Eudaimonia: The Good Life PDF

Summary

This document delves into the concept of 'eudaimonia' or the good life, focusing on the perspectives of historical Greek philosophers. It provides insights into their views on achieving fulfillment and happiness, emphasizing the importance of virtue and a harmonious relationship with oneself and the world.

Full Transcript

Eudaimonia: The Good Life

The good life refers to the state that a morally good person lives. It
is synonymous to happiness or welfare, human flourishing or prosperity.
Good life is good-spirited, a condition of well-being-happy. healthy,
and prosperous regarless of the emotional state of the one experiencing
it. Good life places the individual person\'s personal happiness and
inner peace at the core of ethical concern.

Greek Philosophy on the Good Life

Eudaimonia, or the good life, is associated primarily with Socrates,
Plato, and Aristotle the Greek triumvirate-who emphasized virtue as the
moral meaning of good life.

1. ) Socrates believed that eudaimonia is the ultimate goal of the
human being; it is the highest good that is desired more than
anything else. To achieve eudaimonia, Socrates stressed that humans
should practice virtues such as justice, courage, self-control and
wisdom.

2. ) Likewise, Plato, the greatest student of Socrates, maintained
that a person has a good life when he enjoys inner peace and lives
in harmony with the world. A person who wallows in wealth, power,
and worldly pleasure and sows detestable deeds cannot achieve peace
and harmony with himself and with the world. Like Socrates, Plato
considered moral virtue as necessary for the health of the soul.

3. ) In Nichomachean Ethics, Aristotle\'s bestknown work consisting
of ten books, the highest good for humans or the purpose of a human
being is to have a good life and to be happy.

Book VI of Nichomachean Ethics deals with intellectual virtue.

For Aristotle, the intellectual virtues help humans to know what is just
and admirable, while the moral virtues help persons to do just and
admirable deeds. Without intellectual virtue (prudence, in particular),
a virtuous person would not necessarily know how to act; without moral
virtue, the clever person would not always pursue the appropriate ends.

Intellectual virtues are important because:

1. They lead to happiness, and so are ends in themselves;

2. They help in determining the best means to the ends at which the
moral virtues teach to aim; and

3. They help persons in grasping the right principles of action.

The same Book VI revealed Aristotle\'s view that the soul is divided
into parts: a rational part and an irrational part. The rational part
can be further divided into two:

1. A contemplative part, which deals with the invariable truths of
science and mathematics; they are not related to human action, as
revealed in the natural sciences and mathematics.

2. A calculative part, which deals with the practical matters of
human life. Right reasoning with respect to the contemplative
intellect corresponds to truth.

Further, Book VI explained Aristotle idea of the five intellectual
virtues by which the soul arrives at truth.

1. Scientific knowledge, which arrives at eternal truths by means of
deduction or induction. Scientific knowledge consists most of
logical inferences that cannot be inferred through scientific
reasoning, but can be grasped only through intuition.

2. Art or technical skill, which involves production according to
proper reasoning. This virtue guides persons in the correct manner
of producing things.

3. Prudence or practical wisdom (from the Greek phonesis, which
guides persons in the correct manner or proper behavior in all
situations.

Without phronesis, a virtuous person would not necessarily know how to
act; and without moral virtue, the clever person would not always pursue
the appropriate ends.

1. Intuition, which helps a person to grasp first principles from
which scientific truths are derived; and

2. Wisdom (derived from the Greek word sophia), which is a
combination of scientific knowledge and intuition. It helps a person
to arrive at the highest truths. Wisdom is the highest of all
intellectual virtues because it involves a deep and profound
understanding of the eternal truths of the natural world.

Other Philosophies on The Good Life

Hedonism. Hedonism is a philosophy that views the good life as the
pleasant life. Hedonism states that all and only pleasure is
intrinsically valuable and all and only pain is intrinsically not
valuable. To the hedonists pleasure and pain include both physical and
mental phenomena.

Epicurus, founder of Epicurianism, a form of hedonism, expressed that
the greatest good (happiness in sustaihest form; the good life) is
pleasure. A person becomes happy when he/she does simple and sustainable
pleasures as eating good food, living in a comfortable home, spending
enough money

Stoicism. Stoic philosophy was founded by the Zeno of Cyprus around 300
B.C. This philosophy is associated with eudaimonism, the moral
philosophy that emphasizes the practice of virtues and right actions in
order for a person to achieve \"well-being,\" flourishing, and
happiness.

Hinduism. The Hindus believe that life is a continuous cycle of rebirth
(samsara) and is governed by the law of karma. This means that persons
who commit evil deeds are rebom into subhuman forms; those who live
righteously are reborn into more favored human forms.

Confucianism. Confucianism emphasizes filial piety. An individual lives
a righteous life, harmonizes the family, makes good govemment, and
brings peace to the whole world. Humans should live in accordance with
the natural law. This law requires all people to live righteously, to
offend no one, to respect every person, particularly the elderly, and to
give each one his/her due.

The Golden Rule of Confucius, \"Do to others what you wish others to do
to you\" is based on the natural law. This implies that if the Golden
Rule is followed, there would be peace, order, and harmony in society;
hence, ensuring a good life and happiness for everyone.

Moreover, to achieve a good life, Confucius taught that people must
practice virtues, particularly in his work, The Analects.

1. Jen (or human-heartedness) principle. This is synonymous with
moral character, benevolence, integrity, respect and love for
humanity and for oneself. To Confucius, a person of jen is the
perfect person.

2. Li (or propriety) principle. Li means the way things ought to be
morals. done. It implies living with proper manner or behavior,
right conduct or

3. Yi (or \"oughtness\" of good actions) principle. This means doing
a good thing for its own sake, or performing a duty for duty\'s
sake. This requires people to be righteous all the time regardless
of personal interested.

4. The principle of five relationships. Li and Yi should operate in
a scheme of five relationships as follows:

\(a) between father and son; (b) between elder brother and junior
brother; (c) between husband and wife; (d) between elder friend and
junior friend; and (e) between ruler and

5\. Ten (or power) principle. This refers to the power by which the
people are governed effectively by a moral ruler, who serves as a model
of righteous conduct and virtues.

Buddhism. Buddhism was founded by Prince Siddharta Gautama, also known
as Buddha meaning \"the Englightened One\". According to Buddha, the
ultimate human goal is Nirvana, the state of perfect happiness, perfect
wisdom, perfect knowledge, and perfect peace.

Christianity. The essence of Christianity revolves around the
Christians\' beliefs on the life, the death, and the resurrection of
Jesus. For Christians, the good life is found in Jesus Christ, the
Savior of mankind. The good life results from following Christ\'s
teachings and God\'s principles for healthy relationships between and
among humans, between humans and nature, between human and
himself/herselt, between human and God.

Objectivism. Objectivism is the philosophy designed and advocated by Ayn
Rand, a Russian-American writer and philosopher. Objectivism teaches
that happiness is the moral purpose of life. Happiness is eared through
one\'s personal sacrifices and achievements.

The Public Good: Gripaldo\'s Filipino Philosophy

Rolando M. Gripaldo, a Filipino philosopher, shares his views on the
concept of the public good. In his article The Concept of the Public
Good: A View from a Filipino Philosopher, Gripaldo considered public
good as that which benefits the greatest number of the local or national
population.

According to Gripaldo, there are two levels of public good. The first
level comes from the people themselves; the people perceive the public
good to be beneficial to most if not to all of them. This level is the
condition when the people unite or bond and work together to achieve
their common good, welfare, and interests. Otherwise, their aspirations
would not be realized.

The second level of public good comes from the local or national
goverment, which provides necessary projects or services desired by the
people for their common welfare. Examples of these public services or
public goods are national defense, education, public health, public
ports/airports and highways, social services, postal services, and many
more. The government or State is mandated to provide these services for
the benefit of the people, that is, the general public. In doing these,
the private sectors are enjoined to participate.

Chapter 7: When Technology and Humanity Cross

Meaning of Humanity

Humanity is love of people; it encompasses both love and altruism.
Humanity is a moral practice of selfless concern for the wellbeing of
others resulting in a quality life.

in other words, humanity refers to the qualities that make every person
human, such as being kind sympathetic, merciful, caring, cooperative,
and compassionate; it makes one naturally humane, God-fearing, creative,
environment-friendly, and nature-loving; it is creativity and
stewardship; it is not to be a robot or alien.

Technology: Boon or Bane?

Technology and innovation are incredibly rising exponentially. While
many affirm their beneficial influence on human ways of life, others are
critical about their ill effects upon humanity.

Global connectivity allows people throughout the world to contact each
other, or connect, via the internet. Thanks to WhatsApp, Skype,
Facebook, Viber and the like, people stay in touch with relatives,
friends, and others in distant places; businesses are run smoothly
despite geographical barriers.

The Megashifts. Unlike paradigm shifts, which are philosophical in
essence and which represent a new way of doing things, the technological
Megashifts represent new ways of being. From Gerd Leonhard\'s

\(2016) book Technology us Humanity, & Megoshift is an exponential shift
in human experience which is sudden in arrival, and unpredictable in
outcome.

The Megashifts include the following:

Digitization. Everything that can will become digital.

Mobilization. Everything is becoming mobile, and soon wearable or
\'hearable. Computing is becoming invisible, omnipresent, and
indispensable.

Screenification. Everything that used to be physical (or printed) is now
available on screens. What used to be between people (such as
conversations in foreign languages) can soon be done via a screen using
free translation apps such as SayHi, Google Translate, or soon, Waverly
Labs\' Pilot prototype.

Disintermediation. Many traditional middlemen are suffering because
technology makes it possible to

\'go direct\'. Examples include record labels, publishers, advertising:
brands can now tell their stories without TV or print. Musicians now
launch their careers via YouTube.

Datafication. What used to happen face-to-face is now being tured into
data. For example, electronic medical records vs. talking to the doctor,
or the grocery delivery service that tracks all its products.

Intelligization. Whatever that can be made intelligent will be because
now the means are available.

Everything that used to be dumb is now becoming connected and
intelligent, such as gas pipelines, farms, cars, shipping containers,
traffic lights, etc.

Automation. The result of smart machines will be wide- spread
unemployment. Everything can be automated.

Virtualization. People no longer rely only on physical things in a room
but on an instance in the cloud.

For example, software defined networking instead of local routers;
virtual friends such as Hello Barbie:

Augmentation. Humans can increasingly use technology to augment
themselves. Examples include brain computer interfaces (BCls) and
implants.

brain computerh Augmented and Virtual Reality, Intelligent Digital
Assistants, and (sooner or later)

Anticipation. Software (IA/Al) can now anticipate and predict human
behavior; thus, changing che way maps, email, and online collaboration
work. Crime prevention based on algorithms is quickly becoming a very
popular topie among law enforcement officials. These programs are
essentially using big data such as crime statistics, social media,
mobile phone locations, and traffic data to predict where a crime may
happen so that police patrols in that area can be stepped up.

Robotization. Robots will perform many white-collar jobs and house
chores.

De-humanization. Taking humans out of the equation by cutting a complex
human task to its bare bones and giving it to machines.

Re-humanization. Realizing that customers don\'t buy technology, they
buy relationships! Thus, brand value is defined by being more human, not
less!

SPECIFIC ISSUES IN STS

Chapter 8: The Information Age

Meaning of Information Age

The Information Age is the modern time in which information has become a
commodity that is transmitted freely, easily, and quickly by using
personal computers and computer networks. This period is also called the
Computer Age, the Digital Age, and the New Media Age. It is the period
that started in the last quarter of the 20th century.

Characteristics of the Information Age

The Information Age comprises the innovations that have emerged in the
computing and cybernetics after the Industrial Revolution. Computer and
communication technology converge to hasten work systems such as Library
Systems, Electronic Commerce, Integrated Enrolment Systems, and
Integrated

The Information Age is a period in which human work, play, and
interaction patterns are fundamentally affected by systems for
processing and distributing information through computer technology. The
Information Age creates a high-tech global economy based on the
information computerization.

Development of the Information Age

The Pre-Gutenberg Era. Prior to the invention of the printing press,
information was disseminated in the laborious and difficult manner; time
was greatly consumed; books were read comprehensively; tablets were
available but Information was not accessible to all groups of people,
but rather only to a small elite group. Transmission of was, therefore,
the story of others.

The Gutenberg Era. The Information Age started when Johannes Gutenberg
invented the printing press, which was significant in the quicker and
cheaper production of more books. The term Gutenburg Revolution refers
to the democratizing effects of the invention of the printing press.
This period was revolutionary because it allowed global social and
cultural changes, as well as development of societies.

The Post-Gutenberg Period. This is the Age of Social Media characterized
by the dominance of the Internet and the World Wide Web. Broadband
Internet access is made possible and video presentation and researches
become readily available. Blogging and social networking make business;
call center communication becomes accessible in all parts of the world.
Life-sharing and socialization through Facebook, Instagram, and Twitter,
among others, also become a trend that makes global connections.
YouTube, Flicker, Amazon, and Google make the life of people of all
levels easier and more modernized because of these accessibilities.

Impact of the Information Age

The internet is the most prominent invention of the Digital Age, has
turned humans into passive homebodies instead of doing outdoor
activities. Smarter than ever, people using the Internet can perform
various tasks online through the desktop or a smartphone shopping.
paying bills, ordering foods, calling a taxi, entertaining oneself with
videoke or movies through Youtube, communicating face-to-face via Skype
or Messenger with loved ones in distant places, online tutoring,
conducting job interview and many more

Maners New lication services such as texting, email, and social media
bring people closer, beyond barriers. New languages are leamed through
instant translation; thus, people, regardless of culturall background,
get connected.

oh automation Age stimulates business. li makes industries and
industrial countries stronger. Production of quality goods are done
faster, easier, and more efficiently with automated machines. Cost of
labor decreases. Business becomes progressive because marketing and
sales can be done online. thoreover, this period is the Age of
Entrepreneurship. People from all social classes, after leaming new
things from the internet, take the risks of engaging in business-small
and big. Business owners/ customers

sell/buy products online.

The Internet has also become the medium of committing crimes such as
cyber bullying, trafficking and abuse of children and women, libel,
business scam, hacking into goverment records or private information,
and others.

Chapter 9: Biodiversity and the Healthy Society

The term biodiversity was first coined by Walter C. Rosen in 1986. It
comes from the Greek word, bios, meaning \"life\" and the latin term
biological diversity, abbreviated as biodiversity, represents the sum
total of various life forms such as unicellular fungi, protozoa,
bacteria, and multi-cellular organisms such as plants, fishes, and
mammals at various biological levels including gens, habitats, and
ecosystem.

The biosphere comprises a complex collection of innumerable organisms,
known as the biodiversity, which constitute the vital life support for
survival of human race. This means that biodiversity is the variety of
life forms on earth and the essential interdependence of all living
things.

Types of Biodiversity

Biodiversity has three types, namely: species diversity, ecosystem
diversity, and genetic diversity.

1\. Species diversity. Species diversity is a measurement of biodiversity
in a particular ecological community. It characterizes the species
richness or number of species thriving in an ecological community, the
abundance of species.

Species diversity is a standard that can be utilized to evaluate the
condition of ecosystems. In a healthy ecosystem, a diverse and balanced
number of species exist and maintain the equilibrium of the ecosystem.

1. Ecosystem diversity. The different types of ecosystems, such as
terrestrial or aquatic, natural or artificial, are sustained due to
their strategic geographical locations on earth.

2. Genetic diversity. During reproduction, the fertilized egg cell
involves a series of cell divisions that produce individuals with a
distinctive assemblage of genes. No individual members of any
population (except identical twins, which develop from a single egg)
are precisely identical in their genetic makeup

Benefits of Biodiversity

Consumptive value. It often refers to non-market worth of resources that
are consumed directly, with or without passing through a market. This
includes food/drink, fuel, medicine, better crop varieties, and
industrial materials.

Non-consumptive value. This pertains to the worth of natural resources
which are not diminished by their use, that do not require the user to
have access to them, or make active use of them. Examples are
recreation, education and research, and traditional values.

Ecological services. Ecological functions are the major resources that
support our health, social, cultural, and economic needs. The
sustainabity of communities is determined by our capacity to conserve or
restore the ecological services of both urban and rural areas.

Threats to Biodiversity

Natural causes. These are threats that occur in nature, and are
considered inevitable. Natural causes include the following:

1\. Narrow geographical area. The narrower the area of a certain
community, the lesser the number of species that will be able to thrive
in it:

area, population. The lesser the number of individucals to procreate,
the lower the biodiversity in an

3\. Low breeding rate. The slower the breeding rate of the individuals,
the less diverse. species, thus diminishes biodiversity.

s\. ecies al disasters. The occurrence of natural calamithe clivse the
destruction of habitats of various

Chapter 10: The Nano World Impact of Nanotechnology

impact on the following:

The wide use of nanotechnology brings about positive and negative

Health. Nano-particles are so tiny and invisible to the naked eye. They
can come into our body through the skin, nose, lungs, and digestive
system. They can cause damage our cell. if these particles enter our
blood vessels, they can flow and damage our brain, our central control
system.

National security. Nano-bomb containing self- multiplying deadly virus
can be used as terror weapots that are capable of annihilating thousands
to billions of the Earth\'s population. Nanobots or nanorobots can be
made into self-replicating machine that may go out of control and have
the ability to consume all living matter on Earth. They are also called
gray goo or grey goo.

Social interaction. Because of the speed in communication many false
news can be spread easily and can cause many chaos and misunderstanding.

Culture. Slow traditional practices may be refused by the millennials as
they marvel at the speed of modern technology, comparing the old
activities as slow versus the fast pace of nanotechnology.

Economy. Investment in developing nanomachines to create nanorobots,
nanomedicine and the like involves huge cash outputs. Nanotechnology is
believed to take 20 to 50 years to become fully commercialized; but the
next industrial revolution may completely change human way of life.

Politics. While nanotechnology is a work of human hands, its use must be
regulated and used in moderation. For instance, the use of synthetic
drugs and high powered weapons. Appropriate laws must be enacted
manipulating humans and destroying our environment.

Environment, Nanotechnology can improve the environment by making solar
energy more affordable through the more efficient use of silicon - based
solar cells, nanoparticles, and ultrathin films.

Chapter 11: Gene Therapy

Understanding Gene Therapy

Gene therapy is a technique that utilizes genes to treat or prevent
disease. Gene therapy involves inserting genes into a person\'s cells
with the purpose of providing treatment for a certain ailment.

Generally, a healthy and normal gene is implanted into a cell or tissue
to substitute an abnormal gene and which causes disease. There are
techniques in order to deliver the gene which may be difficult and
requires some vectors like to \'carry the normal gene into the cell.
With future endeavors along this field, such technique may be used by
doctors as an alternative of using drugs or surgery.

The following are some of the approaches in gene therapy: (1) An altered
gene that causes disease is replaced with a healthy copy of the gene;
(2) A mutated gene thatfunctions improperly is inactivated or
\"knocked-out\"; (3) A new gene is introduced into the body to help
fight a disease.

Gene Therapy and Stem Cells

Stem cells hold great potential in gene therapy. One of the best
characteristics of stem cells is that they have the capacity to
self-renew.

Particularly, hematopoietic stem cells are a best choice because they
can easily be obtained from the blood, bone marrow or umbilical cord.

Stem cells are cells of variable potency that has the capacity to
self-renew (stemness). Stem cells are unique compared to other cells of
the body because they can both:

- Self-renew or make copies of themselves; and

- Differentiate to other types of cells - specialized cells of the
body.

Once a cell becomes, \'specialized\' or differentiated\', it plays vital
roles in the body such as blood cells, nerve cells, and muscle cells.
This makes stem cells very important since body needs stem cells to
replace specialized cells that are damaged or get used up and even die.

Self-renewal and differentiation are important for the various reasons.

sell-renewalis necessary because if the stem cells cannot make copies of
themselves, their supply mao, ditferentiation is essentie for the body
to presee polo copieself to use throughout life. Also, differentiation
is essential because specialized els are used up, damaged or die
continually during puemselves. Stem well ou give rise to specialize are
used up, diated cel occino mine copies of themselves once worn out.
However, they can be replaced in the body through stem cells to still
carry

out its functions.

Chapter 12: Climate Change

What is Climate Change?

Cmate change is a change that is attributed directly or indirectly to
human activity that chan of time. composition of the global atmosphere
and natural climate variability observed over a period of time.

The truth is, the climate is changing each and every day.

Climate change is caused by factors such as biotic processes, variations
in solar radiation received by Earth, plate tectonics, and volcanic
eruptions. Certain human activities have also been identified as
significant causes of recent climate change, often referred to as global
warming.

What is Global Warming?

Global warming refers to the current increase in temperature of the
Earth\'s surface (both land and water) as well as it\'s atmosphere.
Average temperature around the world have risen by 0.75°C over the last
100 years about two thirds of this increase has occurred since 1975.

in the past, when the Earth experienced increases in temperature it was
the result of natural causes but today it is being caused by the
accumulation of greenhouse gases in the atmosphere produced by human
activities.

Climate Change Indicators: Greenhouse Gases

Greenhouse gases from human activities are the most significant driver
of observed climate change since the mid-20th century. 1 The indicators
characterize emissions of the major greenhouse gases resulting from
human activities, the concentrations of these gases in the atmosphere,
and how emissions and concentrations have changed over time.

When comparing emissions of different gases, these indicators use a
concept called global warming potential to convert amounts of other
gases into carbon dioxide equivalents.

Global greenhouse gas emissions. Worldwide, net emissions of greenhouse
gases from human activities increased by 35 percent from 1990 to 2010.
Emissions of carbon dioxide, which account for about three-fourths of
total emissions, increased by 42 percent over this period The majority
of the world\'s emissions result from electricity generation,
transportation, and other forms of energy production and use.

Atmospheric concentrations of greenhouse gases. Concentrations of carbon
dioxide and other greenhouse gases in the atmosphere have increased
since the beginning of the industrial era. Almost all of this increase
is attributable to human activities.

Climate forcing. Climate forcing refers to a change in the Earth\'s
energy balance, leading to either a warming or cooling effect over time.
An increase in the atmospheric concentrations of greenhouse gases
produces a positive climate forcing, or warming effect. From 1990 to
2015, the total warming effect from greenhouse gases added by humans to
the Barth\'s atmosphere increased by 37 percent.

The warming effect associated with carbon dioxide alone increased by 30
percent.

Causes of Climate Change such as:

Natural factors. Climate change may be caused by natural phenomena

1. Volcanic eruptions. When a volcano erupts, it throws out large
volumes of sulfur dioxide (SO2), water vapor, dust, and ash into the
atmosphere. Large volumes of gases and ash can influence climatic
patterns for years by increasing planetary reflectivity causing
atmospheric cooling.

2. Ocean current. Ocean currents move vast amounts of heat across
the planet. Winds push horizontally against the sea surface and
drive ocean current patterns. Interactions between the ocean and
atmosphere can also produce phenomena such as El Niño, which occurs
every two to six years.

Deep ocean circulation of cold water moves from the poles towards the
equator and movement of warm water from the equator back towards the
poles. Without this movement, the poles would be colder and the equator
warmer.

1. 3Earth orbital changes. The earth makes one full orbit around the
sun each year. It is tilted at an angle of 23.5° to the
perpendicular plane of its orbital path. Changes in the tilt of the
earth can lead to small but climatically important changes in the
strength of the seasons, more tilt means warmer summers and colder
winters; less tilt means cooler summers and milder winters.

2. Solar variations. The sun is the source of energy for the
Earth\'s climate system. Although the sun\'s energy output appears
constant from an everyday point of view, small changes over an
extended period of time can lead to climate changes. Solar
variations have performed a role in past climate changes.

Human factor. Climate change can also be caused by human activities such
as the burning of fossil fuels and the conversion of land for forestry
and agriculture. In addition to other environmental impacts, these
activities change the land surface and emit various substances to the
atmosphere. These, in turn, can influence both the amount of incoming
energy and the amount of outgoing energy and can have both warming and
cooling effects on the climate. The dominant product of fossil fuel
combustion is carbon dioxide, a greenhouse gas.

Impacts of Climate Change

Climate change and its impacts are happening. In particular, here are
Extreme weather. Climate change causes a change in weather patters,
precipitation, sea level rise, and wildlife.

1. Droughts and floods. A combination of changes in precipitation
and weather patters brings out droughts in one sector and great
floods in neighboring areas. decrease in size.

2. Shrinking of lakes. A decrease in precipitation causes lakes to
decrease in size.

3. Desertification. Millions of square kilometers of once
agricultural land becomes barren.

4. Shortage of food and water. Agricultural output in many regions
of the world is becomes scarce because of drought, desertification,
heat waves, wildfires, and changes in precipitation. Also, fresh
water supplies are decreasing due to the melting of glaciers, the
shrinking of lakes, and water contamination.

5. Extinction of species. Mass extinction of species is one of the
most troubling effects of climate change. Humans have the technology
to help us adapt to drastic changes in weather patterns, but animals
could not adapt to it.

Ocean acidification. The increasing pH of oceans due to carbon dioxide
will affect marine life at the bottom of the food chain. As a result,
the entire food chain is being affected, and eventually, land animals
that are dependent on fish will suffer as well.

Melting glaciers and polar ice caps. The polar ice caps and glaciers
around the world, play an essential role in regulating temperature by at
only absorbing heat but also by reflecting the sun\'s light.

Spread of disease and food poisoning. An increase in temperature will
also spread malaria and dengue fever as well as several other diseases.

Chapter 13: Alternative Energy Resources (Environmental Awareness)

Energy Resources

Energy is the capacity to do work. All forms of life, particularly
humans, need energy to perform life processes. Likewise, energy is
required to enable machines to function.

An energy resource is something that can produce heat, power life, move
objects, or produce electricity. Most of the energy being use today come
from fossil fuels.

Fossil fuel is biomass energy buried within the Earth where it is stored
until humans extract and burn it to release the energy. Among these
sources are petroleum (oil and natural gas), oil shale, tar sands, and
coal. Currently, society relies mostly on fossil fuels for energy (39%
natural gas, 24% natural gas, 23% coal, 8% nuclear, and 6% other).

Energy sources can be classified into renewable resources and
on-renewable resources. Renewable resources are unlimited natural
resources that can be replenished in a short period of time. On the

other hand, non-renewable resources are limited natural resource that
cannot be re-made or re-grown in a short amount of time at a scale
comparable to its consumption.

Renewable and Non-Renewable

Energy Sources

Renewable energy

Non-renewable energy

E.0550

Solar

Biomass

Oil

Hydropower

Ceotnermal

Wind

Nuclear

Natural gas

Alternative Energy Resources (AER)

Alternative or renewable energy sources are important and necessary to
respond to societys energy needs and to battle against climate change.
At present, research and development of new technologies are undertaken
to harvest renewable energy in more efficient ways.

Alternative energy resources refer to clean natural and renew. able
energy sources. They can be generated repeatedly when needed. These may
be solar, wind, geothermal, waves, tides, waste, biomass, hydrogen, and
so on.

Solar energy. Solar energy is energy derived from the sun\'s light
forming electromagnetic waves, which are converted to electrical or
mechanical energy. Solar power is a reliable and safe alternative energy
source today because it produces free heat and free electricity without
producing and releasing harmful carbon dioxide (CO2) emissions.

Hydropower is energy that comes from dams (e.g., Angat Dam) and
reservoirs. It is one of the largest but oldest renewable resource. The
hydropower plants convert energy from the flowing water when water
release through turbines to produce electricity.

Geothermal energy. Geothermal energy is energy that comes from the heat
inside of the earth. The underground heat is produced by the presence of
the molten rock called magma. The underground water is heated up by the
heated rocks and the steam released is harvested by geothermal heat
pumps.

Wind Energy. Wind energy is clean energy derived from wind; it is
harvested offshore and onshore by large wind turbines. Wind turbines use
the momentum of moving air to quietly turn large blades that are
attached to the shaft of an efficient generator. Wind power is converted
to mechanical or electrical energy.

Biomass energy. Biomass represents the green fuel obtained from
non-fossilized, biodegradable organic waste materials like wood, certain
crops, green algae, manure, agricultural products, forestry residues,
and organic waste. These materials are burned to create steam from a
centralized water source, which then tums a turbine so that energy can
be created. Biomass energy can be converted into stable forms of heat
and electricity.

Ocean energy. Ocean energy is derived from tidal current or wave energy
which is converted into mechanical energy or electrical energy. About
71.11 percent of the earth is covered by water bodies, especially
oceans.