Bethsaida

Also known as et-Tell, Beth-Saida, Bethsaida Julia, Julia, Julias, Julias-Bethsaida

Plain of Bethsaida The northeastern shore of the Sea of Galilee is a fertile plain where the feeding of the 5,000 likely took place.  Israeli maps and excavators currently locate the New Testament city of Bethsaida at an ancient ruin known as "et-Tell."  The excavation team, headed by Rami Arav, is insistent that this site be identified with ancient Bethsaida.  Others suggest that Bethsaida may be better located at el-Araj near the lakeshore.

Aerial View There are many problems with the identification of et-Tell with Bethsaida, including: Distance from the Sea of Galilee Elevation of the site, about 20 feet (7 m) above the level of the lake in ancient times Lack of ancient remains from the 1st century A.D., including significant pottery and coins Lack of buildings from the New Testament period.  After nearly 20 years of digging, excavators have identified only one Roman period house and another building they identify as a Roman temple.  This latter identification is dubious. In short, there is little to commend this site as being the Bethsaida mentioned by Josephus and the Bible.  For more of the excavators' perspective, see the links below.  For more evidence against this identification, see Rainey and Notley, The Sacred Bridge, pp. 356-59.

House of the Fisherman The most impressive remains at this site are the Iron Age gate and two large Hellenistic houses.  The House of the Fisherman measures 4,300 sq. feet, and is believed to be a fisherman's home based on the discovery of two types of lead net weights, a round lead weight of the so-called musket type, and a long, crooked needle.  Among the coins discovered in the house were two silver didrachmae of Demetrius II.

House of Winemaker This house (2,700 square feet) included an undisturbed wine cellar with four complete Hellenistic jars.  In addition, a gold earring with the picture of an animal was found, as well as numerous examples of expensive imported vessels. A hook and some anchors were found in the house, as were three iron sickles.

Acco, Ptolemais, Acre

Also known as Tel 'Akko/Acco, Tel/Tell el-Fukhkhar, Tell el-Fukhar, Acca, Accho, Acon, Acre, Acri, Ake, 'Akka, Akko, Antiochenes, Antiochia Ptolemais, Ptolemais Antiochenes, Ocina, St. Jean d'Acre

Port City of Acco Acco is only referenced once in the Bible by this name. In Judges 1:31, it is referred to as one of the places the Israelites failed to hold. In the New Testament, Acco was known as Ptolemais, and was one of the stops on Paul’s final return to Jerusalem (Acts 21:7). Ptolemais was situated on the main sea and land route in ancient times. It served as the main port of the region until Caesarea was built. Herod the Great received Augustus Caesar at this site, since Caesarea had not yet been completed. Vespasian first docked at Ptolemais when he came to subdue the First Jewish Revolt. Later, the Arab inhabitants changed the name back to “Acco.”

Defensive Walls Acco (then known as Acre) was conquered by the Crusaders in 1104 A.D. They held Acco even after having lost control of Jerusalem in 1187. It then became the greatest port of their empire. The Mamluks ended Crusader rule in Acco in 1291. Napoleon understood the strategic value of this site. He claimed that if this port city had fallen to him, “the world would have been mine.” His 1799 siege failed.

Templars Tunnel Five hundred years after the Crusaders left, the Druze prince Fakhr ad-Din rebuilt the city. The Muslims could not destroy the Crusader’s underground labyrinth, so it can still be visited today. These buildings were originally above-ground, but Al-Jazzar simply built his city over them. The excavations were stopped for fear that the Arab town might collapse. Today, most of the Crusader city is still buried. Only the area that is originally known as the “Hospitaller’s Quarter” is open.

Al-Jazzer Mosque The emerald-domed, 18th-century Mosque of Al-Jazzar is the third largest mosque in Israel. Construction began in 1781, on the site of San Croce, the original Christian cathedral of Acco. The Roman columns inside were taken from Caesarea. Inside the mosque is a shrine containing a hair from the beard of Muhammad. Other hairs from Muhammad’s beard can be seen in Istanbul, Turkey.

Sunset from Acco

Dead Sea

Also known as Bahr Lut, Eastern Sea, Lake of Asphalt, Salt Sea, “Sea of Sodom and Gomorrah,” Sea of the Arabah, Sea of the Devil, “Sea of the Plain,” Sea of Zoar, Stinking Lake

Names of the Sea Known in the Bible as the "Salt Sea" or the "Sea of the Arabah," this inland body of water is appropriately named because its high mineral content allows nothing to live in its waters.  Other post-biblical names for the Dead Sea include the "Sea of Sodom," the "Sea of Lot," the "Sea of Asphalt" and the "Stinking Sea."  In the Crusader period, it was sometimes called the "Devil's Sea."  All of these names reflect something of the nature of this lake.

Biblical Period The Dead Sea, unlike the Sea of Galilee to the north, does not figure prominently in the biblical narratives.  Its most important role was as a barrier, blocking traffic to Judah from the east.  An advancing army of Ammonites and Moabites apparently crossed a shallow part of the Dead Sea on their way to attack King Jehoshaphat (2 Chron 20).  Ezekiel has prophesied that one day the Dead Sea will be fresh water and fishermen will spread their nets along the shore.

Lowest Point The Dead Sea is located in the Syro-African Rift, a 4000-mile fault line in the earth's crust.  The lowest point of dry land on earth is the shoreline of the Dead Sea at 1300 feet below sea level.  That the lake is at the lowest point means that water does not drain from this lake.  Daily 7 million tons of water evaporate but the minerals remain, causing the salt content to increase.  Figures for the Dead Sea's salinity today range from 26-35%.

Mineral-Rich Nearly ten times as salty as the world's oceans and twice as saline as the Great Salt Lake in Utah, the Dead Sea is rich with minerals.  The Dead Sea Works company on the southwest side of the lake employs 1600 people around the clock to harvest the valuable minerals from the water.  Potash is the most valuable of those extracted today and is used in the manufacture of fertilizer.  The best article on the minerals in the Dead Sea is in the Encyclopedia Britannica.

Healthy Water The unique concentration of the Dead Sea waters has long been known to have medicinal value.  Aristotle, Queen of Sheba, King Solomon and Cleopatra were all familiar with this and modern doctors as well often prescribe patients with skin ailments to soak in the waters of the Dead Sea.  Because of the dropping level of the Dead Sea, the southern end is no longer under water, except for that which is channeled by aqueducts for the purpose of extracting minerals.

Related Websites

At BiblePlaces.com, see the related sites of En Gedi, Masada, Qumran, Qumran Caves, Jericho, and the Judean Wilderness. Dead Sea (Dead Sea Tourist Board and Dead Sea Hotel Association)  The official site for Dead Sea Tourism.   Hosts categories such as "Fast Facts and History," "Sights and Sites," "Medicine/Research," "Photogallery," and even "Travel Themes." Dead Sea (Walking in Their Sandals)  Gives easy-to-read information on the location, biblical significance, etc.  Features links to photographs and on-line scripture references.  Dead Sea and Wilderness of Judea (Christian Travel Study Program)  Discusses the barrenness of the Judean Wilderness as a place of solitude, even refuge, in both biblical and modern times.  Gives a brief description of the Dead Sea in this context.  Dead Sea (Catholic Encyclopedia)  Highlights the biblical significance of the site while clearly describing geographical and physical properties of the sea and surrounding area. The Dead Sea Research Center  The home page for the Dead Sea Research Center.  A great resource for studying the medical potential of the Dead Sea area.  Includes a "News & Research link," a "Publications" bibliography, and an "Ask the Doctor" feature. Dead Sea (Extreme Science)  An upbeat, scientific description of the Sea, answering common question such as, "why is the Dead Sea so salty?"  Reflects an evolutionary bias. Madaba Mosaic Map: The Dead Sea (Franciscan Cyberspot)  Features the Dead Sea portion of the 6th century Madaba Map.  See more detail at their Virtual Travel link. Dead Sea keeps falling (BBC News)  An interesting news story reporting on the findings of the European Space Agency in their survey of the region. Dead Sea 'to disappear by 2050' (BBC News)  "Environmentalists in Jordan are warning that the Dead Sea will disappear by the year 2050 if its level continues to drop at the current rate."  Presents the problem and proposed solutions.  Dead Sea (Dead Sea Scrolls Home Page, Personal Page)  Observes the Dead Sea in its geographical context, including references to nearby sites and insight into how the climate of the region affected the preservation of the Dead Sea Scrolls.   Welcome to the Dead Sea (inisrael.com)  A site for tourists with basic information about the area and links to hotels, cars, and other travelers resources. For Dead Sea, a Slow and Seemingly Inexorable Death (Washington Post)  Fascinating article on the steady decline of the water level of the Dead Sea, with numerous useful facts and at least one stupid quote.

Airbus A380 airline Emirates

The Airbus A380 is a double-deck, wide-body, four-engine airliner manufactured by the European corporation Airbus, a subsidiary of EADS. The largest passenger airliner in the world, the A380 made its maiden flight on 27 April 2005 from Toulouse, France, and made its first commercial flight on 25 October 2007 from Singapore to Sydney with Singapore Airlines. The aircraft was known as the Airbus A3XX during much of its development phase, but the nickname Superjumbo has since become associated with it.

The A380’s upper deck extends along the entire length of the fuselage, and its width is equivalent to that of a widebody aircraft. This allows for a cabin with 50% more floor space than the next-largest airliner, the Boeing 747-400, and provides seating for 525 people in a typical three-class configuration or up to 853 people in all-economy class configurations. The postponed freighter version, the A380-800F, is offered as one of the largest freight aircraft, with a payload capacity exceeded only by the Antonov An-225. The A380-800 has a design range of 15,200 km (8,200 nmi), sufficient to fly from New York to Hong Kong for example, and a cruising speed of Mach 0.85 (about 900 km/h or 560 mph at cruising altitude).

In the summer of 1988, a group of Airbus engineers led by Jean Roeder began working in secret on the development of a ultra-high-capacity airliner (UHCA), both to complete its own range of products and to break the dominance that Boeing had enjoyed in this market segment since the early 1970s with its 747.McDonnell Douglas unsuccessfully offered its smaller, double-deck MD-12 concept for sale. Roeder was given approval for further evaluations of the UHCA after a formal presentation to the President and CEO in June 1990. The project was announced at the 1990 Farnborough Air Show, with the stated goal of 15% lower operating costs than the 747-400. Airbus organized four teams of designers, one from each of its EADS partners (Aérospatiale, DaimlerChrysler Aerospace, British Aerospace, EADS CASA) to propose new technologies for its future aircraft designs. The designs would be presented in 1992 and the most competitive designs would be used

In January 1993, Boeing and several companies in the Airbus consortium started a joint feasibility study of an aircraft known as the Very Large Commercial Transport (VLCT), aiming to form a partnership to share the limited market. This study was abandoned two years later, Boeing’s interest having decreased.

In June 1994, Airbus began developing its own very large airliner, designated the A3XX. Airbus considered several designs, including an odd side-by-side combination of two fuselages from the A340, which was Airbus’s largest jet at the time. The A3XX was pitted against the VLCT study and Boeing’s own New Large Aircraft successor to the 747. From 1997 to 2000, as the East Asian financial crisis darkened the market outlook, Airbus refined its design, targeting a 15 to 20 percent reduction in operating costs over the existing Boeing 747-400. The A3XX design converged on a double-decker layout that provided more passenger volume than a traditional single-deck design

On 19 December 2000, the supervisory board of newly restructured Airbus voted to launch a €8.8-billion programme to build the A3XX, re-christened as the A380, with 50 firm orders from six launch customers. The A380 designation was a break from previous Airbus families, which had progressed sequentially from A300 to A340. It was chosen because the number 8 resembles the double-deck cross section, and is a lucky number in some Asian countries where the aircraft was being marketed. The aircraft’s configuration was finalised in early 2001, and manufacturing of the first A380 wing box component started on 23 January 2002. The development cost of the A380 had grown to €11 billion when the first aircraft was completed.

Major structural sections of the A380 are built in France, Germany, Spain, and the United Kingdom. Due to their size, they are brought to the assembly hall in Toulouse in France by surface transportation, though some parts are moved by the A300-600ST Beluga aircraft used in the construction of other Airbus models. Components of the A380 are provided by suppliers from around the world; the five largest contributors, by value, are Rolls-Royce, SAFRAN, United Technologies, General Electric, and Goodrich.

The front and rear sections of the fuselage are loaded on an Airbus Roll-on/roll-off (RORO) ship, Ville de Bordeaux, in Hamburg in northern Germany, from where they are shipped to the United Kingdom. The wings, which are manufactured at Filton in Bristol and Broughton in North Wales, are transported by barge to Mostyn docks, where the ship adds them to its cargo. In Saint-Nazaire in western France, the ship trades the fuselage sections from Hamburg for larger, assembled sections, some of which include the nose. The ship unloads in Bordeaux. Afterwards, the ship picks up the belly and tail sections by Construcciones Aeronáuticas SA in Cádiz in southern Spain, and delivers them to Bordeaux. From there, the A380 parts are transported by barge to Langon, and by oversize road convoys to the assembly hall in Toulouse. Roads and canals were widened and replaced; and new barges were developed to deliver the A380 parts. After assembly, the aircraft are flown to Hamburg Finkenwerder Airport (XFW) to be furnished and painted. It takes 3,600 l (950 US gal) of paint to cover the 3,100 m² (33,000 sq ft) exterior of an A380. Airbus sized the production facilities and supply chain for a production rate of four A380s per month.

Five A380s were built for testing and demonstration purposes. The first A380, serial number MSN001 and registration F-WWOW, was unveiled at a ceremony in Toulouse on 18 January 2005.Its maiden flight took place at 8:29 UTC (10:29 a.m. local time) 27 April 2005. This plane, equipped with Trent 900 engines, flew from Toulouse Blagnac International Airport with a flight crew of six headed by chief test pilot Jacques Rosay. After successfully landing three hours and 54 minutes later, Rosay said flying the A380 had been “like handling a bicycle”

On 1 December 2005, the A380 achieved its maximum design speed of Mach 0.96 (versus normal cruising speed of Mach 0.85), in a shallow dive, completing the opening of the flight envelope. On 10 January 2006, the A380 made its first transatlantic flight to Medellín in Colombia, to test engine performance at a high altitude airport. It arrived in North America on 6 February, landing in Iqaluit, Nunavut in Canada for cold-weather testing

On 14 February 2006, during the destructive wing strength certification test on MSN5000, the test wing of the A380 failed at 145% of the limit load, short of the required 150% to meet the certification. Airbus announced modifications adding 30 kg to the wing to provide the required strength. On 26 March 2006, the A380 underwent evacuation certification in Hamburg, Germany. With 8 of the 16 exits blocked, 853 passengers and 20 crew left the aircraft in 78 seconds, less than the 90 seconds required by certification standards. Three days later, the A380 received European Aviation Safety Agency (EASA) and United States Federal Aviation Administration (FAA) approval to carry up to 853 passengers.

The maiden flight of the first A380 using GP7200 engines—serial number MSN009 and registration F-WWEA—took place on 25 August 2006. On 4 September 2006, the first full passenger-carrying flight test took place. The aircraft flew from Toulouse with 474 Airbus employees on board, in the first of a series of flights to test passenger facilities and comfort. In November 2006, a further series of route proving flights took place to demonstrate the aircraft’s performance for 150 flight hours under typical airline operating conditions

Initial production of the A380 was troubled by delays attributed to the 530 km (330 mi) of wiring in each aircraft. Airbus cited as underlying causes the complexity of the cabin wiring (100,000 wires and 40,300 connectors), its concurrent design and production, the high degree of customization for each airline, and failures of configuration management and change control. Specifically, it would appear that German and Spanish Airbus facilities continued to use CATIA version 4, while British and French sites migrated to version 5. This caused overall configuration management problems, at least in part because wiring harnesses manufactured using aluminium rather than copper conductors necessitated special design rules including non-standard dimensions and bend radii; these were not easily transferred between versions of the software

Airbus announced the first delay in June 2005 and notified airlines that deliveries would be delayed by six months. This reduced the number of planned deliveries by the end of 2009 from about 120 to 90–100. On 13 June 2006, Airbus announced a second delay, with the delivery schedule undergoing an additional shift of six to seven months. Although the first delivery was still planned before the end of 2006, deliveries in 2007 would drop to only 9 aircraft, and deliveries by the end of 2009 would be cut to 70–80 aircraft. The announcement caused a 26% drop in the share price of Airbus’s parent, EADS, and led to the departure of EADS CEO Noël Forgeard, Airbus CEO Gustav Humbert, and A380 programme manager Charles Champion. On 3 October 2006, upon completion of a review of the A380 program, the CEO of Airbus, Christian Streiff, announced a third delay, pushing the first delivery to October 2007, to be followed by 13 deliveries in 2008, 25 in 2009, and the full production rate of 45 aircraft per year in 2010. The delay also increased the earnings shortfall projected by Airbus through 2010 to €4.8 billion.

As Airbus prioritized the work on the A380-800 over the A380-800F, freighter orders were cancelled by FedEx and UPS, or converted to A380-800 by Emirates and ILFC. Airbus suspended work on the freighter version, but said it remained on offer,albeit without a service entry date. For the passenger version Airbus negotiated a revised delivery schedule and compensation with the 13 customers, all of which retained their orders with some placing subsequent orders, including Emirates, Singapore Airlines, Qantas, Air France, Qatar, and Korean Air.

The first A380 with redesigned wiring harnesses achieved power-on in April 2008, with a 3½ month delay.On 13 May 2008 Airbus announced reduced deliveries for the years 2008 (12) and 2009 (21). After further manufacturing and market setbacks, Airbus now plans to deliver 14 A380s in 2009, down from the previous target of 18.

The first aircraft delivered (MSN003, registered 9V-SKA) was handed over to Singapore Airlines on 15 October 2007 and entered into service on 25 October 2007 with an inaugural flight between Singapore and Sydney (flight number SQ380). Passengers bought seats in a charity online auction paying between $560 and $100,380. Two months later, Singapore Airlines CEO Chew Choong Seng said that the A380 was performing better than both the airline and Airbus had anticipated, burning 20% less fuel per passenger than the airline’s existing 747-400 fleet. Emirates was the second airline to take delivery of the A380 on 28 July 2008 and started flights between Dubai and New York on 1 August 2008. Qantas followed on 19 September 2008, starting flights between Melbourne and Los Angeles on 20 October 2008. By the end of 2008, 890,000 passengers had flown on 2,200 A380 flights totaling 21,000 hours