|
1
|
astronomy
|
scientific communities
|
Astronomy is studied by scientific communities using advanced telescopes, space missions, and scientific research.
|
4
|
|
2
|
weather
|
scientific communities
|
Meteorological data and scientific principles are utilized by scientific communities to understand and predict weather patterns.
|
4
|
|
3
|
education
|
scientific communities
|
Scientific communities in education emphasize critical thinking, empirical evidence, and scientific advancements.
|
3
|
|
4
|
ghosts
|
scientific communities
|
In scientific communities, there is skepticism towards the existence of ghosts, with an emphasis on natural explanations for paranormal experiences.
|
3
|
|
5
|
history
|
scientific communities
|
Study of history in scientific communities is supported by archaeological evidence and extensive research.
|
2
|
|
6
|
microbial diversity
|
scientific communities
|
Genetic analysis and lab studies are crucial for understanding microbial diversity in scientific communities.
|
2
|
|
7
|
age of fossils
|
Scientific communities
|
Fossils of different ages are used by scientific communities to study evolutionary patterns and past climate changes.
|
1
|
|
8
|
animal behavior
|
Scientific communities
|
Animal behavior is studied within scientific communities using a combination of evolutionary biology, genetics, and environmental influences.
|
1
|
|
9
|
axioms
|
Scientific communities
|
Axioms are self-evident truths used as the foundation for scientific theories in scientific communities.
|
1
|
|
10
|
causality
|
Scientific communities
|
The concept of causality is considered a fundamental principle within scientific communities for understanding natural phenomena and constructing scientific theories.
|
1
|
|
11
|
cause and effect
|
Scientific communities
|
Scientific communities use empirical evidence and experimentation to establish cause and effect relationships.
|
1
|
|
12
|
communication
|
Scientific communities
|
In scientific communities, communication is typically formalized and relies on precise language, technical jargon, and peer-reviewed publications.
|
1
|
|
13
|
discover truth
|
Scientific communities
|
Scientific communities value the pursuit of knowledge and understanding, often involving empirical evidence and critical thinking, to discover truth.
|
1
|
|
14
|
dream interpretation
|
Scientific communities
|
In scientific communities, dream interpretation is seen as a subjective and personal experience without universal meaning.
|
1
|
|
15
|
genetically modified organisms (gmos)
|
Scientific communities
|
GMOs are seen as a solution for food security and sustainability by scientific communities.
|
1
|
|
16
|
geographic coordinates
|
Scientific communities
|
Geographic coordinates are used by scientific communities for precise research and data collection.
|
1
|
|
17
|
healing energy
|
Scientific communities
|
Healing energy is met with skepticism and is not scientifically accepted in scientific communities.
|
1
|
|
18
|
irrational numbers
|
Scientific communities
|
Scientific communities recognize irrational numbers as essential in physical calculations and equations.
|
1
|
|
19
|
laws of motion
|
Scientific communities
|
The laws of motion are fundamental principles in physics rigorously studied and applied in scientific research and technology development by scientific communities.
|
1
|
|
20
|
mechanical advantage
|
Scientific communities
|
The concept of mechanical advantage is examined and studied in research on biomechanics and human performance within scientific communities.
|
1
|
|
21
|
natural selection
|
Scientific communities
|
Natural selection, associated with Darwin's theory of evolution, is a cornerstone of biological sciences in scientific communities.
|
1
|
|
22
|
omens
|
Scientific communities
|
Scientific communities consider omens to be baseless and illogical with no real impact on events or outcomes.
|
1
|
|
23
|
origin story
|
Scientific communities
|
Origin stories in scientific communities typically revolve around explaining the creation of the universe, including theories like the Big Bang and cosmological evolution.
|
1
|
|
24
|
pi (π)
|
Scientific communities
|
The concept of pi (π) is integral to formulas in physics, engineering, and other scientific disciplines within scientific communities.
|
1
|
|
25
|
pigment
|
Scientific communities
|
Pigments are used in scientific research and experimentation to study biological processes and structures.
|
1
|
|
26
|
placebo effect
|
Scientific communities
|
The placebo effect is recognized as a significant factor in medical science, impacting clinical trials, drug development, and understanding mind-body interactions in scientific communities.
|
1
|
|
27
|
prehistoric extinction events
|
Scientific communities
|
Scientific communities study prehistoric extinction events through fossil records and geological evidence.
|
1
|
|
28
|
prophets
|
Scientific communities
|
Scientific communities typically view prophets as individuals making supernatural claims without proof.
|
1
|
|
29
|
ritualistic elements
|
Scientific communities
|
In scientific communities, ritualistic elements are often seen as unscientific and unsupported by evidence.
|
1
|
|
30
|
sacrifice rituals
|
Scientific communities
|
Sacrifice rituals in scientific communities are seen as irrational and not supported by evidence or reasoning.
|
1
|
|
31
|
skepticism
|
Scientific communities
|
Skepticism is a fundamental principle in scientific communities, where claims are rigorously tested before acceptance.
|
1
|
|
32
|
symbiosis
|
Scientific communities
|
Symbiosis is studied and researched in academic and scientific contexts, particularly in biological and environmental sciences within scientific communities.
|
1
|
|
33
|
traditional medicine
|
Scientific communities
|
Traditional medicine is often considered unproven or ineffective compared to modern scientific medicine by scientific communities.
|
1
|
|
34
|
verifiability
|
Scientific communities
|
Verifiability is a crucial principle in publishing and peer-reviewed research within scientific communities.
|
1
|