20-10-2012, 10:36 AM
The Industrial Revolution
IndustrialRevolution.ppt (Size: 5.4 MB / Downloads: 45)
Historical Significance of the Industrial Revolution
An ancient Greek or Roman would have been just as comfortable in Europe in 1700 because daily life was not much different – agriculture and technology were not much changed in 2000+ years
The Industrial Revolution changed human life drastically
More was created in the last 250+ years than in the previous 2500+ years of known human history
What was the Industrial Revolution?
The Industrial Revolution was a fundamental change in the way goods were produced, from human labor to machines
The more efficient means of production and subsequent higher levels of production triggered far-reaching changes to industrialized societies
The Industrial Revolution
Machines were invented which replaced human labor
New energy sources were developed to power the new machinery – water, steam, electricity, oil (gas, kerosene)
Some historians place advances in atomic, solar, and wind energy at the later stages of the Industrial Revolution
Increased use of metals and minerals
Aluminum, coal, copper, iron, etc.
Developments
Mass production of goods
Increased numbers of goods
Increased diversity of goods produced
Development of factory system of production
Rural-to-urban migration
People left farms to work in cities
Development of capitalism
Financial capital for continued industrial growth
Development and growth of new socio-economic classes
Working class, bourgeoisie, and wealthy industrial class
Commitment to research and development
Investments in new technologies
Industrial and governmental interest in promoting invention, the sciences, and overall industrial growth
Background of the Industrial Revolution
Scientific Revolution
17th and 18th centuries
Discoveries of Boyle, Lavoisier, Newton, etc.
Intellectual Revolution
17th and 18th centuries
Writings of Locke, Voltaire, etc.
Atmosphere of discovery and free intellectual inquiry
Greater knowledge of the world
Weakened superstition and tradition
Encouraged learning and the search for better and newer ways of doing things
Factory System
Developed to replace the domestic system of production
Faster method of production
Workers concentrated in a set location
Production anticipated demand
For example: Under the domestic system, a woman might select fabric and have a businessperson give it to a home-based worker to make into a dress. Under the factory system, the factory owner bought large lots of popular fabrics and had workers create multiple dresses in common sizes, anticipating that women would buy them.
Development of Steam Engines
Early water power involved mills built over fast-moving streams and rivers
Early water power had problems
Not enough rivers to provide the power needed to meet growing demand
Rivers and streams might be far removed from raw materials, workers, and markets
Rivers are prone to flooding and drying
Steam Engines
By 1800, steam engines were replacing water wheels as sources of power for factories
Factories relocated near raw materials, workers, and ports
Cities grew around the factories built near central England’s coal and iron mines
Manchester, Liverpool
The Agricultural Revolution
Agricultural methods had not changed much since the Middle Ages
Tools – hoe, sickle, wooden plow
Three-field system – farmers left 1/3 of the land fallow each year to restore fertility to the soil
Open-field system – unfenced farms with few improvements made to the land
No significant surplus – only enough food was made to feed the population
IndustrialRevolution.ppt (Size: 5.4 MB / Downloads: 45)
Historical Significance of the Industrial Revolution
An ancient Greek or Roman would have been just as comfortable in Europe in 1700 because daily life was not much different – agriculture and technology were not much changed in 2000+ years
The Industrial Revolution changed human life drastically
More was created in the last 250+ years than in the previous 2500+ years of known human history
What was the Industrial Revolution?
The Industrial Revolution was a fundamental change in the way goods were produced, from human labor to machines
The more efficient means of production and subsequent higher levels of production triggered far-reaching changes to industrialized societies
The Industrial Revolution
Machines were invented which replaced human labor
New energy sources were developed to power the new machinery – water, steam, electricity, oil (gas, kerosene)
Some historians place advances in atomic, solar, and wind energy at the later stages of the Industrial Revolution
Increased use of metals and minerals
Aluminum, coal, copper, iron, etc.
Developments
Mass production of goods
Increased numbers of goods
Increased diversity of goods produced
Development of factory system of production
Rural-to-urban migration
People left farms to work in cities
Development of capitalism
Financial capital for continued industrial growth
Development and growth of new socio-economic classes
Working class, bourgeoisie, and wealthy industrial class
Commitment to research and development
Investments in new technologies
Industrial and governmental interest in promoting invention, the sciences, and overall industrial growth
Background of the Industrial Revolution
Scientific Revolution
17th and 18th centuries
Discoveries of Boyle, Lavoisier, Newton, etc.
Intellectual Revolution
17th and 18th centuries
Writings of Locke, Voltaire, etc.
Atmosphere of discovery and free intellectual inquiry
Greater knowledge of the world
Weakened superstition and tradition
Encouraged learning and the search for better and newer ways of doing things
Factory System
Developed to replace the domestic system of production
Faster method of production
Workers concentrated in a set location
Production anticipated demand
For example: Under the domestic system, a woman might select fabric and have a businessperson give it to a home-based worker to make into a dress. Under the factory system, the factory owner bought large lots of popular fabrics and had workers create multiple dresses in common sizes, anticipating that women would buy them.
Development of Steam Engines
Early water power involved mills built over fast-moving streams and rivers
Early water power had problems
Not enough rivers to provide the power needed to meet growing demand
Rivers and streams might be far removed from raw materials, workers, and markets
Rivers are prone to flooding and drying
Steam Engines
By 1800, steam engines were replacing water wheels as sources of power for factories
Factories relocated near raw materials, workers, and ports
Cities grew around the factories built near central England’s coal and iron mines
Manchester, Liverpool
The Agricultural Revolution
Agricultural methods had not changed much since the Middle Ages
Tools – hoe, sickle, wooden plow
Three-field system – farmers left 1/3 of the land fallow each year to restore fertility to the soil
Open-field system – unfenced farms with few improvements made to the land
No significant surplus – only enough food was made to feed the population