraft land and take off on land, some are capable of take off and landing on ice, snow and calm water.

The aircraft is the second fastest method of transport, after the rocket. Commercial jet aircraft can reach up to 875 km/h. Single-engine aircraft are capable of reaching 175 km/h or more at cruise speed. Supersonic aircraft (military, research and a few private aircraft) can reach speeds faster than sound. The record is currently held by the SR-71 with a speed of 3,529.56 km/h (2193.17 mph, 1905.81 knots).[1]

Rail
Main article: Rail transport
Rail transport is the transport of passengers and goods along railways or railroads. A typical railway (or railroad) track consists of two parallel steel (or in older networks, iron) rails, generally anchored perpendicular to beams (termed sleepers or ties) of timber, concrete, or steel to maintain a consistent distance apart, or gauge. The rails and perpendicular beams are usually then placed on a foundation made of concrete or compressed earth and gravel in a bed of ballast to prevent the track from buckling (bending out of its original configuration) as the ground settles over time beneath and under the weight of the vehicles passing above. The vehicles traveling on the rails are arranged in a train; a series of individual powered or unpowered vehicles linked together, displaying markers. These vehicles (referred to, in general, as cars, carriages or wagons) move with much less friction than on rubber tires on a paved road, and the locomotive that pulls the train tends to use energy far more efficiently as a result.

Acela Express, an American high-speed passenger trainIn rail transport, a train consists of rail vehicles that move along guides to transport freight or passengers from one place to another. The guideway (permanent way) usually consists of conventional rail tracks, but might also be monorail or maglev. Propulsion for the train is provided by a separate locomotive, or from individual motors in self-propelled multiple units. Most trains are powered by diesel engines or by electricity supplied by trackside systems. Historically the steam engine was the dominant form of locomotive power through the mid-20th century, but other sources of power (such as horses, rope (or wire), gravity, pneumatics, or gas turbines) are possible
Road transport
Main article: Road transport

[edit] Automobile
An automobile is a wheeled passenger vehicle that carries its own motor. Different types of automobiles include cars, buses, trucks, and vans. Some include motorcycles in the category, but cars are the most typical automobiles. As of 2022 there were 590 million passenger cars worldwide (roughly one car for every ten people), of which 170 million in the U.S. (roughly one car for every two people) [1].

The automobile was thought of as an environmental improvement over horses when it was first introduced in the 1890s. Before its introduction, in New York City alone, more than 1,800 tons of manure had to be removed from the streets daily, although the manure was used as natural fertilizer for crops and to build top soil. In 2022, the automobile is recognized as one of the primary sources of world-wide air pollution and a cause of substantial noise pollution and adverse health effects.

[edit] See also
Bicycle
Bus
Carpooling
Cycling
Human-powered transport
Limousine
Road train
Share taxi
Semi-trailer truck
Taxicab
Truck

[edit] Water transport
Main article: Ship transport

[edit] Watercraft
A watercraft is a vehicle designed to float on and move across (or under) water. The need for buoyancy unites watercraft, and makes the hull a dominant aspect of its construction, maintenance, and appearance.

Most watercraft would be described as either ships or boats; although nearly all ships are larger than nearly all boats, the distinction between those two categories is not one of size per se.

A rule of thumb says "a boat can fit on a ship, but a ship can’t fit on a boat", and a ship usually has sufficient size to carry its own boats, such as lifeboats, dinghies, or runabouts.
Often local law and regulation will define the exact size (or the number of masts) that distinguishes a ship from boats.
Traditionally submarines, being small, were called "boats"; in contrast, nuclear-powered submarines’ are large, much roomier, and classed as ships.
Another definition says a ship is any floating craft that transports cargo for the purpose of earning revenue; in that context, passenger ships transport "supercargo", another name for passengers or persons not working on board. However, neither fishing boats nor ferries are considered ships, though both carry cargo (their catch of the day or passengers) and lifeboats.

English seldom uses the term watercraft to describe any specific individual ****** (and probably then only as an affectation): rather the term serves to unify the category that ranges from small boats to the largest ships, and also includes the diverse watercraft for which some term even more specific than ship or boat (e.g., canoe, kayak, raft, barge, jet ski) comes to mind first. (Some of these would even be considered at best questionable as examples of boats.)

[edit] Ship transport
Ship transport is the process of moving people, goods, etc. by barge, boat, ship or sailboat over a sea, ocean, lake, canal or river. This is frequently undertaken for purposes of commerce, recreation or military ******ives.

A hybrid of ship transport and road transport is the historic horse-drawn boat. Hybrids of ship transport and air transport are kite surfing and parasailing.

The first craft were probably types of canoes cut out from tree trunks. The colonization of Australia by Indigenous Australians provides indirect but conclusive evidence for the latest date for the invention of ocean-going craft; land bridges linked southeast Asia through most of the Malay Archipelago but a strait had to be crossed to arrive at New Guinea, which was then linked to Australia. Ocean-going craft were required for the colonization to happen.

Early sea transport was accomplished with ships that were either rowed or used the wind for propulsion, and often, in earlier times with smaller vessels, a combination of the two.

Also there have been horse-powered boats, with horses on the deck providing power [2].

Ship transport was frequently used as a mechanism for conducting warfare. Military use of the seas and waterways is covered in greater detail under navy.

In the 1800s the first steam ships were developed, using a steam engine to drive a paddle wheel or propeller to move the ship. The steam was produced using wood or coal. Now most ships have an engine using a slightly refined type of petroleum called bunker fuel. Some specialized ships, such as submarines, use nuclear power to produce the steam.

Recreational or educational craft still use wind power, while some smaller craft use internal combustion engines to drive one or more propellers, or in the case of jet boats, an inboard water jet. In shallow draft areas, such as the Everglades, some craft, such as the hovercraft, are propelled by large pusher-prop fans.

Although relatively slow, modern sea transport is a highly effective method of transporting large quantities of non-perishable goods. Transport by water is significantly less costly than transport by air for trans-continental shipping.

In the context of sea transport, a road is an anchorage.

[edit] See also
Water taxi
Short sea shipping

[edit] Intermodal transport
Main article: Intermodal transport
Intermodal freight transport refers to the combination of multiple types of transportation for a single shipment, for instance a shipment in a container may start on a truck in China, travel in a cargo ship over the Pacific Ocean to a port city in the U.S., then travel by train to the East Coast, finally being delivered by a truck.

[edit] Transport and communications
Transport and communication are both substitutes and complements. Though it might be possible that sufficiently advanced communication could substitute for transport, one could telegraph, telephone, fax, or email a customer rather than visiting them in person, it has been found that those modes of communication in fact generate more total interactions, including interpersonal interactions. The growth in transport would be impossible without communication, which is vital for advanced transportation systems, from railroads which want to run trains in two directions on a single track, to air traffic control which requires knowing the ******** of aircraft in the sky. Thus, it has been found that the increase of one generally leads to more of the other.

[ Transport and land use
The first Europeans who came to the New World brought with them a culture of transportation centred on the wheel. North America’s Aboriginal peoples had developed differently, and moved through their country by means of canoes, kayaks, umiaks, coracles, and other water-borne vehicles, constructed from various types of bark, hide, bone, wood, and other materials; as well, the snowshoe, toboggan and sled were essential during the winter conditions that prevailed throughout the northern half of the continent for much of the year. Europeans quickly adopted all of these technologies themselves, and therefore were able to travel to the northern interior of Canada via the many waterways that branched out from the St. Lawrence River and from Hudson Bay.[2]

There is a well-known relationship between the density of development, and types of transportation. Intensity of development is often measured by area of floor area ratio (FAR), the ratio of usable floorspace to area of land. As a rule of thumb, FARs of 1.5 or less are well suited to automobiles, those of six and above are well suited to trains. The range of densities from about two up to about four is not well served by conventional public or private transport. Many cities have grown into these densities, and are suffering traffic problems.

Land uses support activities. Those activities are spatially separated. People need transport to go from one to the other (from home to work to shop back to home for instance). Transport is a "derived demand," in that transport is unnecessary but for the activities pursued at the ends of trips. Good land use keeps common activities close (e.g. housing and food shopping), and places higher-density development closer to transportation lines and hubs. Poor land use concentrates activities (such as jobs) far from other destinations (such as housing and shopping).

There are economies of agglomeration. Beyond transportation some land uses are more efficient when clustered. Transportation facilities consume land, and in cities, pavement (devoted to streets and parking) can easily exceed 20 percent of the total land use. An efficient transport system can reduce land waste.

References
^ FAI.org
^ Virtual Vault, an online exhibition of Canadian historical art at Library and Archives
^ http://www.uae.ii5ii.com

ولكم

تحياتي

لقراءة ردود و اجابات الأعضاء على هذا الموضوع اضغط هناسبحان الله و بحمده

التصنيفات
الصف العاشر

تقرير عن transport للصف العاشر

أرجو أن ينال إعجابكم مع الشكـــــر الجزيـــــل

الملفات المرفقة

لقراءة ردود و اجابات الأعضاء على هذا الموضوع اضغط هناسبحان الله و بحمده

التصنيفات
الصف العاشر

تقرير عن transport للصف العاشر

السلام عليكم

بغيت منكم مساعدة أبغي تقرير عن transport يكون فيه مقدمة وموضوع وخاتمة

لقراءة ردود و اجابات الأعضاء على هذا الموضوع اضغط هناسبحان الله و بحمده

التصنيفات
الصف العاشر

~History of transport للصف العاشر

السلام عليكم و رحمه الله و بركاته . .

صبحكم / مساكم ربي بالخير ..

تقرير عن تاريخ وسائل النقل لطلاب و طالبات الصف العاشر ..!

اتمنى انكم تستيفيدون منه ..

: :

Introduction :

Transport or transportation is the movement of people and goods from one place to another. The term is derived from the Latin trans ("across") and portare ("to carry"). Industries which have the business of providing equipment, actual transport, transport of people or goods and services used in transport of goods or people make up a large broad and important sector of most national economies, and are collectively referred to as transport industries. History of transport The history of transport evolved with the development of human culture. Long distance walking tracks developed as trade routes in paleolithic times. For most of human history the only forms of transport apart from walking were or transport in small boats. Road transport The first earth tracks were created by humans carrying goods and often followed game trails. Tracks would be naturally created at points of high traffic density. As animals were domesticated, horses, oxen and donkeys became an element in track-creation. With the growth of trade, tracks were often flattened or widened to accommodate animal traffic. Later, the travois, a frame used to drag loads, was developed. Animal-drawn wheeled vehicles probably developed in Sumer in the Ancient Near East in the 4th or 5th millennium BC and spread to Europe and India in the 4th millennium BC and China in about 1200 BC. The Romans had a significant need for good roads to extend and maintain their empire and developed Roman roads . In the Industrial Revolution, John Loudon McAdam (1756-1836) designed the first modern highways, using inexpensive paving material of soil and stone aggregate (macadam), and he embanked roads a few feet higher than the surrounding terrain to cause water to drain away from the surface. With the development of motor transport there was an increased need for hard-topped roads to reduce washways, bogging and dust on both urban and rural roads, originally using cobblestones and wooden paving in major western cities and in the early 20th century tar-bound macadam (tarmac) and concrete paving were extended into the countryside .
The modern history of road transport also involves the development of new vehicles such as new models of horse-drawn vehicles, bicycles, motor cars, motor trucks and electric vehicles.

Maritime transport

In the Stone Age primitive boats developed to permit navigation of rivers and for fishing in rivers and off the coast. It has been argued that boats suitable for a significant sea crossing was necessary for people to reach Australia an estimated 40,000-45,000 years ago. With the development of civilization, bigger vessels were developed both for trade and war. In the Mediterranean, galleys were developed about 3,000 BC. Galleys were eventually rendered obsolete by ocean-going sailing ships, such as the man-of-war, in the late 15th century. In the industrial revolution, first steam ships and later diesel- powered ships were developed. Eventually submarines were developed mainly for military purposes. Meanwhile specialised craft were developed for river and canal transport. Canals were developed in Mesopotamia circa 4000 BC. The Indus Valley Civilization in Pakistan and North India (from circa 2600 BC) had the first canal irrigation system in the world.[1] The longest canal of ancient times was the Grand Canal of China. It is 1794 kilometers (1115 miles) long and was built to carry the Emperor Yang Guang between Beijing and Hangzhou. The project began in 605, although the oldest sections of the canal may have existed since circa 486 BC. Canals were developed in the Middle Ages in Europe in Venice and the Netherlands. Pierre-Paul Riquet began to organise the construction of the 240 km-long Canal du Midi in France in 1665 and it was opened in 1681. In the Industrial Revolution, inland canals were built in England and later the United States before the development of railways. Specialised craft were also developed for fishing and later whaling. after that everyone walked Maritime history also deals with the development of navigation, oceanography, cartography and hydrography.

Rail transport
The history of rail transport dates back nearly 500 years, and includes systems with man or horse power and rails of wood (or occasionally stone). This was usually for moving coal from the mine down to a river, from where it could continue by boat, with a flanged wheel running on a rail. The use of cast iron plates as rails began in the 1760s, and was followed by systems (plateways) where the flange was part of the rail. However, with the introduction of rolled wrought iron rails, these became obsolete.
Modern rail transport systems first appeared in England in the 1820s. These systems, which made use of the steam locomotive, were the first practical form of mechanized land transport, and they remained the primary form of mechanized land transport for the next 100 years.
The history of rail transport also includes the history of rapid transit and arguably monorail history.
Aviation
Humanity’s desire to fly likely dates to the first time man observed birds, an observation illustrated in the legendary story of Daedalus and Icarus. Much of the focus of early research was on imitating birds, but through trial and error, balloons, airships, gliders and eventually aircraft and other types of flying machines were invented. The first generally recognized human flight took place in Paris in 1783. Jean-François Pilâtre de Rozier and Francois d’Arlandes went 5 miles (8 km) in a hot air balloon invented by the Montgolfier brothers.
The Wright brothers made the first sustained, controlled and powered heavier-than-air flight on December 17, 1903.

Conclusion :

Spaceflight
The realistic dream of spaceflight dated back to Konstantin Tsiolkovsky, however Tsiolkovsky wrote in Russian, and this was not widely influential outside Russia. Spaceflight became an engineering possibility with the work of Robert H. Goddard’s publication in 1919 of his paper ‘A Method of Reaching Extreme Altitudes’; where his application of the de Laval nozzle to liquid fuelled rockets gave sufficient power that interplanetary travel became possible. This paper was highly influential on Hermann Oberth and Wernher Von Braun, later key players in spaceflight.

References:

http://en.wikipedia.org/wiki/History_of_transport

http://www.ops.fhwa.dot.gov/aboutus/opstory.htm

و اسال الله التوفيق للجميع ..!

لقراءة ردود و اجابات الأعضاء على هذا الموضوع اضغط هناسبحان الله و بحمده

التصنيفات
الصف العاشر

تقرير عن الـ Transport للصف العاشر

السلام عليكم ..

تقرير إنقلش عن الترانسبورت , كامل : مقدمة , موضوع , خاتمة , توصيات و مراجع ..
فيه نفحات من تأليفي P: , يعني ما بتحصلون حد مسوي مثله ف الصف X3 ..
إن شا الله مش ناقص ^^

Introduction:

In a physiological sense transport generally means the movement of substances across the membranes of cells.
But at this report you are going to read about one of the technological advancements and scientific achievement that so greatly influence our lifestyle and impact our lives.

Presentation:

Definition of transport

Transport or transportation is the movement of people and goods from one place to another. Transport is performed by various modes, such as air, rail, road and water. It can be bowered by human, animal put now days it can be powered mechanically. Transport can be owned "Private" or for the verity of people "public".

History of transport:

The first form of transport was, of course, Shank’s pony (the human foot!). However people eventually learned to use animals for transport. Donkeys and horses were probably domesticated between 4,000 and 3,000 BC (obviously the exact date is not known). Camels were domesticated slightly later between 3,000 and 2,000 BC.

Meanwhile about 3,500 BC the wheel was invented in what is now Iraq. At first wheels were made of solid pieces of wood lashed together to form a circle but after 2,000 BC they were made with spokes.
The earliest boats were dug out canoes. People lit a fire on a big log then put it out and dug out the burned wood.

About 3,100 BC the Egyptians invented the sailing boat. They were made of bundles of papyrus reeds tied together. They had simple square sails made of sheets of papyrus or later of linen. However the sail could only be used when sailing in one direction. When traveling against the wind the boat had to be rowed. About 2,700 BC the Egyptians began using wooden ships for trade by sea.

Goods were sometimes transported by pack horse (horses with bags on their sides). Also carriers with covered wagons carried goods and sometimes passengers. However when possible people preferred to transport goods by water. All around England there was a ‘coastal trade’. Goods from one part of the country, such as coal, were taken by sea to other parts.

The thought of flying has been every mankind’s ultimate dream even before airplanes were invented. Before the invention and development, men and women tried to navigate the air by imitating the birds and its wings. They built machines with flapping wings and for some time, the idea worked. However, the flapping wings only worked for a bird-scale than it does at much larger scale to lift man and machine off the ground.

In 1783, few aeronauts discovered the art of uncontrolled flying with air balloons, which harder than expected, it was difficult to navigate and go to one place to the other unless the wind was blowing the desired direction. Until the turn of the 19th century, an English baronet from Yorkshire invented a flying machine with fixed wings, a repulsion system and movable control surface which eventually became the fundamental concept of the airplane. Sir George Cayley built the first true airplane which evolved through time and became the amazing machines that have taken mankind to the edge of space at speed of light.

In 1899, the Wright Brother’s designed their first aircraft, a small biplane glider flown as a kite to test their solution for controlling the aircraft by wing warping; a method of arching the wingtips slightly to control the aircraft’s rolling motion and balance. Over the next three years, Wilbur and Orville Wright would design a series of gliders which would be flown in both unmanned and piloted flights. They went over the earlier works of Cayley, Langley and Otto Lilienthal and soon recognized that the control and navigation would be the most crucial and hardest problem to solve, But at the end they made it.

Forms of transport:

Transport is divided into three forms which are:
1) Land Travel 2) water travel 3) Flight travel.
And I’ll discuss each of them at the coming paragraphs.

Land travel:

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; though they need not be, and historically many roads were simply recognizable routes without any formal construction or maintenance. In urban areas roads may pass through a city or village and be named as streets, serving a dual function as urban space easement and route.

The most common road vehicle is the automobile; a wheeled passenger vehicle that carries its own motor. Other users of roads include buses, trucks, motorcycles, bicycles and pedestrians. As of 2022 there were 590 million automobiles worldwide.

The first forms of road transport were horses, oxen or even humans carrying goods over dirt tracks that often followed game trails. The Roman Empire was in need for armies to be able to travel quickly; they built deep roadbeds of crushed stone as an underlying layer to ensure that they kept dry, as the water would flow out from the crushed stone, instead of becoming mud in clay soils. John Loudon Macadam designed the first modern highways of inexpensive paving material of soil and stone aggregate known as macadam during the Industrial Revolution. Coating of cobblestones and wooden paving were popular during the 19th century while tarmac and concrete paving became popular during the 20th.

Automobiles offer high flexibility and with low capacity, but are deemed with high energy and area use, and the main source of noise and air pollution in cities; buses allow for more efficient travel at the cost of reduced flexibility. Road transport by truck is often the initial and final stage of freight transport.
Water travel:

Ship transport is the process of transport by barge, boat, ship or sailboat over a sea, ocean, lake, canal or river. A watercraft is a vehicle designed to float on and move across (or under) water. The need for buoyancy unites watercraft, and makes the hull a dominant aspect of its construction, maintenance and appearance.

The first craft were probably types of canoes cut out from tree trunks. The colonization of Australia by Indigenous Australians provides indirect but conclusive evidence for the latest date for the invention of ocean-going craft. Early sea transport was accomplished with ships that were either rowed or used the wind for propulsion, or a combination of the two.

In the 1800s the first steam ships were developed, using a steam engine to drive a paddle wheel or propeller to move the ship. The steam was produced using wood or coal. Now most ships have an engine using a slightly refined type of petroleum called bunker fuel. Some specialized ships, such as submarines, use nuclear power to produce the steam. Recreational or educational craft still use wind power, while some smaller craft use internal combustion engines to drive one or more propellers, or in the case of jet boats, an inboard water jet. In shallow draft areas hovercraft are propelled by large pusher-prop fans.
Although slow, modern sea transport is a highly effective method of transporting large quantities of non-perishable goods. Transport by water is significantly less costly than air transport for trans-continental shipping; short sea shipping and ferries remain viable in coastal areas.

Air travel:

Air travel is a form of travel using an airplanes, or a rarely a balloon. People choose this from of travel to travel from country to country, continent to continent, some times for medical emergencies; because this form is the fastest mode of traveling,
You can fly at a private jet, or at your country’s airlines.

The influence of transport on our lives:

Transport is a key necessity for specialization, allowing production and consumption of product to occur at different ways. Transport has throughout history been the gate to expansion; better transport allows more trade and spread of people. Economic growth has always been dependent on increased capacity and more rational transport. But the infrastructure and operation of transport incurs large impact on the land and is the largest drainer of energy, making transport sustainability a major issue.

Modern society dictates a physical distinction between home and work, forcing people to transport themselves to place of work or study, supplemented by the need to temporarily relocate for other daily activities. Passenger transport is also the essence tourism, a mayor part of recreational transport. Commerce needs transport of people to conduct business, either to allow face-to-face communication for important decisions, or to transport specialists from their regular place of work to sites where they are needed. And transport is a major use of energy, burning most of the world’s petroleum; creating air pollution, including nitrous oxides and particulates and being a significant contributor to global warming through emission of carbon dioxide, the fastest growing emission sector. Environmental regulations in developed countries have reduced the individual vehicles emission; this has been offset by an increase in the number of vehicles and more use of each vehicle. Energy use and emissions vary largely between modes, causing environmentalists to call for a transition from air and road to rail and human-powered transport and go to transport electrification and energy efficiency.

By subsector, road transport is the largest contributor to global warming. (74%) Other environmental impacts of transport systems include traffic congestion and automobile-oriented urban sprawl, which can consume natural habitat and agricultural lands. By reducing transportation emissions globally, it is predicted that there will be significant positive effects on earth’s air quality, acid rain, smog, and climate change.

Conclusion:

As I said earlier my report discussed the possible ideas about transport, which had two sides a good side and a bad side
Effecting on us and on our environment.
I hope that my report helped you realizing and understanding more about transport.

Recommendations:

– I recommend people to reduce using private forms of transport as possible as they can.
– I recommend all the people of my country to try creating a new ways of travel on each form.
– I recommend you to share the school library with a copy of my report.

Resources:

Web:
http://en.wikipedia.org/wiki/Transport
http://www.localhistories.org/transport.html

Books:

– Transporting by: Arthur Johns.

إدعوا لي بكل خير -.-"

لقراءة ردود و اجابات الأعضاء على هذا الموضوع اضغط هناسبحان الله و بحمده

التصنيفات
الصف العاشر

بحث , تقرير إنجليزي / transport وسائل الموصلات للصف العاشر

Space Travel
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For travel through space, see Human spaceflight.
Space Travel was an early computer game that simulated travel in the solar system. It was the development of this game that spurred the development of the Unix operating system.[1][2][3][4] It is sometimes claimed that the unrelated game Spacewar! had led to the development of Unix. While Spacewar! was an early (and much more popular) computer game, such claims are not accurate and have likely arisen from confusion of the two different games.

Development history
The game was originally written in 1969 by Ken Thompson for a Multics system, then ported by him to Fortran on a GECOS system, and eventually ported by Thompson and Dennis Ritchie to a PDP-7. It was in the process of porting the game to the PDP-7’s assembly language that Thompson and Ritchie wrote underlying code that eventually grew into the original UNICS/Unix operating system. Some consider Space Travel the first Unix application program.
A human spaceflight is a spaceflight with a human crew, and possibly passengers. This makes it unlike robotic space probes or remotely-controlled satellites. Human spaceflight is sometimes called manned spaceflight, a term now deprecated by major space agencies in favor of its gender-neutral alternative.

As of 2022, only the Space Shuttle program and the Soyuz programme are actively launching human spaceflights. The Shenzhou program last launched a human spaceflight in 2022.
Introduction
While the observation of objects in space—known as astronomy—pre-dates reliable recorded history, it was the development of large liquid-fueled rocket engines during the early 20th century that allowed space exploration to become a practical possibility. Common rationales for exploring space include advancing scientific research, uniting different nations, ensuring the future survival of humanity and developing military/strategic advantages against other countries.

Space exploration has often been used as a proxy competition for geopolitical rivalries such as the Cold War. The early era of space exploration was driven by a "Space Race" between the Soviet Union and the United States; the launch of the first man-made object to orbit the Earth, the USSR’s Sputnik 1, on October 4, 1957, and the first Moon landing by the American Apollo 11 craft on July 20, 1969 are often taken as the boundaries for this initial period. The Soviet space program achieved many of the first milestones under Sergey Korolyov and Kerim Kerimov, including the first human spaceflight (Yuri Gagarin aboard Vostok 1) in 1961, the first spacewalk (by Aleksei Leonov) in 1965, and the launch of the first space station (Salyut 1) in 1971.

After the first 20 years of exploration, focus shifted from one-off flights to renewable hardware, such as the Space Shuttle program, and from competition to cooperation as with the International Space Station. From the 1990s onwards, private interests began promoting space tourism. Larger government programs have advocated manned missions to the Moon and possibly Mars sometime after 2022.

Various criticisms of Space Exploration are sometimes made, on cost or safety grounds, but the people of many countries are nevertheless usually supportive of programs.

History
See also: Timeline of space exploration

[First orbital flights

Laika, in 1957, became the first living being to be launched into space.The first successful orbital launch was of the Soviet unmanned Sputnik (Satellite I) mission on October 4, 1957. The satellite weighed about 83 kg (184 pounds), and is believed to have orbited Earth at a height of about 250 km (150 miles). It had two radio transmitters (20 and 40 MHz), which emitted "beeps" that could be heard by any radio around the globe. Analysis of the radio signals was used to gather information about the electron density of the ionosphere, while temperature and pressure data was encoded in the duration of radio beeps. The results indicated that the satellite was not punctured by a meteoroid. Sputnik 1 was launched by an R-7 rocket. It incinerated upon re-entry on January 3, 1958.

This success led to an escalation of the American space program, which unsuccessfully attempted to launch Vanguard 1 into orbit two months later. On January 31, 1958, the U.S. successfully orbited Explorer I on a Juno rocket. In the meantime, the Soviet dog Laika became the first animal in orbit on November 3, 1957.

[First human flights

Yuri Gagarin was the first man in space.The first human spaceflight was Vostok 1 (East 1), carrying 27 year old cosmonaut Yuri Gagarin on April 12, 1961. The spacecraft completed one orbit around the globe, lasting about 1 hour and 48 minutes. Gagarin’s flight resonated around the world; it was a demonstration of the more advanced Soviet space program and it opened an entirely new era in space exploration — human spaceflight.

The U.S. first launched a person into space within a month of Gagarin’s flight with the first Mercury flight, by Alan Shepard. Orbital flight was achieved by the United States when John Glenn’s Mercury-Atlas 6 orbited the Earth on February 20, 1962.

Valentina Tereshkova, the first woman in space, orbited the Earth 48 times aboard Vostok 6 on June 16, 1963.

China first launched a person into space 42 years after the launch of Vostok 1, on October 15, 2022, with the flight of Yang Liwei aboard the Shenzhou 5 (Spaceboat 5) spacecraft.

atmosphere was driven by rocket technology. The German V2 was the first rocket to travel into space, overcoming the problems of thrust and material failure. During the final days of World War II this technology was obtained by both the Americans and Soviets as were its designers. The initial driving force for further development of the technology was a weapons race for inter-continental ballistic missiles (ICBMs) to be used as long-range carriers for fast nuclear weapon delivery, but in 1961 when USSR launched the first man into space, the U.S. declared itself to be in a "Space Race" with Russia.

Kerim Kerimov was one of the founders of the Soviet space program.Konstantin Tsiolkovsky, Robert Goddard, Hermann Oberth and Reinhold Tilling laid the groundwork of rocketry in the early years of the 20th century.
Wernher von Braun was the lead rocket engineer for Nazi Germany’s World War II V-2 rocket project. In the last days of the war he led a caravan of workers in the German rocket program to the American lines, where they surrendered and were brought to the USA to work on U.S. rocket development. He acquired American citizenship and led the team that developed and launched Explorer I, the first American satellite. Von Braun later led the team at NASA’s Marshall Space Flight Center which developed the Saturn V moon rocket.
Initially the race for space was often led by Sergey Korolyov, whose legacy includes both the R7 and Soyuz—which remain in service to this day. Korolev was the mastermind behind the first satellite, first man (and first woman) in orbit and first spacewalk. Until his death his identity was a closely guarded state secret; not even his mother knew that he was responsible for creating the Russian space program.
Kerim Kerimov was one of the founders of the Soviet space program and was one of the lead architects behind the first human spaceflight (Vostok 1) alongside Sergey Korolyov. After Korolyov’s death in 1966, Kerimov became the lead scientist of the Soviet space program and was responsible for the launch of the first space stations from from 1971 to 1991, including the Salyut and Mir series, and their precursors in 1967, the Cosmos 186 and Cosmos 188.[2][3]
Other key people included:

Valentin Glushko held role of Chief Engine Designer for USSR. Glushko designed many of the engines used on the early Soviet rockets, but was constantly at odds with Korolev.
Vasily Mishin, Chief Designer working under Sergei Korolev and one of first Soviets to inspect the captured German V2 design. Following the death of Sergei Korolev, Mishin was held responsible for the Soviet failure to be first country to place a man on the moon.
Bob Gilruth, was the NASA head of the Space Task Force and director of 25 manned space flights. Gilruth was the person who suggested to John F. Kennedy that the Americans take the bold step of reaching the Moon in an attempt to reclaim space superiority from the Soviets.
Christopher C. Kraft, Jr., was NASA’s first flight director and oversaw development of Mission Control and associated technologies and procedures.

لقراءة ردود و اجابات الأعضاء على هذا الموضوع اضغط هناسبحان الله و بحمده