LG KM338

Specifications
LG KM338
Network2G
3G
GSM 900 / 1800 / 1900
SizeDimensions
Weight
Display
108 x 46 x 12.9 mm (4.25 x 1.81 x 0.51 in)

TFT, 256K colors
240 x 320 pixels, 2.0 inches (~200 ppi pixel density)
MemoryPhonebook
Call records
Internal
Card slot
Yes, Photocall
40 dialed, 40 received, 40 missed calls
40 MB
microSD
DataGPRS
EDGE
3G
WLAN
Bluetooth
Infrared port
USB
Class 10



v2.0

2.0
FeaturesOS
CPU
Messaging
Alert
Browser
Radio
GPS
Games
Camera
Video
Colors
Java


SMS, EMS, MMS, Email
Vibration; Downloadable polyphonic, MP3 ringtones
WAP 2.0/xHTML
FM radio

Yes
1.3 MP


MIDP 2.0
- Loudspeaker
- Mini-SIM
- Downloadable wallpapers
- MP3/WMA/ААС++ player
- Voice memo
- Clock
- Calendar
- Alarm
Battery
Stand-by
Talk time
Standard battery, Li-Ion 800 mAh
Up to
Up to

Image: http://www.welectronic

Increasing Your Computers Speed

Author: Jeff

Mostly people are concerned about the speed of their system, and it should be a matter of concern. Computers have become an integral apart of our lifestyle and they are used for many purposes, be it official work or even other personal matters. If the system runs down on speed there is a slow damp in every work of yours. So it is better that you get the speed ticking and make it work well.

There are few things that you really need to work on if you have to increase your computer’s speed:

1. There is disk defragmenter that comes free of cost with the windows, this saves time by placing the files in such a way that the time spent on searching these files is reduced thus increases the speed of your PC.
2. There are chances that the booting time of your PC might be a bit more, this is due to many file or the softwares that are needed to be applied or opened along with it. To solve this problem there are registry cleaners that help you reduce the boot time.
3. Visual effects might at times at times use a lot of resources in your computer, so turning these visual effects off might help you a lot in decreasing your computer’s speed and help it perform better.
4. Overclocking your computer might give a permanent boost to your PC’s speed and make it fast.
5. Registry cleaner is a very useful in increasing the computer’s performance, there are chances that at times many softwares just stay in your registry even after you had uninstalled them these can really affect your PC and thus reduce its speed so its better that you get the registry cleaner software and get your registry cleaned and giving you optimum speed.
6. RAM this is the best determinant o your PC’s speed and thus improves the performance and speed a lot. Get the best and more RAM so as to make your PC work the best possible way, and even the fastest way.
7. Reg Fix and Reg Cure are tools that take care of your system’s registry and thus allow a smoother operation so its better that you get these tools for your PC.

Source:
http://www.articlesbase.com

Japanese Traditional Clothing

Japanese people wear normal western clothes like shirts and trousers in ordinary day-to-day life and they look quite suave in their western outfit. The interesting aspect of Japanese clothing which attracts the attention of everyone is their traditional wear. People around the world find their clothing interesting and very unique, due to its entirely different look from clothes of other countries.

Some of the traditional clothing worn by Japanese people is Kimono, Jonihitoe, Yukata etc. Kimono is the most definitive Japanese clothing, which can be worn by both men and women. The difference between men ad women kimonos is that the men kimonos are not very flashy and elaborate and they are just loosely seamed and have narrower sleeves. Women wore dazzling styles of kimonos and they feel pride to possess as it is expensive. It is made up of silk and is available in unique designs, making them different from one another. Kimonos have various parts and each part has a name of its own. This shows that Japanese are very methodical with their clothes also. Japanese women look charming in kimono but it is difficult to wear as it requires help of another person in wearing this kimono.

Another traditional clothing of Japanese women is junihitoe, which is an advance form of kimono. Jonihitoe is a robe of twelve layers and traditionally it was worn by high born Japanese ladies. This clothing is made of silk and the innermost layer is of the pure white silk. All the other layers drape one after the other over this innermost layer. The outermost layer is designed like a coat and lends the colorful and artistic appeal to the garment. This is a very expensive clothing of Japanese women and is rarely available outside Japan.

Another clothing of Japanese men and women is Yukata, which is mostly worn by women but sometimes it is worn by men also. Yukata is a thin garment, which is mostly worn in the summer season. It is worn in the kimono style, but it is not as elaborate as the kimono. Literally yukata means bath cloth but this clothing is worn on several occasions and festivals like the firework displays. Yukata is made up of cotton and now it is available in several colors but traditionally it was made up of indigo dyed cotton.

Source:
http://www.articlesbase.com

Experience Modern Technology With Hcl Laptops

Author: Raisa Raima
Due to the high research and development, the computer world has been changed completely and has come up with several innovative discoveries. In this high technology era, the global transformation has completely changed the needs and requirements. Selection of laptop is even a matter of great consideration nowadays. Users are now looking for a good quality yet affordable laptops. HCL Laptops are on demand as they are highly affordable, excellent in performance, reliable and can completely fulfill customer's expectations. These Cheap HCL Laptops let common man to experience the pleasure of operating a laptop.

Various HCL affordable lattops on demand are MiLeap X, HCL MiLeap L notebook and HCL MiLeap Y Ultra-portable notebook. These are excellent in performance, reliability and can easily suit buyer's pocket. The main benefit of using a laptop is its portability and mobility. The bulky desktop computers have been replaced by these machines as they deliver high quality performance and comes with alluring designs to attract customers. These Cheap HCL Laptops comes with innovative technologies and unique market trends. They are designed according to customer's preferences and suits them according to their requirements.

The present day motebooks are space conscious and one can place them anywhere, in the room or office desk. These machines grant user's a world class solution against various problems and provide them with a perfect ease. The HCL models have weight of approximately 1-8 Kilograms and they can be easily taken anywhere, without the fear of loss of data and damage. The laptops let users to create, share and organize files, applications, programs, spreadsheets and presentations just like a computing device.

The present day cheap notebooks comes with a single battery or sometimes with an external AC/DC adapter. The various efficient components of a laptop facilitate the portable usage and lessen the electricity consumption burden. The laptop also comes with touch pad and pointing stick through which users can access various applications and menus. The latest cheap HCL laptops also offer modern features such as network adapter, internal modem, Wi-Fi and USB support etc.

However, one must not purchase these gadgets from unauthorized dealers and specially from grey market as they can be fake. The HCL showrooms offers customers a quality product with a long lasting warranty period. Before purchasing the HCL Laptop, one must go through the complete detailed knowledge survey of On line market and should be aware of the proper features of the model, one is going for. First set the requirements, secondly, priorities them and then choose a model completely satisfying the expectations.

Source:

Ducati Desmosedici RR

Ducati unleashes MotoGP replica

Nearly two years after Ducati first showed off the engine, the company has unveiled its MotoGP street bike replica, called the Desmosedici RR. The Bologna firm argues this is the first time the motorcycle industry has supplied a pukka MotoGP replica and it will be the first time it has brought a V-four to production. Its previous V-four, made in the 1960s, only made it to prototype stage...

Ducati says the bike will have in excess of 200 horses and will come with a three-year warranty, with servicing in that period already covered by the substantial retail price.

Included in the package will be a racing exhaust with CPU for track use, track stand, bike cover, sponsor decal kit, and certificate of authenticity.

And the price. It's currently estimated to be 50,000 Euros, or around $100,000 by the time it lands in Australia, in 2007.

The company is taking reservations via its dealers until September 30 and says it is giving priority to 999R owners.

Here is what Ducati had to say about the bike...

The body design and the aerodynamics faithfully reflect the Desmosedici GP6. The colour scheme, the fittings, the materials used in its construction as well as the technical features of the powerful four-cylinder desmodromic engine built by the Borgo Panigale factory engineers, leave no doubts whatsoever: the Desmosedici RR is the ultimate expression of the most extreme MotoGP racing machine today.

The project is currently in the industrialization phase and, as previously announced, it will be a limited edition motorcycle, with approximately 400 bikes being produced a year. The RR is scheduled to arrive in the market in July 2007.

Federico Minoli - Chairman and Managing Director of Ducati Motor Holding - and Claudio Domenicali - Product Director of Ducati Motor and Managing Director of Ducati Corse - together with Ducati Corse riders Loris Capirossi, Sete Gibernau and Vittoriano Guareschi were at Mugello to unveil Ducati's latest jewel of technology.

"This is an important moment for us, another dream come true. Producing the Desmosedici RR means offering the ultimate expression of Ducati technology, while remaining faithful to the tradition of every one of our road and racing bikes," declared Federico Minoli. "It is a challenge that we wanted to accept and although relatively few bikes will be made, the RR will be a true object of desire for all Ducatisti. It will be the ultimate Ducati experience, one that best exemplifies the passion and the ingenuity for which we are famous. Meanwhile the twin-cylinder remains and will continue to remain Ducati's traditional engine, having equipped all of our production models in the past and equipping them in the future."

"The Desmosedici RR is a true Grand Prix replica," commented Claudio Domenicali. "The technological level of this bike is extraordinarily high and for the first time ever all the authentic performance and technology of the ultimate MotoGP racing machine have been transferred to a road-going motorcycle. Over 200 hp of power for a bike that features exclusive components and quality materials, destined to become the new point of reference for production motorcycles. There couldn't have been a better place than Mugello for the unveiling of this new bike and who better to take the wraps off it than Loris, Sete and Vittoriano, because this bike is also their bike and all of their experience has gone into developing this road-going motorcycle."

ENGINE
The Ducati Desmosedici RR features advanced technology and aerodynamics that are derived from the GP6 currently being raced in the 2006 MotoGP World Championship.

The engine of the Desmosedici RR accurately reflects that of the MotoGP bike: Ducati's traditional desmodromic distribution, guaranteeing precise valve control up to the highest revs, is perfectly matched to the 989 cc four-cylinder 'L' layout, with four titanium valves per cylinder, in asymmetrical Twin Pulse configuration, producing a masterwork of precision engineering.

The double overhead cams are gear driven, a sophisticated and reliable solution that enables precise valve timing in all conditions. This authentic copy of the Grand Prix engine is completed by a six-speed transmission, which retains its 'racing' characteristic by being cassette type, and a hydraulically actuated dry multi-plate slipper clutch.

The aim of producing a light but robust engine has led not only to an unrivalled quality component design but also the use of exclusive racing-derived materials: sand-cast, aluminium crankcase and cylinder heads, titanium connecting rods and valves, sand-cast magnesium engine covers.

Four 50 mm Magneti Marelli throttle bodies are present, with 12-hole 'microjet' injectors. For sophisticated management of the powerful four-cylinder engine a Magneti Marelli 5SM ECU and high-speed CAN line electronics have been used.

An all-time 'first' comes with the use of a '4 into 2 into 1' exhaust, with "vertical exit" silencer, hidden in the tail cover.

These are all benchmark performance features for a MotoGP replica bike, which is capable of delivering more than 200 hp of power with the 102 dB racing silencer and dedicated CPU race kit.

Amazingly the Desmosedici RR with its catalytic oxygen sensor exhaust, homologated for road use, fully complies with Euro3 emissions regulations.

CHASSIS
The engine clearly represents the beating heart of this motorcycle, but the technological advancements also extend to the chassis: a signature tubular trellis hybrid frame, refined components, and a superb carbon fibre body. This is a motorcycle that is destined for an expert rider, someone who is always looking for extreme sporting performance, as well as being an exclusive, esoteric, reliable product that is more than capable of track racing.

The colour scheme of the Desmosedici RR was the work of Alan Jenkins, the designer and one of the men behind the Desmosedici MotoGP, who was also responsible for the aerodynamics package which is aimed at achieving maximum speed and excellent handling. The bike is totally inspired by the racing machine, the Ducati Desmosedici GP6, from which it inherits all the aggressiveness of its lines. It is fitted with a new lightweight multifunction dashboard, developed in collaboration with Ducati Corse, the same one that will be fitted to next year's racing machine, the Desmosedici GP7.

The bike's development could not have been made possible without the significant collaboration of Vittoriano Guareschi, the official Ducati Corse tester, whose riding abilities and hundreds of hours of track time have made a fundamental contribution to the evolution of the project.

For the first time the Ducati Desmosedici RR uses a new welded tubular steel trellis hybrid frame (ALS 450) with the frame geometry that is the same as that of the Desmosedici GP6.

This construction guarantees an excellent stiffness to weight ratio, allowing superior manoevrability and riding precision. Attached to the red frame is the rear seat support in high temperature resin type carbon fibre. This material, normally used only on racing bikes, has the characteristic of being extremely lightweight but exceptionally rigid.

The Desmosedici RR sports a new extra-long, cast, forged and pressed aluminium alloy swingarm. The geometry and the technology of this component derive directly from the MotoGP bike, and give the RR a high level of traction control, and excellent weight distribution as well as a superb stiffness to weight ratio.

In the suspension department the Ducati Desmosedici RR features the most advanced technical components.

The rear suspension geometry and layout is the same as that of the GP6, with the rear shock attached above the swingarm and to a rocker, which is hinged to the crankcase.

The front suspension features 43 mm upside-down Öhlins FG353 pressurized forks (PFF), with TiN coated sliders. The forks, which come directly from competition use, as well as being pressurized thus ensuring excellent track performance, are fully adjustable in preload, rebound and compression.

The rear shock is also Öhlins and has rebound, low/high speed compression adjustment and hydraulic preload adjustment.

For the first time ever, this Ducati production motorcycle features Marchesini forged and machined magnesium alloy wheels, with 7 spoke design as on the GP6. This helps to reduce unsprung weight and inertia, all the while improving handling and suspension response.

With the aim of producing the ultimate track performance, Ducati in collaboration with Bridgestone is developing special tyres for the Desmosedici RR. The tread pattern, construction and profile are being specially developed and produced by the Japanese tyre manufacturer.

The numerous racing components of this high-performance machine also include its Brembo brakes. Up front the Desmosedici RR features a new pair of radial 'monoblock' callipers with four 34 mm pistons: monoblock technology, until now only used for racing callipers, allows calliper stiffness to be increased, thus improving braking response; the front brake system is completed by a radial master cylinder, with hinged lever and remote 'quick' adjuster. The pair of front brake discs are the same as those used on the GP6 in its wet weather race set-up: two semi-floating 320 mm x 6 mm discs, with machined flange. The Brembo rear brakes are made up of a 240 mm fixed disc and a fixed calliper with two 34 mm pistons.

The Desmosedici RR will be available with a special race kit that includes a 102 dB racing exhaust, a dedicated CPU, bike cover, paddock stand.

For this exclusive Ducati, a new dedicated service plan is included.

Each Ducati Desmosedici RR owner can benefit with a three-year warranty and three years of scheduled maintenance, free of charge.

Two versions of the RR will be available: 1) the Desmosedici RR - painted in 'Rosso GP', with a white number plate on the tail section; 2) the Desmosedici RR 'Team Version' - painted in 'Rosso GP', and as with the factory Corse bikes, has a broad white stripe on the fairing.

A team sponsor decal kit will be provided with each bike.

Technical Specifications: Ducati Desmosedici RR

Engine
Type L-4 cylinder, liquid-cooled, DOHC, Desmodromic, 4 valves per cylinder, gear driven camshafts
Displacement 989 cc
Power More than 200 HP @ 13,500 rpm*
Torque n/a
Fuel injection Four 50 mm Magneti Marelli throttle bodies, 12-hole "microjet" with injectors over throttle, manual idle control
Exhaust '4 into 2 into 1'vertical exit exhaust/silencer
Emissions Euro 3

Trasmission
Gearbox 6-speed; Cassette type
Clutch Dry multi-plate slipper clutch, hydraulically actuated

Vehicle
Body Full carbon fibre bodywork
Frame Tubular steel trellis hybrid, carbon fibre seat support, aluminium swingarm
Front Suspension Ohlins 'FG353' PFF forks USD 43 mm pressurized, with preload, rebound and compression adjustment, TiN coated sliders
Front Wheel Marchesini forged and machined magnesium alloy wheels, with 7 spoke design as GP6
Rear Suspension Ohlins rear shock, with rebound, low/high speed compression adjustment, and hydraulic preload adjustment
Rear Wheel Marchesini forged and machined magnesium alloy wheels, with 7 spoke design as GP6
Tyres Bridgestone
Front Brake Two Brembo radial "monoblock" callipers with four 34 mm pistons; two semi-floating 320 mm x 6 mm discs, with machined flange: the same as GP6 wet race set-up
Rear Brake 240 mm fixed disc, fixed calliper with two 34 mm pistons
Fuel tank aluminium alloy
Dry Weight n/a
Instruments New lightweight Corse electronic multifunction dashboard with LCD 'bar' graph tachometer, trip/odometer, anti-theft immobilizer, lap time measurement, oil pressure, fuel reserve, EOBD, clock, air temperature, rev counter

Version
Colours Two versions - 1) Desmosedici RR: Rosso GP with a white number plate on the tail section; 2) Desmosedici RR "Team Version": Rosso GP with broad white fairing stripe.
Versions Single-seat with racing exhaust (102 dB) - without catalytic converter. A team sponsor decal kit will be provided with each bike.

Source:
http://www.bikepoint.com.au

LG KM380

Specifications
LG KM380
Network2G
3G
GSM 900 / 1800 / 1900
SizeDimensions
Weight
Display
108 x 48 x 13 mm (4.25 x 1.89 x 0.51 in)
79 gram
TFT, 256K colors
240 x 320 pixels, 2.0 inches (~200 ppi pixel density)
MemoryPhonebook
Call records
Internal
Card slot
1000 entries, Photocall
40 dialed, 40 received, 40 missed calls
40 MB
microSD, up to 32 GB
DataGPRS
EDGE
3G
WLAN
Bluetooth
Infrared port
USB
Class 10



2.0

2.0
FeaturesOS
CPU
Messaging
Alert
Browser
Radio
GPS
Games
Camera
Video
Colors
Java


SMS, EMS, MMS, Email
Vibration; Downloadable polyphonic, MP3 ringtones
WAP 2.0/xHTML
FM radio

Yes
1.3 MP

Black
MIDP 2.0
- Loudspeaker
- Mini-SIM
- 3.5mm jack
- Downloadable wallpapers
- MP3/WMA/ААС++ player
- Voice memo
- Clock
- Calendar
- Alarm
Battery
Stand-by
Talk time
Standard battery, Li-Ion 800 mAh
Up to 250 h
Up to 3 h

Image: http://www.gsmarena.com/lg_km380-pictures-2448.php

The Panama Canal - From the Atlantic Through the Pacific

by:

Attila Z Jancsin


The Panama Canal is a man-made transoceanic route that was first constructed by the French and completed by the Americans in 1914. It was made to shorten the travel time needed by ships needing to get to the Atlantic from the Pacific, and vice versa. Its two ends are at the Gulf of Panama, and the Caribbean.

The United States previously controlled the Panama Canal Zone, but it was turned over to the Panama Canal Authority on December 31, 1999.

How the Canal Came to Be

The idea to build a canal in the Gulf of Panama was the brainchild of Charles V of Spain, the Holy Roman Emperor, who suggested in 1532 that the passage would ease shipping for the Spain-Peru route. The suggestion was then studied by explorer Alessandro Malaspina during a voyage in 1788-1793. Malaspina even came up with construction plans.

It was not until the 19th century that construction of the Canal was initiated. Before that, however, Scotland has tried to initiate trade links between the Atlantic and the Pacific through the Darien scheme, an attempt to establish a colony on the Isthmus of Panama. The scheme was ill-fated, however, which caused high numbers of deaths in the ranks of the colonists due to the inhospitable conditions of the isthmus and England’s refusal to support the effort.

Finally, the US$8-million Panama Railway was established by the United States. Opened in 1855, the overland trans-oceanic link was able to facilitate easier and speedier trade between the two oceans. However, some people still think that an all-water route would be more effective and ideal.

The French Attempt at Building the Canal

On January 1, 1880, the French decided to start constructing the canal at sea level through Panama, then a province of Colombia. The project was as ill-fated as the Darien scheme, because the French did not make any studies as to the geology and the conditions of the water in the region. Mosquito-borne diseases like malaria and yellow fever struck mercilessly on the French work-force, resulting to a high mortality rate among them. At that time, nobody suspected mosquitoes of being capable of carrying deadly diseases.

The high mortality was compounded by the hospitals instead of helping, because the wards in which the sick workers were confined had no screens. The hospitals were also breeding grounds for mosquitoes because health officials had no idea about the mosquito’s role in disease transmission.

The working conditions were not the only factors in the failure of the French attempt. Other factors included the lack of field experience by the French, and the difficulty of the concept itself.

During the 8 years that the French spent on their attempt – from 1881-1889 – they had lost as much as 22,000 workers due to the work conditions of the canal.

The Americans Take Over

The American idea was to build a canal across Nicaragua, and not Panama as was attempted by the French. In a bid to realize their own plans, Philippe Bunau Varilla of the French Canal Syndicate tapped the services of William Nelson Cromwell to convince the United States Congress to build the canal across Panama instead.

Cromwell then took advantage in 1902 of an erroneous 10-cent Nicaraguan postal stamp made by the US American Bank Note Company, which showed the Momotombo volcano fuming with smoke and about to erupt. It was also the part of the year in which the Caribbean experiences high volcanic activity, something that Cromwell also took advantage of. Cromwell used the opportunity to make a false story about Momotombo erupting and causing seismic shocks, and published it in the New York Sun. He also sent leaflets with the Nicaraguan stamps to all senators.

In reality, Momotombo was a nearly dormant volcano that is also 100 miles from the proposed Nicaraguan canal. However, Cromwell’s efforts paid off and the U.S. legislative assembly voted to build the canal in Panama.

The rest is history. The United States started building the Panama Canal on May 4, 1904 after gaining Panama’s graces by helping it achieve independence from Colombia. The U.S. this time took careful attention for extensive sanitation and control of mosquitoes, something the French failed to do which resulted in the deaths of its workers. Because of this, the Americans had a lower death toll although the toll did reach 5,609 workers from the 10-year construction period. The canal was completed on 1914, and was opened on August 15 of that year.

The Panama Canal is a man-made transoceanic route that was first constructed by the French and completed by the Americans in 1914. It was made to shorten the travel time needed by ships needing to get to the Atlantic from the Pacific, and vice versa. Its two ends are at the Gulf of Panama, and the Caribbean.

The United States previously controlled the Panama Canal Zone, but it was turned over to the Panama Canal Authority on December 31, 1999.

How the Canal Came to Be

The idea to build a canal in the Gulf of Panama was the brainchild of Charles V of Spain, the Holy Roman Emperor, who suggested in 1532 that the passage would ease shipping for the Spain-Peru route. The suggestion was then studied by explorer Alessandro Malaspina during a voyage in 1788-1793. Malaspina even came up with construction plans.

It was not until the 19th century that construction of the Canal was initiated. Before that, however, Scotland has tried to initiate trade links between the Atlantic and the Pacific through the Darien scheme, an attempt to establish a colony on the Isthmus of Panama. The scheme was ill-fated, however, which caused high numbers of deaths in the ranks of the colonists due to the inhospitable conditions of the isthmus and England’s refusal to support the effort.

Finally, the US$8-million Panama Railway was established by the United States. Opened in 1855, the overland trans-oceanic link was able to facilitate easier and speedier trade between the two oceans. However, some people still think that an all-water route would be more effective and ideal.

The French Attempt at Building the Canal

On January 1, 1880, the French decided to start constructing the canal at sea level through Panama, then a province of Colombia. The project was as ill-fated as the Darien scheme, because the French did not make any studies as to the geology and the conditions of the water in the region. Mosquito-borne diseases like malaria and yellow fever struck mercilessly on the French work-force, resulting to a high mortality rate among them. At that time, nobody suspected mosquitoes of being capable of carrying deadly diseases.

The high mortality was compounded by the hospitals instead of helping, because the wards in which the sick workers were confined had no screens. The hospitals were also breeding grounds for mosquitoes because health officials had no idea about the mosquito’s role in disease transmission.

The working conditions were not the only factors in the failure of the French attempt. Other factors included the lack of field experience by the French, and the difficulty of the concept itself.

During the 8 years that the French spent on their attempt – from 1881-1889 – they had lost as much as 22,000 workers due to the work conditions of the canal.

The Americans Take Over

The American idea was to build a canal across Nicaragua, and not Panama as was attempted by the French. In a bid to realize their own plans, Philippe Bunau Varilla of the French Canal Syndicate tapped the services of William Nelson Cromwell to convince the United States Congress to build the canal across Panama instead.

Cromwell then took advantage in 1902 of an erroneous 10-cent Nicaraguan postal stamp made by the US American Bank Note Company, which showed the Momotombo volcano fuming with smoke and about to erupt. It was also the part of the year in which the Caribbean experiences high volcanic activity, something that Cromwell also took advantage of. Cromwell used the opportunity to make a false story about Momotombo erupting and causing seismic shocks, and published it in the New York Sun. He also sent leaflets with the Nicaraguan stamps to all senators.

In reality, Momotombo was a nearly dormant volcano that is also 100 miles from the proposed Nicaraguan canal. However, Cromwell’s efforts paid off and the U.S. legislative assembly voted to build the canal in Panama.

The rest is history. The United States started building the Panama Canal on May 4, 1904 after gaining Panama’s graces by helping it achieve independence from Colombia. The U.S. this time took careful attention for extensive sanitation and control of mosquitoes, something the French failed to do which resulted in the deaths of its workers. Because of this, the Americans had a lower death toll although the toll did reach 5,609 workers from the 10-year construction period. The canal was completed on 1914, and was opened on August 15 of that year.

Source:
http://www.isnare.com


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