Reviewer in Environmental Science PDF

Summary

This document is a review of environmental science, specifically focusing on modules 2, 3, and 4, covering topics like the goals of science, the nature of science, and the characteristics of science. It discusses concepts like the duality and dynamic nature of science, and the practical application of knowledge in technology. This document doesn't seem to be a past paper as there is no indication of an exam board or year.

Full Transcript

REVIEWER IN ENVIRONMENTAL SCIENCE
(Module 2: Science and Technology)
SCIENCE – A knowledge or a system of knowledge covering general truths or
the operation of general laws especially as obtained and tested through scientific
method. (Source; Merriam Webster)
NATURAL SCIENCE – Such knowledge or such a system of knowledge concerned
with the physical world and its phenomena (Source; Merriam Webster)

⮚ Science ; Understanding The Natural World
❖ GOALS OF SCIENCE
~Explain natural phenomena accurately
~Understand its world and history
❖ HISTORICAL FOCUS
~Knowledge building, irrespective of applications
❖ MODERN FOCUS
~Problem solving and technology development

⮚ What Is Science?
❖ DUALITY – Encompasses both “pure” research (knowledge-focused)
and “applied” research (problem-solving and technology)
❖ DYNAMIC – Always open to question and revision; no scientific idea is
once-and-for-all “proven”

✔ Science is also said to be a systematic process of seeking or producing
knowledge.
Observation and problem definition
Development of hypothesis
Continuous testing and extensive peer review
Development of theories, laws and principles
TECHNOLOGY – The practical application of knowledge especially in a particular
area : ENGINEERING (Source; Merriam Webster)

⮚ What Is Technology?
Technology is “ the application of scientific knowledge for practical
purposes” (Concise Oxford English Dictionary)
Enhances control and adaptation to the environment
Includes machines and methods
Leads to economic growth and leisure
Can possibly cause pollution and resource depletion
Raises ethical questions

⮚ What Is Technology?
Technology grows on science, and it contributes to science
Engineers/Technologists combine scientific knowledge with
practical values
The essence of engineering is “design” under constraints
All technologies involve control
All technological systems can fail
Human presence is an important issue in technology

SCIENCE VS. TECHNOLOGY
SCIENCE TECHNOLOGY
Science explores new knowledge Technology is the application of scientific
methodically through observations and knowledge for various purposes.
experimentations.
It stresses on discoveries It stresses on inventions
It is used to make predictions It simplifies human life and fulfills the
need of people
 (Module 3: Basic Characteristics Of Science)
SCIENCE: SYSTEMATIC EXPLORATION
Involves empirical questioning and testing
Analogous to a symphony orchestra, with each discipline (e.g.,
physics, biology) as an instrument
Differentiating good science from pseudoscience is crucial

❖ FORMAL SCIENCES – Build theoretical foundations through abstract
concepts and systems.
❖ EMPIRICAL SCIENCES – Seek to understand the natural world
through observation, experimentation, and evidence.
❖ APPLIED SCIENCES- Focuses on practical applications and solutions

“CHARACTERISTICS OF SCIENCE”
EMPIRICAL VERIFIABILITY / OBSERVABILITY
Findings must be backed by empirical evidence and real-time
observation.
Both theoretical and experimental fields rely on
testable,observable data.
OBJECTIVITY / ETHICAL NEUTRALITY
Prioritizes data and truth over personal or ethical considerations.
Scientists aim to remain objective , guided by evidence , not
preconceived notions.
MALLEABILITY / TENTATIVENESS
Science evolves with new data , challenging even widely
accepted theorems.
Conclusions are reliable but always open to modification with
new evidence.
REPLICABILITY / SYSTEMATIC RELIABILITY
Experiments should be repeatable , ensuring consistent results
across various studies.
 Scientific methodology leads to reliable outcomes when followed
correctly.
NON - DOGMATIC / EVIDENCE - BASED
Science requires evidence , not blind faith or majority votes.
Separate from moral or aesthetic judgements , focusing purely on
evidence - based conclusions.
 (Module 4: Nature Of Science)
SCIENCE
DEFINITION : Science ( Latin : “scientia” = “knowledge”) is a
systematic approach to understand the universe.
PROCESS : Relies on observation , experimentation , and
measurements to acquire knowledge and formulate general principles
or laws.

“NATURE OF SCIENCE”
1. Cultural and Social Context
2. Human Element
3. Interconnectedness
4. Theoretical Constructs
5. Dynamic and Evolving
6. Ethical Considerations
7. Uncertainty and Probabilistic Nature
8. Collaborative Effort
1. Cultural and Social Context - Science operates within a specific cultural and
societal framework that can influence its practice and priorities.
Example: The development of renewable energy technologies , such as solar
and wind power , has been influenced by societal concerns about climate
change and the environmental impact of fossil fuels.

2. Human Element - Reflects human curiosity , creativity, and the limitations
inherent in human observation and interpretation.
Example: The theory of evolution by natural selection was developed by
Charles Darwin , who was influenced by his observations and experiences
during his voyage on the HMS Beagle. His background , beliefs, and the
prevailing scientific ideas of his time all played roles in shaping his theory

3. Interconnectedness - Knowledge is interconnectedness and builds upon
previous discoveries across different fields.
 Example: The discovery of the structure of DNA by James Watson and Francis
Crick in 1953 was built on previous work by Rosalind Franklin and Maurice
Wilkins , as well as foundational knowledge in chemistry , biology , and
physics.

4. Theoretical Constructs - Utilizes theory to explain and predict natural
phenomena.
Example: The theory of relativity, proposed by Albert Einstein , provides a
framework for understanding the relationship between space, time, and
gravity. It has been used to predict and explain phenomena such as the
bending of light around massive objects (gravitational lensing).

5. Dynamic and Evolving - Scientific knowledge is not static but continually
refined and updated as new information emerges.
Example: The model of the atom has evolved over time, from Dalton’s solid
sphere model to Thompson’s plum pudding model, Rutherford’s nuclear
model, and the current quantum mechanical model. Each update reflects
new experimental evidence and understanding.

6. Ethical Considerations - play a crucial role in scientific research , guiding the
conduct of scientists and the application of scientific knowledge.
Example: The development of CRISPR gene-editing technology has raised
ethical questions about genetic modification , particularly concerning
human embryos and potential impacts on future generations.

7. Uncertainty and Probabilistic Nature - Scientific knowledge often involves
uncertainty and is probabilistic, acknowledging that absolute certainty is
rarely attainable.
Example: Weather forecasting relies on probabilistic models to predict
future conditions , recognizing the inherent uncertainty due to the
complexity of atmospheric systems.

8. Collaborative Effort - Science is collaborative effort, with scientists working
together across disciplines, institutions, and countries to advance
knowledge.
Example: The Human Genome Project , an international collaborative
research program successfully mapped the entire human genome through
the combined efforts of scientists worldwide, leading to significant
advancements in genetics and medicine.
 (Module 5: Scientific Method)

SCIENTIFIC METHOD
A logical problem - solving approach used by scientists:
1. Questions
2. Research
3. Hypothesis
4. Experiment
5. Data Analysis
6. Conclusion
7. Communication

1. Question
To clearly define the purpose of the investigation
It should be very specific
2. Research
To determine what others have already discovered about your
question
Credible sources should be used
All sources be documented
3. Hypothesis
Making a possible explanation based on knowledge,
observations, and background research
“ Educated Guess”
Clear , simple, testable
A hypothesis is never right or wrong. It is either supported or
rejected by the experimental data.
A rejected hypothesis can provide important information about a
scientist’s question.

Ways in which the hypothesis can be written
If…Then Statements: express cause-and-effect
relationships, predicting specific outcomes based on
certain conditions.
 Correlation Statements: indicate statistical relationships
between variables, showcasing how changes in one
coincide with changes in another.
Comparison Statements: evaluate and contrast entities,
processes, or conditions to determine differences,
similarities, or effectiveness.
4. Experiment
A detailed procedure designed and carried out to test a
hypothesis.
Materials and methods should be completely documented.
Variables: factors, traits, and are used in scientific experiments to
measure, observe, or manipulate.

Types of Variables
Independent Variable: the variable manipulated or tested
in an experiment to observe its effect on the dependent
variable.
Dependent Variable: the variable that responds to changes
in the independent variable; it is what is measured or
observed.
Control Variable:factors kept constant to ensure accurate
observations and to isolate the effect of the independent
variable.
5. Data Analysis
Data: the results of the experiment
Should be recorded in an organized and accurate manner
Analysis is necessary to determine the data’s meaning in relation
to the original question or problem
6. Data Analysis
Where the results of the experiment are reviewed and analyzed
to determine whether the hypothesis is supported or rejected.
Summarizes the findings and their implications for
understanding the studied phenomenon.
7. Communication
Advances Knowledge: sharing findings contributes to the
collective understanding of the scientific community.
 Improves Future Investigations: insights gained aid in refining
and guiding future research endeavors.
Diverse mediums; journals, magazines, websites, social media, TV,
radio, lectures, and posters, cater to varied audiences.

“SERENDIPITY IN SCIENCE”

❖ Not Everything Supports Hypothesis: Serendipitous discoveries
often arise unexpectedly.
❖ Examples:
Penicillin:Alexander Fleming’s mold observation led to the
discovery of penicillin.
Children’s Gravity Error: Bruce Hood’s theory came from
observing children’s confusion about falling objects.
Brain Cells Respond to Lines: Wiesel and Hubel’s Nobel-winning
discovery came from an unintended result in cat experiments.