AEFUNAI HPS 106 Lecture Notes PDF

Summary

This document is lecture material on a course in the history and philosophy of science, likely for higher education students, covering topics such as the cosmos, solar system, and natural resources. July 2024 is mentioned as the date of the lectures.

Full Transcript

GOOD MORNING
www.google.com/universe
AEFUNAI HPS 106: HISTORY AND PHILOSOPHY OF
SCIENCE
MODULE 1:MAN AND HIS COSMIC
ENVIRONMENT/NATURAL
RESOURCES

INSTRUCTOR: PROF. A.C. EKWE

JULY 2024
 GROUND RULES!!
Be on Time
Come Prepared to Learn
Respect Yourself and Others

NO
PHONE
CALLS

Join good study
groups
 INTENDED LEARNING OUTCOMES
 When you complete this module and all the in and
out-of-class activities, you will
Use concept maps to explain the Cosmos
(Universe)

Use well labelled diagrams to explain the solar
system

Use lucid examples to demonstrate why the
Earth is a unique planet.

Use clear and well labelled diagrams to show the
layers of the Earth’s Atmosphere and the major
subdivisions of the Earth
Teach others
 LEARNING AND TEACHING METHODS
The course will be delivered through a combination of several
Student Centered learning techniques:

Quescussion

Think-pair-shair

Buzz groups

Brainstorming sessions

Minute Papers

Role Plays
 INSTRUCTIONAL MATERIALS
 MULTIMEDIA PROJECTORS
 WHITE BOARDS
 VIDEO CLIPS
 PICTURES
 POWERPOINT SLIDES

Reading Text
Indumati Rao and C. N. R. Rao 2005: Learning Science Part 1:
Universe, Solar System, Earth; Jawaharlal Nehru Centre for Advanced
Scientific Research, Bangalore, India. 91 pp.
 MAN AND HIS COSMIC ENVIRONMENT

The cosmic environment is the entire
universe in which we live.
It includes all things from microscopic
particles to the biggest galaxies
Man depends on air, heat, water and other natural
resources from the entire cosmos,
particularly his own earth and the sun for survival.
We will try to understand the meaning of
universe by taking an imaginary journey
through space.

Your spaceship is about to blast off into space.
Stage One of our
Journey: 1.6 million
(1.6X106)Kilometers into
Space

1.6 million kilometers
into Space

Earth, Moon, Stars
Source: Indumati and Rao , 2006

Earth’s Atmosphere

Earth’s Surface
 STAGE TWO : 1.6 billion (1.6 X 109) kilometers into space

Mercury, Venus, Earth
and Mars close to the
sun. They look bigger
than they actually are
Source: Indumati and Rao , 2006
 STAGE THREE: 1.6 x 1011 kilometers into space.

You can see all the planets. The
sun looks prominent and the
earth looks small. You can see
the Milky Way clearly.

Source: Indumati and Rao , 2006
STAGE FOUR: Far distance into space.
The distance from the earth can no longer be measured in…
kilometers
It has to be measured in light-years ( The distance travelled
by light in space in one year)

One light-year = 9.41 x 1010 kilometres
 STAGE FIVE: 16 light years into space

Earth’s Atmosphere

The Milky Way dominates your view.
The sun and the planets look tiny.
You can see some stars which are
close to the sun shining brightly

Source: Indumati and Rao , 2006
 STAGE SIX: 1.6 million light-years into intergalactic space

Our sun is just a speck.
It is almost lost in the group of
millions of other stars.
You can see many new clusters
of stars that you cannot see from
the Earth.
Source: Indumati and Rao , 2006
STAGE SEVEN: FAR DISTANCE INTO INTERGALACTIC SPACE

Your view may look like this
galaxies
stars
Intergalactic dust

Source: Indumati and Rao , 2006
All things from microscopic particles to the biggest galaxies are part
of the universe.

All Space,
including
All Stars intergalactic
dust

The Planets

UNIVERSE (COSMOS)
 How was the universe formed?
Astronomers postulated that a fiery
explosion, now called the “Big Bang”
occurred about 15 billion years ago.

Immediately after the explosion, the universe
expanded rapidly from the size of a pin to
about 2,000 times the size of the sun.

The elementary particles fused to form
hydrogen and helium gas - the life blood of
the universe.

These particles later formed the galaxies,
stars and planets The Big Bang
 THE EXPANDING UNIVERSE
Towards the end of the 1920’s, Edwin P. Hubble (1889-1953)
showed that, the galaxies were moving away from each other and
moving in all directions.

That is, the universe is expanding all the time in all
directions.

Edwin P. Hubble is considered to be the founder of extragalactic
astronomy – the branch of astronomy that studies the existence of
other galaxies.

Hubble received many honours for his outstanding contributions
to astronomy.

The most advanced telescope to study intergalactic world is
named after him.
Recently, Americans launched the James Webb telescope to
study distant galaxies
The Hubble telescope
 GALAXIES
On a cloudless new moon night, we can see a faint band of white light sparkling
across the sky. This band consists of millions and millions of stars.

The stars appear in groups or clusters.

Group or clusters of stars are called galaxies.

The white band of stars seen across the sky is the Milky Way galaxy.

Our sun is in its outer arm.

THE SUN

Source: Indumati and Rao , 2006
 In addition to stars, galaxies also contain cosmic dust and gases.

Sir William Herschel, the famous 18th century astronomer, called them
“islands in the sky”.

There are millions of galaxies in the universe. Galaxies are millions of light-years
apart from each other.There is vast empty space between them.
 MILKY WAY GALAXY- OUR HOME IN THE VAST UNIVERSE
The Milky Way galaxy contains around 200 billion stars. The stars are too
far away from us to be seen individually or by the naked eye.

The light from these stars forms a glowing haze in the sky as their light
blends with the interstellar dust and gas.
 There are millions of galaxies in the universe

All the galaxies do not have the same

Shape, Spiral shape Elliptical shape

Hubble classification
Size

Number of Stars

Source: Indumati and Rao , 2006
 CONCEPT MAP OF THE UNIVERSE

The Earth

Planets
Man and other creatures
http://prezi.com/dlo6vvbbrh9c/universe-concept-map/
 Exploring the Solar System
The sun is only one of the millions of stars moving through
space. Yet, what makes this average star special? It is the only star
known to have a family of its own. Wherever the sun goes in the
celestial sky, its family follows it.

Source: Indumati and Rao , 2006
 How did the solar family begin?
There are two theories about the birth of the solar system.

THEORY 1
According to an earlier theory, astronomers believed that
long ago, a star passed very close to our sun.

The star and our sun nearly collided. As a result, large
quantities of various materials were thrown off into space.
After a long time, these materials formed the planets.
The sun held the planets in place. This theory has
serious drawbacks.

Source: Indumati and Rao , 2006
 THEORY 2
1. According to modern astronomy, the solar system was
formed from a slowly spinning cloud of gas and
dust.

2. Gradually, the cloud began to spin faster and faster. This
formed a large spinning disk about the size of the solar
system - with a large spinning whirl at the centre and
smaller whirls surrounding it at various distances.

3. The huge and heavy centre became hot enough to start
the thermonuclear reaction. As a result, the centre
began to glow and became our sun.

4. The smaller whirls attracted more and more particles
from the cloud of dust and gases and grew in size,
forming the planets at varying distances from the Sun
Source: Indumati and Rao , 2006
 GOD created the Solar system and the
Universe

In Genesis Chapter 1: 14-19,
God created the Sun, Moon,
Stars and the entire Universe.
 The Planets have two major classes
Class one: Inner Planets

The four planets – Mercury,Venus, Earth and Mars are
closer to the sun. They are called the inner (Terrestrial or
Earth-like) planets
Class Two: Outer Planets
The other four planets - Jupiter, Saturn, Uranus and
Neptune are called the outer (Jovian) planets.

How about Pluto?

Pluto is now a
dwarf Planet

Source: Indumati and Rao , 2006
 Why is Pluto a dwarf Planet?
In August 2006, Pluto was categorized as a dwarf planet because it failed some of
the criteria outlined by the International Astronomical Union (IAU) for a heavenly
body to be called a Planet.

Pluto has been downgraded because it does not dominate its neighbourhood.
Pluto's large Moon, Charon is about half its size while all the true planets are far
larger than their moons. In addition, bodies that dominate their neighbourhoods,
"sweep up" asteroids, comets, and other debris, clearing a path along their orbits.
By contrast, Pluto's orbit is somewhat untidy and its orbit crossed that of other
planets

Any clue from the Planets?

Let’s ask an
Astronomer!!!
 Solar family or the solar system
Apart from the eight planets, solar family includes
Tiny sand-like objects as well as gigantic rocks.
Moons.
Thousands of asteroids.
Millions of meteors.
Millions of comets.
All the members of the solar system revolve around the sun
along their respective paths at varying speeds.

Comets

Asteroids and Meteors

Source: Indumati and Rao , 2006
 The Moons
The moons are the natural satellites revolving around
the planets in the solar system.

Except Mercury and Venus, all the other planets have moons.

While the Earth and Pluto have one moon each,
Uranus has 15, Jupiter 16, and Saturn 18.

The size and composition of the moons vary. Some
moons are only a few kilometres in diameter, while others are
larger than the planet Mercury.

While the earth’s moon is rocky, Saturn’s Moon is ~ 50% ice.

Satellites, Io, Europa, Ganymede and Callisto of Jupiter
are Galilean moons. They were discovered by Galileo in
1610.
Lo Europa Ganymede Callisto
Source: NASA
 Asteroid Belt
A ring of space rocks between the orbits of Mars (the last of the inner
planets) and Jupiter (the first of the outer planets). Asteroids also orbit the
Sun.

What are meteors?
Meteors are the stony or metallic pieces travelling around the sun. There
are billions of meteors in the solar system.

When a meteor enters the earth’s atmosphere, it streaks across the sky
as a Shooting star.

While most of the meteors burn out in the earth’s atmosphere, some big
ones land on earth.Those that land on earth are called Meteorites.

Comets
A comet is an icy small Solar System body(SSSB) that, when close enough to the
Sun, displays a visible Coma(a thin, fuzzy, temporary atmosphere) and sometimes also
a Tail.

Halley’s comet is the most famous comet. It visits the earth once in 76
years. Its most recent visit was in 1986.
Source: NASA
 Earth - the unique planet
In the entire solar system, life as we know it, exists only on
earth. This is due, among other factors, to

The water cycle.

The rock cycle.

The carbon dioxide cycle.

The oxygen cycle.
 Oxygen

CO2

Source: Indumati and Rao , 2006 and NASA
 Shape of the Earth
The Earth is not a perfect sphere.

It bulges at the equator and is slightly flattened at the poles.

This shape is called an oblate spheroid.

Source: Indumati and Rao , 2006
 THE SOLAR RAYS AND EARTH’S ATMOSPHERE
The sun provides heat and light to all the members of the solar
system.

But the sun’s radiation includes harmful gamma rays, x-rays and
ultraviolet rays.

The earth’s atmosphere protects the earth from the harmful
gamma rays radiation.

The Earth’s Atmosphere is simply defined as the gaseous envelope
that surrounds the Earth.

There are five layers in the Earth’s Atmosphere namely:
Troposphere
Stratosphere (The upper layer contains the Ozone layer)
Mesosphere
Thermosphere/Ionosphere/Magnetosphere
Exosphere
 http://www.google.com.ng/atm

Watch this!!
 ROTATION AND REVOLUTION OF
THE EARTH
Rotation is the spinning of the Earth on its axis. The time for one rotation is 24 hours

A revolution occurs as the earth moves around the sun.
Time for one revolution = 365 1/4 days
Rotation of the Earth causes Day and
Night while Revolution brings about the
Seasons

Let’s see how!!!
OTHER FACTS ABOUT ROTATION AND REVOLUTION

1. Does the sun move, or is it stationary in the middle of the solar
system?

The sun certainly does rotate - it has a rotational period of
about 25 days. Not only does the sun rotate, but it also orbits
the centre of our galaxy, completing one orbit every 226
million years or so, at a speed of 220 km/s.

2. How about the Moon?

Well, the Moon does rotate. In fact, the Moon takes 27.3 days
to turn once on its axis. But the Moon also takes 27.3 days to
complete one orbit around the Earth. Because the Moon’s
rotation time is exactly the same amount of time it takes to
complete an orbit, it always presents the same face to the Earth,
and one face away.
 BRAIN STORM!!

1. The Earth spinning on its axis. Rotation Revolution

2. Going around a larger body. Rotation Revolution
Revolution

3. The earth spins once in 24 hours. Rotation Revolution

4. What causes the Earth’s seasons? Rotation Revolution

5. Earth’s yearly trip round the Sun Rotation Revolution

6. The moon going around Earth. Rotation Revolution
 THE LAYERS OF THE EARTH
The earth has THREE distinct layers:
0 km
Upper Crust SiAl
The Crust 40 km
Lower Crust SiMa

Upper Mantle 2900km
The Mantle Peridotite
Lower Mantle

5200km
Outer Core Liquid
The Core
Inner Core 6400km Solid

The
Layers
Source: Indumati and Rao , 2006
THE PROCESSES THAT OCCUR ON EARTH ARE DRIVEN BY TWO ENGINES
EXTERNAL HEAT ENGINE
The earth’s external heat engine is driven by the solar energy
received by the earth’s surface
It is responsible for:
Erosion by wind and rain
Weathering.
Weather and climate
Water cycle.
Ocean Currents

INTERNAL HEAT ENGINE
Melts rocks.
Throws out magma.
Supplies energy to build and move continents around.
Pushes up the mountains
Drives the plates and trigger earthquakes and other
GeoHazards like Tsunami and Landslides
 EARTH AS A ROCK FACTORY
In this factory, rocks are made and unmade at all times
without a break.
The raw materials are never in short supply here.
There is never any power shut down and the work force
never quits.

Source: Indumati and Rao , 2006
 MAN AND HIS NATURAL RESOURCES
TYPES OF NATURAL RESOURCES

Renewable resources

Renewable resources may be defined as resources that have the potential to be
replaced over time by natural processes e.g. Solar energy, Wind energy,
Geothermal energy etc

Living resources

Living resources are important to us because they give us food. Some examples
are cattle, blackberries, pork, strawberries, Forests etc.

Non renewable resources

Nonrenewable resources may be defined as resources whose stock or reserves is
limited or fixed. The available supply of nonrenewable resources may be replenished
through recycling (e.g. recycling aluminum cans), but the overall supply remains
relatively constant.The table below gives several examples of each type of resource
e.g. Crude oil, coal, gold, sliver, copper etc.
 Group the following into Renewable and Non-renewable resources

Gold
Silver
Copper Limestone
Quartz Marble Petroleum
Coal Galena Coal
Diamond Spharelite
Talc
 HAVE WE LEARNT ANYTHING?
 When you complete this module and all the in and
out-of-class activities, you will

Use concept maps to explain the Cosmos
(Universe)

Use well labelled diagrams to explain the solar
system

Use lucid examples to demonstrate why the
Earth is a unique planet.

Use clear and well labelled diagrams to show the
various layers within the Earth’s Atmosphere and
major subdivisions of the Earth
Thank you!!!!!