THE INDUSTRIAL REVOLUTION

The transition from an agricultural to anINDUSTRIAL ECONOMY took more than a century in the United States, but that long development entered its first phase from the 1790s through the 1830s. TheINDUSTRIAL REVOLUTION had begun in Britain during the mid-18th century, but the American colonies lagged far behind the mother country in part because the abundance of land and scarcity of labor in the New World reduced interest in expensive investments in machine production. Nevertheless, with the shift from hand-made to machine-made products a new era of human experience began where increased productivity created a much higher standard of living than had ever been known in the pre-industrial world.

The start of the American Industrial Revolution is often attributed to SAMUEL SLATER who opened the first industrial mill in the United States in 1790 with a design that borrowed heavily from a British model. Slater's pirated technology greatly increased the speed with which cotton thread could be spun into yarn. While he introduced a vital new technology to the United States, the economic takeoff of the Industrial Revolution required several other elements before it would transform American life.

New York Governor DeWitt Clinton pours a bucketful of Lake Erie into the Atlantic Ocean to mark the opening of the Erie Canal in the autumn of 1825.

Another key to the rapidly changing economy of the early Industrial Revolution were new organizational strategies to increase productivity. This had begun with the "OUTWORK SYSTEM" whereby small parts of a larger production process were carried out in numerous individual homes. This organizational reform was especially important for shoe and boot making. However, the chief organizational breakthrough of the Industrial Revolution was the "FACTORY SYSTEM" where work was performed on a large scale in a single centralized location. Among the early innovators of this approach were a group of businessmen known as the BOSTON ASSOCIATES who recruited thousands of New England farm girls to operate the machines in their new factories.

The most famous of their tightly controlled mill towns was LOWELL, MASSACHUSETTS, which opened in 1823. The use of female factory workers brought advantages to both employer and employee. The Boston Associates preferred female labor because they paid the young girls less than men. These female workers, often called "LOWELL GIRLS," benefited by experiencing a new kind of independence outside the traditional male-dominated family farm.

The rise of WAGE LABOR at the heart of the Industrial Revolution also exploited working people in new ways. The first strike among textile workers protesting wage and factory conditions occurred in 1824 and even the model mills of Lowell faced large STRIKES in the 1830s.

Dramatically increased production, like that in the New England's textile mills, were key parts of the Industrial Revolution, but required at least two more elements for widespread impact. First, an expanded system of credit was necessary to help entrepreneurs secure the capital needed for large-scale and risky new ventures. Second, an improved transportation system was crucial forRAW MATERIALS to reach the factories and manufactured goods to reach consumers. State governments played a key role encouraging both new banking institutions and a vastly increased transportation network. This latter development is often termed the MARKET REVOLUTION because of the central importance of creating more efficient ways to transport people, raw materials, and finished goods.

Alexander Hamilton's Bank of the United States received a special national charter from the U.S. Congress in 1791. It enjoyed great success, which led to the opening of BRANCH OFFICES in eight major cities by 1805. Although economically successful, a government-chartered national bank remained politically controversial. As a result, President Madison did not submit the bank's charter for renewal in 1811. The key legal and governmental support for economic development in the early 19th century ultimately came at the state, rather than the national, level. When the national bank closed, state governments responded by creating over 200 state-chartered banks within five years. Indeed, this rapid expansion of credit and the banks' often unregulated activities helped to exacerbate an ECONOMIC COLLAPSE IN 1819 that resulted in a six-year DEPRESSION. The dynamism of a capitalist economy creates rapid expansion that also comes with high risks that include regular periods of sharp economic downturns.

The use of a STATE CHARTER to provide special benefits for a PRIVATE CORPORATION was a crucial and controversial innovation in republican America. The idea of granting special privileges to certain individuals seemed to contradict the republican ideal of equality before the law. Even more than through rapidly expanded banking institutions, state support for internal transportation improvements lay at the heart of the nation's new political economy. Road, bridge, and especially canal building was an expensive venture, but most state politicians supported using government-granted legal privileges and funds to help create the INFRASTRUCTURE that would stimulate economic development.

The most famous state-led creation of the Market Revolution was undoubtedly New York's ERIE CANAL. Begun in 1817, the 364-mile man-made waterway flowed between Albany on the Hudson River and Buffalo on Lake Erie. The canal connected the eastern seaboard and the Old Northwest. The great success of the Erie Canal set off a canal frenzy that, along with the development of the steamboat, created a new and complete national water transportation network by 1840.

http://www.ushistory.org/us/22a.asp

EGYPTIAN PYRAMIDS

The pyramids of Egypt fascinated travellers and conquerors in ancient times and continue to inspire wonder in the tourists, mathematicians, and archeologists who visit, explore, measure and describe them.

Tombs of early Egyptian kings were bench-shaped mounds called mastabas. Around 2780 B.C., King Djoser's architect, Imhotep, built the first pyramid by placing six mastabas, each smaller than the one beneath, in a stack to form a pyramid rising in steps. This Step Pyramid stands on the west bank of the Nile River at Sakkara near Memphis. Like later pyramids, it contains various rooms and passages, including the burial chamber of the king.

The transition from the Step Pyramid to a true, smooth-sided pyramid took placed during the reign of King Snefru, founder of the Fourth Dynasty (2680-2560 B.C.). At Medum, a step pyramid was built, then filled in with stone, and covered with a limestone casing. Nearby at Bahshur, construction was begun on a pyramid apparently planned to have smooth sides. About halfway up, however, the angle of incline decreases from over 51 degrees to about 43 degrees, and the sides rise less steeply, causing it to be known as the Bent Pyramid. The change in angle was probably made during construction to give the building more stability. Another great pyramid was built at Dahshur with its sides rising at an angle of somewhat over 43 degrees, resulting in a true, but squat looking pyramid.

The largest and most famous of all the pyramids, the Great Pyramid at Giza, was built by Snefru's son, Khufu, known also as Cheops, the later Greek form of his name. The pyramid's base covered over 13 acres and its sides rose at an angle of 51 degrees 52 minutes and were over 755 feet long. It originally stood over 481 feet high; today it is 450 feet high. Scientists estimate that its stone blocks average over two tons apiece, with the largest weighing as much as fifteen tons each. Two other major pyramids were built at Giza, for Khufu's son, King Khafre (Chephren), and a successor of Khafre, Menkaure (Mycerinus). Also located at Giza is the famous Sphinx, a massive statue of a lion with a human head, carved during the time of Khafre.

Pyramids did not stand alone but were part of a group of buildings which included temples, chapels, other tombs, and massive walls. Remnants of funerary boats have also been excavated; the best preserved is at Giza. On the walls of Fifth and Sixth Dynasty pyramids are inscriptions known as the Pyramid Texts, an important source of information about Egyptian religion. The scarcity of ancient records, however, makes it difficult to be sure of the uses of all the buildings in the pyramid complex or the exact burial procedures. It is thought that the king's body was brought by boat up the Nile to the pyramid site and probably mummified in the Valley Temple before being placed in the pyramid for burial.

There has been speculation about pyramid construction. Egyptians had copper tools such as chisels, drills, and saws that may have been used to cut the relatively soft stone. The hard granite, used for burial chamber walls and some of the exterior casing, would have posed a more difficult problem. Workmen may have used an abrasive powder, such as sand, with the drills and saws. Knowledge of astronomy was necessary to orient the pyramids to the cardinal points, and water-filled trenches probably were used to level the perimeter. A tomb painting of a colossal statue being moved shows how huge stone blocks were moved on sledges over ground first made slippery by liquid. The blocks were then brought up ramps to their positions in the pyramid. Finally, the outer layer of casing stones was finished from the top down and the ramps dismantled as the work was completed.

Most of the stone for the Giza pyramids was quarried on the Giza plateau itself. Some of the limestone casing was brought from Tura, across the Nile, and a few of the rooms were cased with granite from Aswan. Marks of the quarry workers are found on several of the stone blocks giving names of the work gangs such as "craftman-gang". Part-time crews of laborers probably supplemented the year-round masons and other skilled workers. The Greek historian Heroditus reported in the fifth century B.C. that his Egyptian guides told him 100,000 men were employed for three months a year for twenty years to build the Great Pyramid; modern estimates of the number of laborers tend to be much smaller.

Pyramid building was at its height from the Fourth through the Sixth Dynasties. Smaller pyramids continued to be built for more than one thousand years. Scores of them have been discovered, but the remains of others are probably still buried under the sand. As it became clear that the pyramids did not provide protection for the mummified bodies of the kings but were obvious targets for grave robbers, later kings were buried in hidden tombs cut into rock cliffs. Although the magnificent pyramids did not protect the bodies of the Egyptian kings who built them, the pyramids have served to keep the names and stories of those kings alive to this day.

EL CLIMA DE ALMERÍA

La ciudad de Almería es una de las ciudades españolas con más horas de sol, 2965 al año. La temperatura media anual es de 18,7°C, y la de sus aguas en invierno es más cálida que la del aire, lo que invita al baño en esa época. Sus playas y calas son reconocidas como las más bonitas por los paisajes que describen.

A nivel climático, las zonas inferiores de Almería coincidiendo con la costa posee el clima Inframediterráneo o Mediterráneo-Iranio, caracterizado por ausencias de heladas y unas precipitaciones tan escasas que podría hablarse de desierto árido. Entre los 400(500) m. y los 800(900) m. discurre el Termomediterráneo o Mediterráneo Cálido donde las precipitaciones siguen siendo escasas pero suficientes para mantener arbolado. A continuación, entre los 800(900) y los 1200(1300) m. se encuentra el Mesomediterráneo o Mediterráneo Medio o Típico, caracterizado porque la vegetación de esta zona corresponde al bosque mediterráneo de encinas(aunque aparecen en otros), almeces y retamas. Entre los 1200(1300) m. y los 1600 (1800) m. se extiende el Inframediterráneo, reconocido por la amplitud de días con heladas que se producen a lo largo del año. El último nivel climático que encontramos en Almería es el Oromediterráneo que son las cumbres de las montañas nevadas en las cuales el suelo permanece helado durante unos meses cada año.

Visto que sólo falta el Crioromediterráneo, concluímos que en Almería encontramos una variedad climática increiblemente rica, desmontando la idea que sólo es desierto, sobre todo al conocer que la cuarta parte de la provincia se encuentra por encima de los 1000 m.s.n.m

                       

También la pluviometría es escasa, siendo el Cabo de Gata el lugar donde menos llueve de la península ibérica. Asimismo, el Desierto de Tabernas es, técnicamente, el único desierto árido del continente europeo, lo que le confiere características naturales únicas que le valieron convertirse en escenario del rodaje de multitud de películas, especialmente Westerns durante los años 60 y 70. En la actualidad se siguen rodando algunas películas, así como spots televisivos y vídeos musicales.

http://cms.ual.es/UAL/eligeual/pagina/ELIGEUAL_ALMERIA_CLIMA

CLIMA Y VEGETACIÓN DE ANDALUCÍA

-Clima

El clima de Andalucía, al igual que el de España, queda incluido en el clima mediterráneo, en la zona templada de la Tierra, aunque más cerca del trópico que del círculo Polar.

Si Andalucía no tuviera las complejidades morfológicas que tiene, y no estuviera bañada por dos mares, su clima mediterráneo podríamos decir que sería típico y que se extendería con pequeñas modificaciones en toda Andalucía. Pero estos factores, generan una gran complejidad climática en Andalucía. Las montañas suponen una variación altimétrica, barreras frente a vientos, cambios de orientación respecto a tipos de tiempo y masas de aire, etc.

Esto hace que en Andalucía nos encontremos con gran diversidad de climas: clima mediterráneo de tipo subtropical, de tundra, de clara influencia oceánica, climas influenciados por el mar Mediterráneo, etc. Cada tipo de clima en Andalucía tiene efectos distintos de unas partes a otras de la región. Andalucía presenta rasgos climáticos peculiares que se derivan de la intervención en ella de factores específicos y propios. Entre tales factores merecen destacarse, por un lado, los ligados al modo de actuación de la circulación atmosférica en el ámbito concreto de la región y, por otro lado, los factores de orden geográfico, entre los cuales el relieve juega el papel primordial, aunque tampoco es desdeñable la acción de la naturaleza de la superficie, en la cual la alternancia de mares y continentes y el propio contraste térmico entre el Atlántico y el Mediterráneo constituyen las piezas clave.

Factor relieve

La complejidad morfológica genera grandes diferencias de altura, desde los 0 hasta los 3.500 msnm, por lo que sea un factor importante de diversificación climática. El relieve influye desde 4 puntos de vista:

Altitud

Grandes diferencias altitudinales. Las temperaturas disminuyen con la altura. Así, aparecen desde climas subtropicales a climas de tundra.

La altitud influye sobre las precipitaciones. Se incrementan las precipitaciones en las zonas montañosas, generando islotes más o menos amplios de precipitaciones.

La altitud genera cambios en el tipo de precipitación. La nieve es un elemento climático importante. Así por ejemplo, un factor a tener en cuenta es la permanencia de la nieve en el suelo. La nieve como favorecedora de ciertas actividades y como limitadora de otras.

Disposición del relieve

Las grandes cadenas montañosas andaluzas presentan una disposición favorable climáticamente. Los conjuntos montañosos de Andalucía se abren hacia el Oeste por donde penetran masas húmedas y el frente polar, favoreciendo la penetración de vientos húmedos.

Papel de barrera

La oposición barlovento-sotavento produce contrastes en las vertientes montañosas según miren a vientos predominantes o les den la espalda.

Contraste entre solana/umbría

En la vertiente norte los días son más cortos y los rayos solares inciden más inclinados. En la vertiente sur, existen más horas de sol, se corrige la inclinación de los rayos solares generando temperaturas más altas.

Todo este tipo de factores se unen dando lugar a mayor variedad de contrastes. Así tenemos, por ejemplo, la unión de solana y sotavento en las costas de Almería.

Existencia de dos mares distintos

El océano Atlántico y el mar Mediterráneo se ponen en comunicación en el extremo más meridional de Andalucía. Pero la comunicación es lo suficientemente pequeña como para que ambas masas de aire mantengan su independencia.

Tipos climáticos en Andalucía

Clima mediterráneo oceánico de la costa atlántica

Recoge las zonas de la Costa Atlántica Andaluza, desde Huelva hasta Gibraltar.

El Océano Atlántico suaviza las temperaturas durante el curso del año, creando noches menos frías y días más templados. Una de us características más notables es la gran humedad del ambiente.

Las precipitaciones no son muy abundantes, oscilan entre los 500 y los 700 litros al año, exceptuando algunas zonas de Cádiz como la Sierra de Grazalema que recoge 2140 l. anuales siendo el punto más lluvioso de España incluso por encima del Norte.

Clima mediterráneo subtropical

Recoge las zonas costeras mediterráneas andaluzas, desde Adra en Almería hasta Gibraltar.

El Mar Mediterráneo es la causa de las suaves temperaturas 12º de media anual, lo que junto a la ausencia de heladas justifica la denominación de Costa del Sol, y explica también la resiente aclimatación de cultivos tropicales como la piñas, aguacates, chirimoyas, etc. La estación más calurosa es el verano, con una temperatura media-alta situada entre los 19º.

Las precipitaciones son variables y relativamente abundantes, oscilan entre los 400 y los 900 litros anuales y disminuyen a medida que avanzamos hacia el este.

Clima mediterráneo subdesértico

Se extiende por el litoral Almeriense. Como su nombre indica la característica principal es la escasez de precipitaciones, siempre inferiores a los 300 litros anuales, hay zonas que no pasan de los 200 litros anuales. El máximo pluviométrico se produce en Otoño en forma de violentos y torrenciales aguaceros, que la deforestación de la zona convierte en rápidas y peligrosas riadas. La temperatura media anual es la más alta de Andalucía y la península, con una media anual de 21º, el invierno es muy templado 12º y el verano muy cálido 26º. La insolación anual es muy grande mientras que las heladas son muy escasas.

Clima mediterráneo sub-continental de inviernos fríos

Se extiende por las altiplanicies de Andalucía oriental y el surco intrabético. La considerable distancia respecto al Atlántico hace que las precipitaciones escaseen (entre los 300-600 litros anuales) con máximos en primavera y en otoño. Por otra parte la elevada altitud media de esta zona hace que su temperatura anual esté situada entre los 13º-15º con inviernos muy largos y fríos (6º de media) y fuertes heladas, y veranos prolongados y cálidos con media de 25º. En toda esta área las estaciones intermedias suelen acortarse.

Clima mediterráneo sub-continental de inviernos cálidos

Ocupa el valle bajo y medio del guadalquivir hasta el límite con la provincia de Jaén (parte de Huelva, Cádiz, Sevilla, Málaga y Córdoba) Destaca por:

• Precipitaciones que oscialan entre los 500 y los 700 litros anuales con máximos en primavera y otoño.
• La continentalidad de esta zona da lugar a una temperatura media anual elevada(17º y 18º), con inviernos frescos con una media de 9º sin heladas.
• Tiene el verano más cálido de toda España. al superarse en julio y agosto los 30º.

Clima de montaña

Se da principalmente en Sierra Nevada y sus alrededores, siempre en altitudes superiores a los 2000 metros. en esta zona los inviernos son muy largos y muy fríos; la mayoría de las precipitaciones se dan en forma de nieve, cubriendo el suelo desde Octubre hasta Abril. Dependiendo del año estas fechas se pueden alargar o disminuir. Por el contrario los veranos son muy cortos y poco calurosos.

-Vegetación

La vegetación o flora es el conjunto de plantas silvestres como árboles, arbustos e hierbas que crecen en un lugar sin que las personas las cultiven.  Las variaciones en el relieve y en el clima andaluz hacen que la vegetación varíe también de unas zonas a otras.

• En la mayor parte de Andalucía, la vegetación natural es el bosque mediterráneo. Predominan los árboles de hoja perenne como las encinas, los alcornoques, los pinos y los pinsapos. Aunque el bosque mediterráneo es cada año más escaso debido a las antiguas roturaciones de las tierras para cultivarlas y a los actuales incendios forestales. Cerca de los ríos hay bosques de ribera formados por álamos y fresnos.
• En las zonas montañosas más altas hay árboles de hoja caduca, como el quejigo y el castaño y también pinos de alta montaña.
• También hay en Andalucía zonas de matorral en las que predominan los arbustos, como la retama, el romero, el tomillo, la aulaga y la jara.
• En los prados abundan las hierbas, siendo frecuentes los tréboles, la avena loca y la grama.

https://ceipntrasradelapiedad.wordpress.com/2010/07/30/el-clima-y-la-vegetacion-de-andalucia/

HALLOWEEN

Every year on October 31st children (and some adults) dress up in costumes to celebrate Halloween. Houses are decorated with Jack-o-Lanterns, artificialspiders and cobwebs, pretend witches and ghosts and other frightening objects that symbolize this special day. On the evening of Halloween, in North America and many other countries around the world, groups of children can be seen walking the streets wearing costumes and visiting their neighbors´ houses to receive candy.

Typical festive Halloween activities include Trick-or-Treating (going house to house to receive sweets or food), attending costume parties, decorating, carvingpumpkins into jack-o’-lanterns, lighting bonfires,apple bobbing, visitinghaunted houses, telling scary stories, and watching horror films. But where does this holiday come from?

Halloween originally comes from the Celts that lived in Europe over 2000 years ago. The Celtic festival of Samhain, which comes from the Old Irish for “summer’s end” marked the end of the harvest season and the beginning of winter or the ‘darker half’ of the year. It was seen as a time when thespirits could more easily come into our world. The souls of the dead throughout history were both honored and warded-off. The custom of wearing costumes andmasks at Halloween goes back to Celtic traditions of attempting to copy the evilspirits or placate them. Bonfires, which were deemed to have protective and cleansing powers, were used in rituals and to scare off witches.

Throughout history Halloween has been an important tradition in Scotland and Ireland. In these countries, children and poor people would sing and say prayers for the dead in return for cakes which is where “trick or treating” began. The Celts would carry lanterns made with turnips. During the 19th Century when the Irish and Scottish immigrated massively to North America they brought the Halloween tradition with them. On US soil, the turnip lanterns changed to pumpkin lanterns which are called Jack-o-Lanterns. Trick or Treating was confined to the immigrant communities of North American during the 1800´s, but slowly it was gradually assimilated into mainstream society and by the early 1900´s it was being celebrated coast to coast by people of all social, racial and religious backgrounds.

Today, many countries still remember the dead on November 1st which is called All Saints Day. Another name for it is  “All Hallow’s Day”. The day before, October 31st, is called “All Hallow’s Eve”, or Halloween for short.

http://www.curso-ingles.com/blog/la-historia-de-halloween/