Monday, November 29, 2010

Honors World History II: 30 November 2010

Prayer

Current Events:

WikiLeaks: Saudi Arabia Urged Attack on Iran


Back in 2007 it was common knowledge that Iran was working on a nuclear weapons program.

That’s why it was such a shock in December 2007 that National Intelligence Estimate assessment released a controversial report that claimed Iran had halted its nuclear weapons program in 2003.

At the time, then Senator Obama attacked the Bush regime after the report was released stating:

“It is absolutely clear that this administration and President Bush continues to not let facts get in the way of his ideology.. They need, now, to aggressively move on the diplomatic front… They should have stopped the saber rattling — should never have started it.”

Now, thanks to the Wikileaks document dump, we find out that the 2007 report was horribly inaccurate. In fact less than four months after the NIE report was released the Saudi regime was begging the US to “cut off the head of the snake” and put an end Iran’s nuclear weapons program.

The U.K. source The Guardian posted the document:

Here’s the transcript:

10. (S) The King, Foreign Minister, Prince Muqrin, and Prince Nayif all agreed that the Kingdom needs to cooperate with the US on resisting and rolling back Iranian influence and subversion in Iraq. The King was particularly adamant on this point, and it was echoed by the senior princes as well. Al-Jubeir recalled the King’s frequent exhortations to the US to attack Iran and so put an end to its nuclear weapons program. “He told you to cut off the head of the snake,” he recalled to the Charge’, adding that working with the US to roll back Iranian influence in Iraq is a strategic priority for the King and his government.

Headlines:

Assange: Document Dump Targets 'Lying, Corrupt and Murderous Leadership'...
Ecuador offers Assange residency...
King Abdullah of Saudi Arabia proposed planting chips in Gitmo prisoners upon release...
China 'ready to abandon North Korea'...
China 'scared to death' of Pelosi...
USA RACES TO LIMIT WIKI DAMAGE...
Laughter in Rome, Denials in Berlin...
Reveal: Iran 'smuggled arms' to Hezbollah on ambulances...
Reveal: Hillary Clinton ordered diplomats to spy on UN leaders...
*UN seeks answers from Washington...
What America REALLY thinks of world leaders...

New feature:

The electronic edition of the Philadelphia Inquirer is available. We have the Sunday edition, available on Mondays, in addition to the Tuesday through Friday editions on the other days.

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URL: http://nie.philly.com
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The electronic editions will be archived at the site for 30 days only.

The Chapter 11 Section 3 The Age of Napoleon Quiz Prep Page is available for the Quiz on Wednesday.

Cf. http://shanawiki.wikispaces.com/Honors+World+History+II+Fall+2010+Chapter+11+Section+3+The+Age+of+Napoleon+Quiz+Prep+Page

HW is available below at the bottom of the daily blog post.

Chapter 12 Industrialization and Nationalism 1800-1870

Section 1 The Industrial Revolution

Cf. http://www.abcya.com/word_clouds.htm).

Wordle: Ch. 11 Sec. 1 Industrialization

Cf. http://vozme.com/index.php?lang=en

Section 1 The Industrial Revolution

Objectives

Key Terms

The Industrial Revolution in Great Britain, p. 363

Cf. http://www.wordle.net/create

ABCya! Cf. http://www.abcya.com/word_clouds.htm

Or, http://www.glogster.com/login/

8th Period enjoyed; 1st and 5th Period have not used:

Who Wants to Be a Cotton Millionaire?


Cf. http://www.bbc.co.uk/history/british/victorians/launch_gms_cotton_millionaire.shtml

Britain emerged in Victorian times as the world's first industrial power, but the transition wasn't smooth.

Some entrepreneurs made fortunes from the new cotton industry, but many of the factory start-ups went bust. Success depended on a variety of factors, which you will encounter as you play the game.

As you play, your stacks of money will rise and fall, depending on the choices you make, and you'll find out if you can make it as a Victorian entrepreneur.

Choose well, make money and the business will survive. Choose badly, and the businessman could end up in debtors' prison.

ABCya! Cf. http://www.abcya.com/word_clouds.htm

vozMe: Cf. http://vozme.com/index.php?lang=en

Contributing Factors, p. 364

Why Britain?

What characteristics of eighteenth-century Britain made it ripe for industrialization? Historians cite several reasons for Britain’s lead.

Natural Resources Abound

Britain had the advantage of plentiful natural resources such as natural ports and navigable rivers. Rivers supplied water power and allowed for the construction of canals. These canals increased accessibility for trade and were instrumental in bringing goods to market. In addition, Britain was able to establish communications and transport relatively cheaply due to its easy accessibility to the sea from all points. Britain’s plentiful supply of coal was fundamental to its industrialization and was used to power steam engines. Vast supplies of iron were available to be used to build the new machines.

The Effects of Demand and Capital

In the 1700s, Britain had plenty of skilled mechanics who were eager to meet the growing demand for new, practical inventions. This ready workforce, along with the population explosion, boosted demand for goods. In order to increase the production of goods to meet the demand, however, another key ingredient was needed. Money was necessary to start businesses.

From the mid-1600s to 1700s, trade from a growing overseas empire helped the British economy prosper. Beginning with the slave trade, the business class accumulated capital, or money used to invest in enterprises. An enterprise is a business organization in an area such as shipping, mining, railroads, or factories. Many businessmen were ready to risk their capital in new ventures due to the healthy economy.

In addition to the advantages already cited, Britain had a stable government that supported economic growth. While other countries in Europe faced river tolls and other barriers, Britain did not. The government built a strong navy that protected its empire, shipping, and overseas trade. Although the upper class tended to look down on business people, it did not reject the wealth produced by the new entrepreneurs. These entrepreneurs were those who managed and assumed the financial risks of starting new businesses.

Changes in Cotton Production, p. 364

The Textile Industry Advances

The Industrial Revolution first took hold in Britain’s largest industry—textiles. In the 1600s, cotton cloth imported from India had become popular. British merchants tried to organize a cotton cloth industry at home. They developed the putting-out system, also known as cottage industry, in which raw cotton was distributed to peasant families who spun it into thread and then wove the thread into cloth in their own homes. Skilled artisans in the towns then finished and dyed the cloth.

Inventions Speed Production

Under the putting-out system, production was slow. As the demand for cloth grew, inventors came up with a string of remarkable devices that revolutionized the British textile industry. For example, John Kay’s flying shuttle enabled weavers to work so fast that they soon outpaced spinners. James Hargreaves solved that problem by producing the spinning jenny in 1764, which spun many threads at the same time. A few years later, in 1769, Richard Arkwright patented the water frame, which was a spinning machine that could be powered by water.

Meanwhile, in America, these faster spinning and weaving machines presented a challenge—how to produce enough cotton to keep up with England. Raw cotton grown in the South had to be cleaned of dirt and seeds by hand, a time-consuming task. To solve this, Eli Whitney invented a machine called the cotton gin that separated the seeds from the raw cotton at a fast rate. He finished the cotton gin in 1793, and cotton production increased exponentially.

Factories Are Born in Britain

The new machines doomed the putting-out system. They were too large and expensive to be operated at home. Instead, manufacturers built long sheds to house the machines. At first, they located the sheds near rapidly moving streams, harnessing the water power to run the machines.

Later, machines were powered by steam engines.

The Spinning Mill Animation

Cf. http://www.bbc.co.uk/history/british/victorians/launch_ani_spinning_mill.shtml



Spinning mills used 'line shafting', which is the means by which the power of the steam engine is transmitted along rotating shafts (rods) to spinning or weaving mills.

This animation depicts a spinning mill like that found at Quarry Bank museum in Cheshire. It shows a furnace powering a flywheel, which is there to smooth out the otherwise jerky rotation of the crank.

In spinning mills, which could be multi-story, there are large numbers of ropes coming off the flywheel. These 'rope races' convey power to the mill's different floors.
Spinners and weavers now came each day to work in these first factories, which brought together workers and machines to produce large quantities of goods. Early observers were awed at the size and output of these establishments. One onlooker noted: “The same [amount] of labor is now performed in one of these structures which formerly occupied the industry of an entire district.”

Checkpoint

What led to the advancement of the British textile industry?

The Coal and Iron Industries, p. 365

Another factor that helped trigger the Industrial Revolution was the development of new technology. Aided by new sources of energy and new materials, these new technologies enabled business owners to change the ways work was done.

An Energy Revolution

During the 1700s, people began to harness new sources of energy. One vital power source was coal, used to develop the steam engine. In 1712, British inventor Thomas Newcomen had developed a steam engine powered by coal to pump water out of mines. Scottish engineer James Watt looked at Newcomen’s invention in 1764 and set out to make improvements on the engine in order to make it more efficient. Watt’s engine, after several years of work, would become a key power source of the Industrial Revolution. The steam engine opened the door not only to operating machinery but eventually to powering locomotives and steamships.

The Quality of Iron Improves

Coal was also a vital source of fuel in the production of iron, a material needed for the construction of machines and steam engines. The Darby family of Coalbrookdale pioneered new methods of producing iron. In 1709, Abraham Darby used coal instead of charcoal to smelt iron, or separate iron from its ore.

Darby’s experiments led him to produce less expensive and better-quality iron, which was used to produce parts for the steam engines. Both his son and grandson continued to improve on his methods. In fact, Abraham Darby III built the world’s first iron bridge. In the decades that followed, high-quality iron was used more and more widely, especially after the world turned to building railroads.

Abraham Darby III completed the world’s first iron bridge in 1779. The bridge still stands today.

Checkpoint

What new technologies helped trigger the Industrial Revolution?

Railroads, p. 365

Stephenson's Rocket Animation

Cf. http://www.bbc.co.uk/history/british/victorians/launch_ani_rocket.shtml


Background

The Rocket was designed and built by George Stephenson with the help of his son, Robert, and Henry Booth, for the 1829 Rainhill Trials.

The Trials were held by the Liverpool and Manchester Railway Company, to find the best locomotive engine for a railway line that was being built to serve these two English cities. On the day of the Trials, some 15,000 people came along to see the race of the locomotives.

During the race, the Rocket reached speeds of 24mph during the 20 laps of the course. This was due to several new design features. It was the first locomotive to have a multi-tube boiler - with 25 copper tubes rather than a single flue or twin flue.

The blast pipe also increased the draught to the fire by concentrating exhaust steam at the base of the chimney. This meant that the boiler generated more power (steam), so the Rocket was able to go faster than its rival, and thus secure its place in history.

The Rocket can be seen at the Science Museum, in London.
One of the most important developments of the Industrial Revolution was the creation of a countrywide railway network. The world’s first major rail line went from Liverpool to Manchester in England. Fanny Kemble, the most famous actress of the day, was one of the first passengers:

“We were introduced to the little engine which was to drag us along the rails. . . This snorting little animal, . . . started at about ten miles an hour. . . . You can’t imagine how strange it seemed to be journeying on thus, without any visible cause of progress other than the magical machine . . .”

Learn

Focus Question

What key factors allowed Britain to lead the way in the Industrial Revolution?

The New Factories, p. 365

The new machines doomed the putting-out system. They were too large and expensive to be operated at home. Instead, manufacturers built long sheds to house the machines. At first, they located the sheds near rapidly moving streams, harnessing the water power to run the machines. Later, machines were powered by steam engines.

Spinners and weavers now came each day to work in these first factories, which brought together workers and machines to produce large quantities of goods. Early observers were awed at the size and output of these establishments. One onlooker noted: “The same [amount] of labor is now performed in one of these structures which formerly occupied the industry of an entire district.”

Checkpoint

What led to the advancement of the British textile industry?

Reading Check

Describing

How were adult and child factory workers disciplined?

The Spread of Industrialization, p. 366

Europe, p. 366

Industrial Europe, c. 1850

North America (note how in the Glencoe textbook the entire section is about the United States; it states nothing about Mexico and Canada yet the section is entitled "North America."), p. 366

Reading Check

Evaluating

Social Impact in Europe, p. 367

Growth of Population and Cities, p. 367

Checkpoint

How did an agricultural revolution contribute to population growth?

The Industrial Middle Class, p. 368

The Industrial Middle Class, p. 369

The Industrial Working Class, p. 369

Learn

Focus Question

What were the social effects of the Industrial Revolution?

The Industrial Revolution brought great riches to most of the entrepreneurs who helped set it in motion. For the millions of workers who crowded into the new factories, however, the industrial age brought poverty and harsh living conditions.

In time, reforms would curb many of the worst abuses of the early industrial age in Europe and the Americas. As standards of living increased, people at all levels of society would benefit from industrialization. Until then, working people would suffer with dangerous working conditions; unsafe, unsanitary, and overcrowded housing; and unrelenting poverty.

People Move to New Industrial Cities

The Industrial Revolution brought rapid urbanization, or the movement of people to cities. Changes in farming, soaring population growth, and an ever-increasing demand for workers led masses of people to migrate from farms to cities. Almost overnight, small towns around coal or iron mines mushroomed into cities. Other cities grew up around the factories that entrepreneurs built in once-quiet market towns.

The British market town of Manchester numbered 17,000 people in the 1750s. Within a few years, it exploded into a center of the textile industry. Its population soared to 40,000 by 1780 and 70,000 by 1801. Visitors described the “cloud of coal vapor” that polluted the air, the pounding noise of steam engines, and the filthy stench of its river. This growth of industry and rapid population growth dramatically changed the location and distribution of two resources—labor and people.

Checkpoint

What led to the massive migration of people from farms to cities?

While the wealthy and the middle class lived in pleasant neighborhoods, vast numbers of poor struggled to survive in foul-smelling slums. They packed into tiny rooms in tenements, or multistory buildings divided into apartments. These tenements had no running water, only community pumps. There was no sewage or sanitation system, so wastes and garbage rotted in the streets. Sewage was also dumped into rivers, which created an overwhelming stench and contaminated drinking water. This led to the spread of diseases such as cholera.

Vocabulary Builder
contaminated—(kun tam uh nayt id) adj. unclean and impure; polluted

Workers Stage Futile Protests

Although labor unions, or workers’ organizations, were illegal at this time, secret unions did exist among frustrated British workers. They wished to initiate worker reforms, such as increases in pay, but had no political power to effect change. Sometimes their frustration led to violence. The first instances of industrial riots occurred in England from 1811 to 1813. Groups of textile workers known as the Luddites (lud yts) resisted the labor-saving machines that were costing them their jobs. Some of them smashed textile machines with sledgehammers and burned factories. They usually wore masks and operated at night. There was widespread support among the working class for these Luddite groups.

Workers Find Comfort in Religion

Many working-class people found comfort in a religious movement called Methodism. This movement was influenced by the Industrial Revolution as people moved to cities and lost connections with their old churches. John Wesley had founded the Methodist movement in the mid-1700s. Wesley stressed the need for a personal sense of faith. He encouraged his followers to improve themselves by adopting sober, moral ways.

Vocabulary Builder
stressed—(stresd) vt. emphasized

Methodist meetings featured hymns and sermons promising forgiveness of sin and a better life to come. Methodist preachers took this message of salvation into the slums. There, they tried to rekindle hope among the working poor. They set up Sunday schools where followers not only studied the Bible but also learned to read and write. Methodists helped channel workers’ anger away from revolution and toward reform.

Checkpoint

How did members of the working class react to their new experiences in industrial cities?

Life in the Factories and Mines

The heart of the new industrial city was the factory. There, the technology of the machine age and the rapid pace of industrialization imposed a harsh new way of life on workers.

Discovery School Channel

Watch In Old New York on the Witness History Discovery School™ video program to learn about life during the Industrial Age.

Factory Workers Face Harsh Conditions

Working in a factory system differed greatly from working on a farm. In rural villages, people worked hard, but their work varied according to the season. Life was also hard for poor rural workers who were part of the putting-out system, but at least they worked at their own pace. In the grim factories of industrial towns, workers faced a rigid schedule set by the factory whistle.

Working hours were long, with shifts lasting from 12 to 16 hours, six or seven days a week. Workers could only take breaks when the factory owners gave permission. Exhausted workers suffered accidents from machines that had no safety devices. They might lose a finger, a limb, or even their lives. In textile mills, workers constantly breathed air filled with lint, which damaged their lungs. Those workers who became sick or injured lost their jobs.

The majority of early factory workers were women rather than men. Employers often preferred to hire women workers because they thought women could adapt more easily to machines and were easier to manage. In addition, employers generally paid women half what they paid men.

Factory work created a double burden for women. Their new jobs took them out of their homes for 12 hours or more a day. They then returned to their tenements, which might consist of one damp room with a single bed. They had to feed and clothe their families, clean, and cope with such problems as sickness and injury.

Miners Face Worse Conditions

The Industrial Revolution increased the demand for iron and coal, which in turn increased the need for miners. Although miners were paid more, working conditions in the mines were even worse than in the factories. They worked in darkness, and the coal dust destroyed their lungs. There were always the dangers of explosions, flooding, and collapsing tunnels. Women and children carted heavy loads of coal, sometimes on all fours in low passages. They also climbed ladders carrying heavy baskets of coal several times a day.

Even children as young as five years old worked in the mines. James Kay-Shuttleworth worked as a physician among the different classes of the Industrial Revolution in Manchester. His profession allowed him to see the working conditions of poor in the cities. How was work in factories and mines different from work on the farm?

Children were accustomed to work on a farm: the money earned by children was vital to most working class families during the early 20th century and before.

Primary Source

“Whilst the engine runs, people must work—men, women, and children are yoked together with iron and steam. The animal machine is chained fast to the iron machine, which knows no suffering and weariness.”

—James Kay-Shuttleworth, 1832

Children Have Dangerous Jobs

Factories and mines also hired many boys and girls. These children often started working at age seven or eight, a few as young as five. Nimble-fingered and quick-moving, they changed spools in the hot and humid textile mills where sometimes they could not see because of all the dust. They also crawled under machinery to repair broken threads in the mills. Conditions were even worse for children who worked in the mines. Some sat all day in the dark, opening and closing air vents. Others hauled coal carts in the extreme heat. Because children had helped with work on the farm, parents accepted the idea of child labor. The wages the children earned were needed to keep their families from starving.

Child labor reform laws called “factory acts” were passed in the early 1800s. These laws were passed to reduce a child’s workday to twelve hours and also to remove children under the age of eight or nine from the cotton mills. Because the laws were generally not enforced, British lawmakers formed teams of inspectors to ensure that factories and mines obeyed the laws in the 1830s and 1840s. More laws were then passed to shorten the workday for women and require that child workers be educated.

Families could afford to take trips to such places as the zoo as wages increased.

Checkpoint

How did the Industrial Revolution affect the lives of men, women, and children?

Early Socialism, p. 370

While the champions of laissez-faire economics praised individual rights, other thinkers focused on the good of society in general. They condemned the evils of industrial capitalism, which they believed had created a gulf between rich and poor. To end poverty and injustice, they offered a radical solution—socialism. Under socialism, the people as a whole rather than private individuals would own and operate the means of production—the farms, factories, railways, and other large businesses that produced and distributed goods. Socialism grew out of the Enlightenment faith in progress, its belief in the basic goodness of human nature, and its concern for social justice.

Are Utopians Dreamers?

A number of early socialists established communities in which all work was shared and all property was owned in common. When there was no difference between rich and poor, they said, fighting between people would disappear. These early socialists were called Utopians. The name implied that they were impractical dreamers. The Utopian Robert Owen set up a model community in New Lanark, Scotland, to put his own ideas into practice.

Infographic
Owen’s Utopia

For: Interactive Village
Visit: PHSchool.com
Web Code: nap-1941

Owen Establishes a Utopia

A poor Welsh boy, Owen became a successful mill owner. Unlike most industrialists at the time, he refused to use child labor. He campaigned vigorously for laws that limited child labor and encouraged the organization of labor unions.

Checkpoint

What did early socialists believe?

Reading Check

Describing

What type of working conditions did the industrial workers face?

References and Resources

Rise of the Working Class by Jurgen Kuczynski

Making of the English Working Class by E.P. Thompson

Cultural Foundations of Industrial Civilization by John U. Nef

As in a traditional American Thanksgiving, 1830s America, as demonstrated at Old Sturbridge Village, celebrated God, flag, and country.

Cf. http://www.osv.org/

Sign entering the village. Graphic source: The Next Generation


A living museum can be viewed at Old Sturbridge Village. The village is well worth exploring in some detail.

The flag is central to village life. Graphic source: The Next Generation



Our relationship to God is of paramount importance. Graphic source: The Next Generation



Defense is always a concern for a nation. Graphic source: The Next Generation



If you have questions about 19th Century life you can always "Ask Jack."

In-class assignment: to function during the Industrial Revolution, you will need to know the Tools of the trade and common expressions. Working with a partner we will quiz you on your knowledge of the Industrial Revolution.

To feel more at home in the village you will need to know the tools of the trade. A number of fun and educational links are available for the OSV.

The In-class assignment for today:

Each class will be divided into small groups to discuss the 19th Century Industrial Revolution tool to guess what they think the implement is used for. Hints are included and you may feel free to come up closer to read or describe the tool to your small group.

In addition, individuals will also be assigned a saying or phrase from the "Why We Say It!" section. Once assigned, individuals will put their name on a piece of paper to explain the assigned phrase. These individuals should hand in the paper at the end of class.

Old Sturbridge Village Feature Shown on Al Jazeera Television winter 2008



Laura Linney and Ken Burns on the importance of Old Sturbridge Village



4th of July at OSV.



Redcoats to Rebels at OSV.

Mystic sign. Photo Source: The Next Generation

Mystic Seaport -- The Museum of America and the Sea is the nation's leading maritime museum. In it, you can explore American maritime history first-hand as you climb aboard historic tall ships, stroll through a re-created 19th-century coastal village, or watch a working preservation shipyard in action.




Traditional American Music performed live at Mystic Seaport, CT: Part 1

Traditional American Music performed live at Mystic Seaport, CT: Part 2



Traditional American Music performed live at Mystic Seaport, CT: Part 3



The Charles W. Morgan embarks on a voyage of restoration at the Henry B. DuPont Preservation Shipyard at Mystic Seaport. Shipyard Director, Quentin Snediker explains what is done to prepare the ship for the historic journey.

The Charles W. Morgan is the last surviving wooden whaling ship from the great days of sail. Built in 1841 in New Bedford, MA, the Morgan had a successful 80-year whaling career. She made 37 voyages before retiring in 1921, and was preserved as an exhibit through the efforts of a number of dedicated citizens. After being on display in South Dartmouth, MA, until 1941, she came to Mystic Seaport, where each year thousands of visitors walk her decks and hear the fascinating story of her career as a whaling vessel, historic exhibit, film and media star, and a porthole into America's rich history.

Over the last three decades, the Charles W. Morgan has undergone two regimes of partial restoration along with annual maintenance. Despite these efforts, the inevitable effects of time on the wooden fabric of the vessel's structure demand additional extensive restoration. If left unchecked, these deficiencies will threaten the structural integrity of the Morgan and her use as a primary artifact in Mystic Seaport's interpretive programs.



Mystic Seaport, 1960 (No, this is not Dr. Smith as a boy), from family home movies.



Whaling in popular culture: Mountain, "Nantucket Sleighride"



The cold hard steel of the harpoon's point
Struck deep into its side.
We played out line and backed the oars
And took the cruel sleighride.

The term "Nantucket Sleighride" was coined by the whalers to explain what happened after they harpooned a whale. (Nantucket Island was considered the whaling capital of the world during the 19th century.) The first strike of the harpoon was not intended to kill the whale but only to attach it to the whale boat. The whale would take off pulling the whale boat along at speeds of up to 23 mph (37 kmh). The whale would eventually tire itself out, the leading officer in the boat would then use a penetrating lance to kill the whale.

Nantucket Sleighride is Dedicated to Owen Coffin who was cabin boy aboard the whaler Essex, which was destroyed by a sperm whale in 1819. Owen ended up in the lifeboat with Captain Pollard, his uncle. Two other lifeboats also put out. During the next 3 - 4 months, the lifeboats separated. One was never seen again, but some of those on the remaining two boats were eventually rescued.
During those long months at sea (and on desert islands), many of the men died. The remainder eventually had to resort to cannibalism to survive. After the dead of natural causes were consumed, the men determined to draw lots to see who would sacrifice his life for the others. Owen Coffin ``won'' the lottery. The Captain tried to take Owen's place, but the youth insisted on his ``right''. The executioner was also drawn by lot. That ``winner'', another young man named Charles Ramsdell, also tried vainly to swap places with Owen. Again he refused. Owen's body kept the others alive for ten days (Captain Pollard refused to eat his nephew). Another man died, and his body kept Pollard and Ramsdell alive a few more days until they were rescued.

Lyrics
Goodbye, little Robin-Marie
Don't try following me
Don't cry, little Robin-Marie
'Cause you know I'm coming home soon
My ships' leaving on a three-year tour
The next tide will take us from shore
Windlaced, gather in sail and spray
On a search for the mighty sperm whale
Fly your willow branches
Wrap your body round my soul
Lay down your reeds and drums on my soft sheets
There are years behind us reaching
To the place where hearts are beating
And I know you're the last true love I'll ever meet
Starbuck's sharpening his harpoon
The black man's playing his tune
An old salt's sleeping his watch away
He'll be drunk again before noon
Three years sailing on bended knee
We found no whales in the sea
Don't cry, little Robin-Marie
'Cause we'll be in sight of land soon

Agriculture

Farming and everyday life during the past 250 years

Children who lived in the English countryside

The Agricultural Revolution

Transportation, Industrial Revolution

Stephenson's Rocket Animation

The Spinning Mill Animation

Britain at the time of the Great Exhibition

Who Wants to Be a Cotton Millionaire?

Iron Bridge Virtual Tour

New machines that brought changes in America

Review changes of the 18th and 19th centuries

The Industrial Revolution

The everyday life of children in Victorian Britain (including the cities)

Online game about life in an industrial Victorian city

Take a tour of a workhouse

Links, resources, and bibliographical references

Dawn of the Industrial Age

Cf. http://www.phschool.com/webcodes10/index.cfm?fuseaction=home.gotoWebCode&wcprefix=nba&wcsuffix=1911

Britain Leads the Way

http://www.phschool.com/webcodes10/index.cfm?fuseaction=home.gotoWebCode&wcprefix=nba&wcsuffix=1921

Social Impact of the Industrial Revolution

http://www.phschool.com/webcodes10/index.cfm?fuseaction=home.gotoWebCode&wcprefix=nba&wcsuffix=1931

New Ways of Thinking

http://www.phschool.com/webcodes10/index.cfm?fuseaction=home.gotoWebCode&wcprefix=nba&wcsuffix=1941

Expression: Why We Say It! Shindig!

Cf. http://www.osv.org/kids_zone/sayit.html


5th Period has reviewed, 1st and 8th Period have not:

The French Revolution and Napoleon

Cf. http://www.phschool.com/webcodes10/index.cfm?fuseaction=home.gotoWebCode&wcprefix=nba&wcsuffix=1831

The Chapter 11 Section 3 The Age of Napoleon Quiz Prep Page is available for the Quiz on Wednesday.

Cf. http://shanawiki.wikispaces.com/Honors+World+History+II+Fall+2010+Chapter+11+Section+3+The+Age+of+Napoleon+Quiz+Prep+Page

HW: email (or hard copy) me at gmsmith@shanahan.org.

1. p. 369, #1.

Unit 2 Prices and Markets Chapter 4 Demand

Ch. 4 Sec. 1 Reading Strategy Characteristics Of Demand

Ch. 4 Sec. 1 Section Review Determining Cause And Effect

Ch. 4 Sec. 2 Reading Strategy Determinants Of Demand

Ch. 4 Sec. 2 Section Review Determinants Of Market Demand

Ch. 4 Sec. 3 Reading Strategy Change In Price

Ch. 4 Sec. 3 Section Review Organizing



Unit 2
Prices and Markets
Chapter 4: Demand

Chapter Overviews

Section 1: What Is Demand?

Demand is easy to understand because it involves only two variables—the price and quantity of a specific product at a given point in time. Demand does not always stay the same and can be determined by a demand schedule, which shows the various quantities demanded of a particular product at all prices that might prevail in the market at a given time. The Law of Demand states that when the price of something goes up, the quantity demanded goes down, and vice versa.

Section 2: Factors Affecting Demand

Only a change in price can cause a change in quantity demanded. When the price goes up, less is demanded; when the price goes down, more is demanded. The following factors affect demand: the income effect and the substitution effect. Furthermore, demand can change because of changes in the determinants of demand: consumer income, consumer tastes, the price of related goods, expectations, and the number of consumers.

Section 3: Elasticity of Demand

Elasticity is a general measure of responsiveness— an important cause-and-effect relationship in economics. There are three different forms of elasticity: elastic demand, inelastic demand, and unit elastic demand. To estimate elasticity, it is useful to look at the impact of a price change on total expenditures, or the amount that consumers spend on a product at a particular price. This is sometimes called the total expenditures test. The answers to three questions help determine a product's demand elasticity. Can the purchase be delayed? Are adequate substitutes available? Does the purchase use a large portion of income?

Student Web Activity

Cf. http://glencoe.mcgraw-hill.com/sites/007879997x/student_view0/unit2/chapter4/student_web_activities.html

Self-Check Quizzes

Cf. http://glencoe.mcgraw-hill.com/sites/007879997x/student_view0/unit2/chapter4/self-check_quizzes.html

Crossword Game

Cf. http://www.glencoe.com/olc_games/game_engine/content/gln_ss/epp_12/ch04/index.html

Vocabulary eFlashcards

Cf. http://www.glencoe.com/qe/efcsec.php?qi=21822

In-Motion Animations

Individual and Market Demand Curves

Cf. http://glencoe.com/sites/common_assets/socialstudies/in_motion_08/epp/EPP_p94.swf

Change in Demand

Cf. http://glencoe.com/sites/common_assets/socialstudies/in_motion_08/epp/EPP_p99.swf
Figure 4.2 Individual and Market Demand Curves

Figure 4.4 Change In Demand

(Supply and) Demand, 4:52





Supply and Demand Screen shot 1


Supply and Demand Screen shot 2, Equilibrium

Supply and Demand Screen shot 3, Consumer Surplus

Supply and Demand Screen shot 4, Producer Surplus



Why It Matters

The Big Idea

Section 1 What is Demand?

The demand for a good or service is defined to be the relationship that exists between the price of the good and the quantity demanded in a given time period, ceteris paribus (other things being equal).

Guide to Reading

Section Preview

Content Vocabulary

demand

microeconomics

market economy

demand schedule

demand curve

Deriving the Demand Curve, 2:09



Law of Demand

Introduction to the law of demand, and what it means, 4:44



market demand curve

marginal utility

diminishing marginal utility

Diminishing Marginal Utility, 4:15



Academic Vocabulary

prevail

inversely

Reading Strategy

Products in the News

Wrist Watch

An Introduction to Demand

Main Idea

Economics and You

Demand Illustrated

The Individual Demand Schedule

The Individual Demand Curve

Reading Check

Interpreting

How do you react to a change in the price of an item? How does this illustrate the concept of demand?

The Law of Demand

Main Idea

Economics and You

Why We Call It a "Law"

The Market Demand Curve

Reading Check

Explaining

How does the market demand curve reflect the Law of Demand?

Demand and Marginal Utility

Main Idea

Economics and You

Reading Check

Describing

How does the principle of diminishing marginal utility explain the price we pay for another unit of a good or service?

Review

Honors Business Economics: 30 November 2010

Prayer:
Current Events:

The Interactive 2010 PNC Christmas Price Index

Cf. http://content.pncmc.com/live/pnc/microsite/CPI/2010/index.html#/book

The Price of Christmas from 1984 to 2010

Cf. http://www.pncsites.com/CPI/2010/prices.html

Economics Trivia Game (one for the over 13 age crowd)

Cf. http://www.pncsites.com/CPI/2010/games.html

The Ch. 2 Sec. 3 American Free Enterprise Make-Up Quiz is today.

New feature:

The electronic edition of the Philadelphia Inquirer is available. We have the Sunday edition, available on Mondays, in addition to the Tuesday through Friday editions on the other days.

Please follow the steps below:

URL: http://nie.philly.com
Click on the words "Access e-Inquirer" located on the gray toolbar underneath the green locker on the opening page.
Login:
Username: bshsinky@shanahan.org
Password: 10888

The electronic editions will be archived at the site for 30 days only.

Vocabulary eFlashcards
Show Business is the Federal Reserve Bank of Boston's learning activity on economics and the entertainment industry. The goal is to provide an additional tool for teaching and learning about basic economic concepts, with some economic history snuck in.

Cf. http://www.bos.frb.org/entertainment/index.htm

A music video from School House Rock on investing and Wall Street.

Cf. http://www.shmoop.com/corporations-stocks/botw/resources?d=http://www.gamequarium.org/cgi-bin/search/linfo.cgi?id=3797

Prices and Markets

Chapter 4 Demand

(Supply and) Demand

In-class assignment: in your own words, summarize and explain supply and demand. Draw an individual (each student) sample Supply and Demand Curve as it is described in the video. What is the relationship between prices and quantity demanded? What does it mean in Economics to move towards equilibrium? What is the consumer surplus? What is a producer surplus?


Supply and Demand Screen shot 1

Supply and Demand Screen shot 2, Equilibrium

Supply and Demand Screen shot 3, Consumer Surplus

Supply and Demand Screen shot 4, Producer Surplus

Why It Matters

The Big Idea

Section 1 What is Demand?

ceteris paribus ([key-te-rees pah-ri-boos] other things being equal

Guide to Reading

Section Preview

Content Vocabulary

demand

microeconomics

market economy

demand schedule

demand curve

Deriving the Demand Curve

In-class assignment: if asked to explain to a friend who knew nothing about the demand curve, how would you explain it? Where does the demand curve come from?


Law of Demand

Introduction to the law of demand, and what it means, 4:44

In-class assignment: what is the law of demand? What does the law mean? Spending is effected by price, disposable income, luxury/necessity, tastes/preferences, age, gender, social status, weather, and other factors such as expectations of the future. However, what are the two most important factors to focus on?


market demand curve

marginal utility

diminishing marginal utility

Diminishing Marginal Utility, 4:15

In-class assignment: define diminishing marginal utility based on the video and its explanation.


Academic Vocabulary

prevail

inversely

Reading Strategy

Products in the News

Wrist Watch

An Introduction to Demand

Main Idea

Economics and You

Demand Illustrated

The Individual Demand Schedule

The Individual Demand Curve

Reading Check

Interpreting

How do you react to a change in the price of an item? How does this illustrate the concept of demand?

The Law of Demand

Main Idea

Economics and You

Why We Call It a "Law"

The Market Demand Curve

Reading Check

Explaining

How does the market demand curve reflect the Law of Demand?

Demand and Marginal Utility

Main Idea

Economics and You

Reading Check

Describing

How does the principle of diminishing marginal utility explain the price we pay for another unit of a good or service?

HW email to gmsmith@shanahan.org or hand in hard copy.

The Chapter 2 Test is Thursday.

Cf. http://shanawiki.wikispaces.com/Honors+Business+Economics+Chapter+2+Test+Prep+Page+Fall+2010

Tuesday HW

1. p. 56, #17-20.

2. p. 92, Why is the demand curve downward sloping?

Honors World History II: 29 November 2010

Prayer

Current Events:

COICA Bill S. 3804 Combating Online Infringements and Counterfeits Act


The Electronic Frontier Foundation: The COICA Internet Censorship and Copyright Bill

Tech Dirt: Why Voting For COICA Is A Vote For Censorship

Demand Progress: COICA Fact Sheet

New feature:

The electronic edition of the Philadelphia Inquirer is available. We have the Sunday edition, available on Mondays, in addition to the Tuesday through Friday editions on the other days.

Please follow the steps below:

URL: http://nie.philly.com
Click on the words "Access e-Inquirer" located on the gray toolbar underneath the green locker on the opening page.
Login:
Username: bshsinky@shanahan.org
Password: 10888

The electronic editions will be archived at the site for 30 days only.

The Chapter 11 Section 3 The Age of Napoleon Quiz Prep Page is available for the Quiz on Wednesday.

Cf. http://shanawiki.wikispaces.com/Honors+World+History+II+Fall+2010+Chapter+11+Section+3+The+Age+of+Napoleon+Quiz+Prep+Page

HW is available below at the bottom of the daily blog post.

Chapter 12 Industrialization and Nationalism 1800-1870

Section 1 The Industrial Revolution

Cf. http://www.abcya.com/word_clouds.htm).

Wordle: Ch. 11 Sec. 1 Industrialization

Cf. http://vozme.com/index.php?lang=en

Section 1 The Industrial Revolution

Objectives

Key Terms

The Industrial Revolution in Great Britain, p. 363

Cf. http://www.wordle.net/create

ABCya! Cf. http://www.abcya.com/word_clouds.htm

Or, http://www.glogster.com/login/

Who Wants to Be a Cotton Millionaire?


Cf. http://www.bbc.co.uk/history/british/victorians/launch_gms_cotton_millionaire.shtml

Britain emerged in Victorian times as the world's first industrial power, but the transition wasn't smooth.

Some entrepreneurs made fortunes from the new cotton industry, but many of the factory start-ups went bust. Success depended on a variety of factors, which you will encounter as you play the game.

As you play, your stacks of money will rise and fall, depending on the choices you make, and you'll find out if you can make it as a Victorian entrepreneur.

Choose well, make money and the business will survive. Choose badly, and the businessman could end up in debtors' prison.

ABCya! Cf. http://www.abcya.com/word_clouds.htm

vozMe: Cf. http://vozme.com/index.php?lang=en

Contributing Factors, p. 364

Why Britain?

What characteristics of eighteenth-century Britain made it ripe for industrialization? Historians cite several reasons for Britain’s lead.

Natural Resources Abound

Britain had the advantage of plentiful natural resources such as natural ports and navigable rivers. Rivers supplied water power and allowed for the construction of canals. These canals increased accessibility for trade and were instrumental in bringing goods to market. In addition, Britain was able to establish communications and transport relatively cheaply due to its easy accessibility to the sea from all points. Britain’s plentiful supply of coal was fundamental to its industrialization and was used to power steam engines. Vast supplies of iron were available to be used to build the new machines.

The Effects of Demand and Capital

In the 1700s, Britain had plenty of skilled mechanics who were eager to meet the growing demand for new, practical inventions. This ready workforce, along with the population explosion, boosted demand for goods. In order to increase the production of goods to meet the demand, however, another key ingredient was needed. Money was necessary to start businesses.

From the mid-1600s to 1700s, trade from a growing overseas empire helped the British economy prosper. Beginning with the slave trade, the business class accumulated capital, or money used to invest in enterprises. An enterprise is a business organization in an area such as shipping, mining, railroads, or factories. Many businessmen were ready to risk their capital in new ventures due to the healthy economy.

In addition to the advantages already cited, Britain had a stable government that supported economic growth. While other countries in Europe faced river tolls and other barriers, Britain did not. The government built a strong navy that protected its empire, shipping, and overseas trade. Although the upper class tended to look down on business people, it did not reject the wealth produced by the new entrepreneurs. These entrepreneurs were those who managed and assumed the financial risks of starting new businesses.

Changes in Cotton Production, p. 364

The Textile Industry Advances

The Industrial Revolution first took hold in Britain’s largest industry—textiles. In the 1600s, cotton cloth imported from India had become popular. British merchants tried to organize a cotton cloth industry at home. They developed the putting-out system, also known as cottage industry, in which raw cotton was distributed to peasant families who spun it into thread and then wove the thread into cloth in their own homes. Skilled artisans in the towns then finished and dyed the cloth.

Inventions Speed Production

Under the putting-out system, production was slow. As the demand for cloth grew, inventors came up with a string of remarkable devices that revolutionized the British textile industry. For example, John Kay’s flying shuttle enabled weavers to work so fast that they soon outpaced spinners. James Hargreaves solved that problem by producing the spinning jenny in 1764, which spun many threads at the same time. A few years later, in 1769, Richard Arkwright patented the water frame, which was a spinning machine that could be powered by water.

Meanwhile, in America, these faster spinning and weaving machines presented a challenge—how to produce enough cotton to keep up with England. Raw cotton grown in the South had to be cleaned of dirt and seeds by hand, a time-consuming task. To solve this, Eli Whitney invented a machine called the cotton gin that separated the seeds from the raw cotton at a fast rate. He finished the cotton gin in 1793, and cotton production increased exponentially.

Factories Are Born in Britain

The new machines doomed the putting-out system. They were too large and expensive to be operated at home. Instead, manufacturers built long sheds to house the machines. At first, they located the sheds near rapidly moving streams, harnessing the water power to run the machines.

Later, machines were powered by steam engines.

The Spinning Mill Animation

Cf. http://www.bbc.co.uk/history/british/victorians/launch_ani_spinning_mill.shtml



Spinning mills used 'line shafting', which is the means by which the power of the steam engine is transmitted along rotating shafts (rods) to spinning or weaving mills.

This animation depicts a spinning mill like that found at Quarry Bank museum in Cheshire. It shows a furnace powering a flywheel, which is there to smooth out the otherwise jerky rotation of the crank.

In spinning mills, which could be multi-story, there are large numbers of ropes coming off the flywheel. These 'rope races' convey power to the mill's different floors.
Spinners and weavers now came each day to work in these first factories, which brought together workers and machines to produce large quantities of goods. Early observers were awed at the size and output of these establishments. One onlooker noted: “The same [amount] of labor is now performed in one of these structures which formerly occupied the industry of an entire district.”

Checkpoint

What led to the advancement of the British textile industry?

The Coal and Iron Industries, p. 365

Another factor that helped trigger the Industrial Revolution was the development of new technology. Aided by new sources of energy and new materials, these new technologies enabled business owners to change the ways work was done.

An Energy Revolution

During the 1700s, people began to harness new sources of energy. One vital power source was coal, used to develop the steam engine. In 1712, British inventor Thomas Newcomen had developed a steam engine powered by coal to pump water out of mines. Scottish engineer James Watt looked at Newcomen’s invention in 1764 and set out to make improvements on the engine in order to make it more efficient. Watt’s engine, after several years of work, would become a key power source of the Industrial Revolution. The steam engine opened the door not only to operating machinery but eventually to powering locomotives and steamships.

The Quality of Iron Improves

Coal was also a vital source of fuel in the production of iron, a material needed for the construction of machines and steam engines. The Darby family of Coalbrookdale pioneered new methods of producing iron. In 1709, Abraham Darby used coal instead of charcoal to smelt iron, or separate iron from its ore.

Darby’s experiments led him to produce less expensive and better-quality iron, which was used to produce parts for the steam engines. Both his son and grandson continued to improve on his methods. In fact, Abraham Darby III built the world’s first iron bridge. In the decades that followed, high-quality iron was used more and more widely, especially after the world turned to building railroads.

Abraham Darby III completed the world’s first iron bridge in 1779. The bridge still stands today.

Checkpoint

What new technologies helped trigger the Industrial Revolution?

Railroads, p. 365

Stephenson's Rocket Animation

Cf. http://www.bbc.co.uk/history/british/victorians/launch_ani_rocket.shtml


Background

The Rocket was designed and built by George Stephenson with the help of his son, Robert, and Henry Booth, for the 1829 Rainhill Trials.

The Trials were held by the Liverpool and Manchester Railway Company, to find the best locomotive engine for a railway line that was being built to serve these two English cities. On the day of the Trials, some 15,000 people came along to see the race of the locomotives.

During the race, the Rocket reached speeds of 24mph during the 20 laps of the course. This was due to several new design features. It was the first locomotive to have a multi-tube boiler - with 25 copper tubes rather than a single flue or twin flue.

The blast pipe also increased the draught to the fire by concentrating exhaust steam at the base of the chimney. This meant that the boiler generated more power (steam), so the Rocket was able to go faster than its rival, and thus secure its place in history.

The Rocket can be seen at the Science Museum, in London.
One of the most important developments of the Industrial Revolution was the creation of a countrywide railway network. The world’s first major rail line went from Liverpool to Manchester in England. Fanny Kemble, the most famous actress of the day, was one of the first passengers:

“We were introduced to the little engine which was to drag us along the rails. . . This snorting little animal, . . . started at about ten miles an hour. . . . You can’t imagine how strange it seemed to be journeying on thus, without any visible cause of progress other than the magical machine . . .”

Learn

Focus Question

What key factors allowed Britain to lead the way in the Industrial Revolution?

The New Factories, p. 365

The new machines doomed the putting-out system. They were too large and expensive to be operated at home. Instead, manufacturers built long sheds to house the machines. At first, they located the sheds near rapidly moving streams, harnessing the water power to run the machines. Later, machines were powered by steam engines.

Spinners and weavers now came each day to work in these first factories, which brought together workers and machines to produce large quantities of goods. Early observers were awed at the size and output of these establishments. One onlooker noted: “The same [amount] of labor is now performed in one of these structures which formerly occupied the industry of an entire district.”

Checkpoint

What led to the advancement of the British textile industry?

Reading Check

Describing

How were adult and child factory workers disciplined?

The Spread of Industrialization, p. 366

Europe, p. 366

Industrial Europe, c. 1850

North America (note how in the Glencoe textbook the entire section is about the United States; it states nothing about Mexico and Canada yet the section is entitled "North America."), p. 366

Reading Check

Evaluating

Social Impact in Europe, p. 367

Growth of Population and Cities, p. 367

Checkpoint

How did an agricultural revolution contribute to population growth?

The Industrial Middle Class, p. 368

The Industrial Middle Class, p. 369

The Industrial Working Class, p. 369

Learn

Focus Question

What were the social effects of the Industrial Revolution?

The Industrial Revolution brought great riches to most of the entrepreneurs who helped set it in motion. For the millions of workers who crowded into the new factories, however, the industrial age brought poverty and harsh living conditions.

In time, reforms would curb many of the worst abuses of the early industrial age in Europe and the Americas. As standards of living increased, people at all levels of society would benefit from industrialization. Until then, working people would suffer with dangerous working conditions; unsafe, unsanitary, and overcrowded housing; and unrelenting poverty.

People Move to New Industrial Cities

The Industrial Revolution brought rapid urbanization, or the movement of people to cities. Changes in farming, soaring population growth, and an ever-increasing demand for workers led masses of people to migrate from farms to cities. Almost overnight, small towns around coal or iron mines mushroomed into cities. Other cities grew up around the factories that entrepreneurs built in once-quiet market towns.

The British market town of Manchester numbered 17,000 people in the 1750s. Within a few years, it exploded into a center of the textile industry. Its population soared to 40,000 by 1780 and 70,000 by 1801. Visitors described the “cloud of coal vapor” that polluted the air, the pounding noise of steam engines, and the filthy stench of its river. This growth of industry and rapid population growth dramatically changed the location and distribution of two resources—labor and people.

Checkpoint

What led to the massive migration of people from farms to cities?

While the wealthy and the middle class lived in pleasant neighborhoods, vast numbers of poor struggled to survive in foul-smelling slums. They packed into tiny rooms in tenements, or multistory buildings divided into apartments. These tenements had no running water, only community pumps. There was no sewage or sanitation system, so wastes and garbage rotted in the streets. Sewage was also dumped into rivers, which created an overwhelming stench and contaminated drinking water. This led to the spread of diseases such as cholera.

Vocabulary Builder
contaminated—(kun tam uh nayt id) adj. unclean and impure; polluted

Workers Stage Futile Protests

Although labor unions, or workers’ organizations, were illegal at this time, secret unions did exist among frustrated British workers. They wished to initiate worker reforms, such as increases in pay, but had no political power to effect change. Sometimes their frustration led to violence. The first instances of industrial riots occurred in England from 1811 to 1813. Groups of textile workers known as the Luddites (lud yts) resisted the labor-saving machines that were costing them their jobs. Some of them smashed textile machines with sledgehammers and burned factories. They usually wore masks and operated at night. There was widespread support among the working class for these Luddite groups.

Workers Find Comfort in Religion

Many working-class people found comfort in a religious movement called Methodism. This movement was influenced by the Industrial Revolution as people moved to cities and lost connections with their old churches. John Wesley had founded the Methodist movement in the mid-1700s. Wesley stressed the need for a personal sense of faith. He encouraged his followers to improve themselves by adopting sober, moral ways.

Vocabulary Builder
stressed—(stresd) vt. emphasized

Methodist meetings featured hymns and sermons promising forgiveness of sin and a better life to come. Methodist preachers took this message of salvation into the slums. There, they tried to rekindle hope among the working poor. They set up Sunday schools where followers not only studied the Bible but also learned to read and write. Methodists helped channel workers’ anger away from revolution and toward reform.

Checkpoint

How did members of the working class react to their new experiences in industrial cities?

Life in the Factories and Mines

The heart of the new industrial city was the factory. There, the technology of the machine age and the rapid pace of industrialization imposed a harsh new way of life on workers.

Discovery School Channel

Watch In Old New York on the Witness History Discovery School™ video program to learn about life during the Industrial Age.

Factory Workers Face Harsh Conditions

Working in a factory system differed greatly from working on a farm. In rural villages, people worked hard, but their work varied according to the season. Life was also hard for poor rural workers who were part of the putting-out system, but at least they worked at their own pace. In the grim factories of industrial towns, workers faced a rigid schedule set by the factory whistle.

Working hours were long, with shifts lasting from 12 to 16 hours, six or seven days a week. Workers could only take breaks when the factory owners gave permission. Exhausted workers suffered accidents from machines that had no safety devices. They might lose a finger, a limb, or even their lives. In textile mills, workers constantly breathed air filled with lint, which damaged their lungs. Those workers who became sick or injured lost their jobs.

The majority of early factory workers were women rather than men. Employers often preferred to hire women workers because they thought women could adapt more easily to machines and were easier to manage. In addition, employers generally paid women half what they paid men.

Factory work created a double burden for women. Their new jobs took them out of their homes for 12 hours or more a day. They then returned to their tenements, which might consist of one damp room with a single bed. They had to feed and clothe their families, clean, and cope with such problems as sickness and injury.

Miners Face Worse Conditions

The Industrial Revolution increased the demand for iron and coal, which in turn increased the need for miners. Although miners were paid more, working conditions in the mines were even worse than in the factories. They worked in darkness, and the coal dust destroyed their lungs. There were always the dangers of explosions, flooding, and collapsing tunnels. Women and children carted heavy loads of coal, sometimes on all fours in low passages. They also climbed ladders carrying heavy baskets of coal several times a day.

Even children as young as five years old worked in the mines. James Kay-Shuttleworth worked as a physician among the different classes of the Industrial Revolution in Manchester. His profession allowed him to see the working conditions of poor in the cities. How was work in factories and mines different from work on the farm?

Children were accustomed to work on a farm: the money earned by children was vital to most working class families during the early 20th century and before.

Primary Source

“Whilst the engine runs, people must work—men, women, and children are yoked together with iron and steam. The animal machine is chained fast to the iron machine, which knows no suffering and weariness.”

—James Kay-Shuttleworth, 1832

Children Have Dangerous Jobs

Factories and mines also hired many boys and girls. These children often started working at age seven or eight, a few as young as five. Nimble-fingered and quick-moving, they changed spools in the hot and humid textile mills where sometimes they could not see because of all the dust. They also crawled under machinery to repair broken threads in the mills. Conditions were even worse for children who worked in the mines. Some sat all day in the dark, opening and closing air vents. Others hauled coal carts in the extreme heat. Because children had helped with work on the farm, parents accepted the idea of child labor. The wages the children earned were needed to keep their families from starving.

Child labor reform laws called “factory acts” were passed in the early 1800s. These laws were passed to reduce a child’s workday to twelve hours and also to remove children under the age of eight or nine from the cotton mills. Because the laws were generally not enforced, British lawmakers formed teams of inspectors to ensure that factories and mines obeyed the laws in the 1830s and 1840s. More laws were then passed to shorten the workday for women and require that child workers be educated.

Families could afford to take trips to such places as the zoo as wages increased.

Checkpoint

How did the Industrial Revolution affect the lives of men, women, and children?

Early Socialism, p. 370

While the champions of laissez-faire economics praised individual rights, other thinkers focused on the good of society in general. They condemned the evils of industrial capitalism, which they believed had created a gulf between rich and poor. To end poverty and injustice, they offered a radical solution—socialism. Under socialism, the people as a whole rather than private individuals would own and operate the means of production—the farms, factories, railways, and other large businesses that produced and distributed goods. Socialism grew out of the Enlightenment faith in progress, its belief in the basic goodness of human nature, and its concern for social justice.

Are Utopians Dreamers?

A number of early socialists established communities in which all work was shared and all property was owned in common. When there was no difference between rich and poor, they said, fighting between people would disappear. These early socialists were called Utopians. The name implied that they were impractical dreamers. The Utopian Robert Owen set up a model community in New Lanark, Scotland, to put his own ideas into practice.

Infographic
Owen’s Utopia

For: Interactive Village
Visit: PHSchool.com
Web Code: nap-1941

Owen Establishes a Utopia

A poor Welsh boy, Owen became a successful mill owner. Unlike most industrialists at the time, he refused to use child labor. He campaigned vigorously for laws that limited child labor and encouraged the organization of labor unions.

Checkpoint

What did early socialists believe?

Reading Check

Describing

What type of working conditions did the industrial workers face?

References and Resources

Rise of the Working Class by Jurgen Kuczynski

Making of the English Working Class by E.P. Thompson

Cultural Foundations of Industrial Civilization by John U. Nef

As in a traditional American Thanksgiving, 1830s America, as demonstrated at Old Sturbridge Village, celebrated God, flag, and country.

Cf. http://www.osv.org/

Sign entering the village. Graphic source: The Next Generation


A living museum can be viewed at Old Sturbridge Village. The village is well worth exploring in some detail.

The flag is central to village life. Graphic source: The Next Generation



Our relationship to God is of paramount importance. Graphic source: The Next Generation



Defense is always a concern for a nation. Graphic source: The Next Generation



If you have questions about 19th Century life you can always "Ask Jack."

In-class assignment: to function during the Industrial Revolution, you will need to know the Tools of the trade and common expressions. Working with a partner we will quiz you on your knowledge of the Industrial Revolution.

To feel more at home in the village you will need to know the tools of the trade. A number of fun and educational links are available for the OSV.

1st Period

Tools of the Trade

Why We Say It!

A flash in the pan
To "bark up the wrong tree"
Hook, line, and sinker
Keep your shirt on
Baker's dozen
"bring home the bacon"

5th Period to be tested on "Tools" and "Say."

Old Sturbridge Village Feature Shown on Al Jazeera Television winter 2008



Laura Linney and Ken Burns on the importance of Old Sturbridge Village



4th of July at OSV.



Redcoats to Rebels at OSV.

Mystic sign. Photo Source: The Next Generation

Mystic Seaport -- The Museum of America and the Sea is the nation's leading maritime museum. In it, you can explore American maritime history first-hand as you climb aboard historic tall ships, stroll through a re-created 19th-century coastal village, or watch a working preservation shipyard in action.




Traditional American Music performed live at Mystic Seaport, CT: Part 1

Traditional American Music performed live at Mystic Seaport, CT: Part 2



Traditional American Music performed live at Mystic Seaport, CT: Part 3



The Charles W. Morgan embarks on a voyage of restoration at the Henry B. DuPont Preservation Shipyard at Mystic Seaport. Shipyard Director, Quentin Snediker explains what is done to prepare the ship for the historic journey.

The Charles W. Morgan is the last surviving wooden whaling ship from the great days of sail. Built in 1841 in New Bedford, MA, the Morgan had a successful 80-year whaling career. She made 37 voyages before retiring in 1921, and was preserved as an exhibit through the efforts of a number of dedicated citizens. After being on display in South Dartmouth, MA, until 1941, she came to Mystic Seaport, where each year thousands of visitors walk her decks and hear the fascinating story of her career as a whaling vessel, historic exhibit, film and media star, and a porthole into America's rich history.

Over the last three decades, the Charles W. Morgan has undergone two regimes of partial restoration along with annual maintenance. Despite these efforts, the inevitable effects of time on the wooden fabric of the vessel's structure demand additional extensive restoration. If left unchecked, these deficiencies will threaten the structural integrity of the Morgan and her use as a primary artifact in Mystic Seaport's interpretive programs.



Mystic Seaport, 1960 (No, this is not Dr. Smith as a boy), from family home movies.



Whaling in popular culture: Mountain, "Nantucket Sleighride"



The cold hard steel of the harpoon's point
Struck deep into its side.
We played out line and backed the oars
And took the cruel sleighride.

The term "Nantucket Sleighride" was coined by the whalers to explain what happened after they harpooned a whale. (Nantucket Island was considered the whaling capital of the world during the 19th century.) The first strike of the harpoon was not intended to kill the whale but only to attach it to the whale boat. The whale would take off pulling the whale boat along at speeds of up to 23 mph (37 kmh). The whale would eventually tire itself out, the leading officer in the boat would then use a penetrating lance to kill the whale.

Nantucket Sleighride is Dedicated to Owen Coffin who was cabin boy aboard the whaler Essex, which was destroyed by a sperm whale in 1819. Owen ended up in the lifeboat with Captain Pollard, his uncle. Two other lifeboats also put out. During the next 3 - 4 months, the lifeboats separated. One was never seen again, but some of those on the remaining two boats were eventually rescued.
During those long months at sea (and on desert islands), many of the men died. The remainder eventually had to resort to cannibalism to survive. After the dead of natural causes were consumed, the men determined to draw lots to see who would sacrifice his life for the others. Owen Coffin ``won'' the lottery. The Captain tried to take Owen's place, but the youth insisted on his ``right''. The executioner was also drawn by lot. That ``winner'', another young man named Charles Ramsdell, also tried vainly to swap places with Owen. Again he refused. Owen's body kept the others alive for ten days (Captain Pollard refused to eat his nephew). Another man died, and his body kept Pollard and Ramsdell alive a few more days until they were rescued.

Lyrics
Goodbye, little Robin-Marie
Don't try following me
Don't cry, little Robin-Marie
'Cause you know I'm coming home soon
My ships' leaving on a three-year tour
The next tide will take us from shore
Windlaced, gather in sail and spray
On a search for the mighty sperm whale
Fly your willow branches
Wrap your body round my soul
Lay down your reeds and drums on my soft sheets
There are years behind us reaching
To the place where hearts are beating
And I know you're the last true love I'll ever meet
Starbuck's sharpening his harpoon
The black man's playing his tune
An old salt's sleeping his watch away
He'll be drunk again before noon
Three years sailing on bended knee
We found no whales in the sea
Don't cry, little Robin-Marie
'Cause we'll be in sight of land soon

Agriculture

Farming and everyday life during the past 250 years

Children who lived in the English countryside

The Agricultural Revolution

Transportation, Industrial Revolution

Stephenson's Rocket Animation

The Spinning Mill Animation

Britain at the time of the Great Exhibition

Who Wants to Be a Cotton Millionaire?

Iron Bridge Virtual Tour

New machines that brought changes in America

Review changes of the 18th and 19th centuries

The Industrial Revolution

The everyday life of children in Victorian Britain (including the cities)

Online game about life in an industrial Victorian city

Take a tour of a workhouse

Links, resources, and bibliographical references

Dawn of the Industrial Age

Cf. http://www.phschool.com/webcodes10/index.cfm?fuseaction=home.gotoWebCode&wcprefix=nba&wcsuffix=1911

Britain Leads the Way

http://www.phschool.com/webcodes10/index.cfm?fuseaction=home.gotoWebCode&wcprefix=nba&wcsuffix=1921

Social Impact of the Industrial Revolution

http://www.phschool.com/webcodes10/index.cfm?fuseaction=home.gotoWebCode&wcprefix=nba&wcsuffix=1931

New Ways of Thinking

http://www.phschool.com/webcodes10/index.cfm?fuseaction=home.gotoWebCode&wcprefix=nba&wcsuffix=1941

The French Revolution and Napoleon

Cf. http://www.phschool.com/webcodes10/index.cfm?fuseaction=home.gotoWebCode&wcprefix=nba&wcsuffix=1831

The Chapter 11 Section 3 The Age of Napoleon Quiz Prep Page is available for the Quiz on Wednesday.

Cf. http://shanawiki.wikispaces.com/Honors+World+History+II+Fall+2010+Chapter+11+Section+3+The+Age+of+Napoleon+Quiz+Prep+Page

HW: email (or hard copy) me at gmsmith@shanahan.org.

1. p. 365, Picturing History

2. p. 366, Graph Skills, #1-2

3. p. 367, Geography Skills, #1-2