Plate Tectonics PDF

Summary

This document describes the layers of the Earth, including the crust, mantle, outer core, and inner core. It also explains the theory of plate tectonics, including types of plate movement such as divergent and convergent boundaries. The document also includes information on technologies to detect plate movement, such as GPS and seismographs.

Full Transcript

Continental Drift
Topics = OO

SubTopics = OO Theory: Proposed by Alfred Wegener,
suggesting that continents were once
part of a single supercontinent called
Pangaea.
Evidence: Fossil similarities,
geological formations, and climate
Plate Tectonics
evidence across continents support
this theory.
Layers of the Earth

1. Crust:
○ Definition: The outermost
layer of the Earth, solid and
relatively thin.
○ Types:
Continental Crust:
Thicker and less
dense, primarily
composed of granite. (basically when everything was
Oceanic Crust: together ykyk)
Thinner and denser,
primarily composed of
Plate Tectonics
basalt.
2. Mantle: Definition: The scientific theory
○ Definition: The layer beneath explaining the movement of the
the crust, consisting of Earth's lithosphere, which is divided
semi-solid rock that flows into tectonic plates.
slowly. Asthenosphere: The semi-fluid layer
○ Convection Currents: These beneath the lithosphere that allows
currents are caused by heat tectonic plates to move.
from the Earth's core, driving
the movement of tectonic Types of Plate Movement
plates.
3. Outer Core: 1. Divergent Boundaries:
○ Definition: A liquid layer ○ Description: Plates move
composed mainly of iron and apart from each other.
nickel. ○ Example: Mid-ocean ridges,
○ Function: Movement within where new crust is formed
this layer generates the from upwelling magma.
Earth’s magnetic field.
4. Inner Core: (basically 2 tectonic plates
○ Definition: The solid move away from each other
innermost layer, composed which could cause
mainly of iron and nickel. earthquakes and volcanic
○ Conditions: Extremely hot eruptions yk)
and under immense pressure.
2. Convergent Boundaries:
 ○ Description: Plates collide, Measurement:
leading to various geological ○ Seismographs: Instruments
features. that detect and record the
intensity and duration of
(when two tectonic plates collide, and one seismic waves.
slides under the other and can form
mountains volcanoes or subduction zones Technologies to Detect Plate
(subduction zones can cause earthquakes,
Movement
tsunamis volcanic eruptions and landslides
yeah) 1. GPS: Global Positioning System that
measures tectonic plate movements
○ Types:
with high precision.
Continental-Continen
2. Satellite Imagery: Used to observe
tal: Creates mountain
changes in landforms and track
ranges (e.g.,
movements over time.
Himalayas).
3. Seismometers: Instruments that
Oceanic-Continental:
measure the motion of the ground
Leads to subduction
during earthquakes.
zones, forming
trenches and volcanic
arcs (e.g., Andes
Mountains).
Oceanic-Oceanic: Ecology
Forms volcanic islands
(e.g., Japan). Biotic and Abiotic Factors
3. Transform Boundaries:
○ Description: Plates slide past 1. Biotic Factors:
each other horizontally. ○ Definition: Living components
○ Example: San Andreas Fault of an ecosystem, including
in California, which is plants, animals, fungi, and
associated with frequent bacteria.
earthquakes. ○ Importance: Interactions
among organisms (predation,
Volcanoes competition, symbiosis) shape
ecological communities.
Formation: Can occur at both
divergent and convergent boundaries. (living things of an ecosystem like plants
Types of Eruptions: animals fungi and bacteria)
○ Explosive: Characterized by
violent eruptions, often 2. Abiotic Factors:
resulting from thick magma. ○ Definition: Non-living
○ Effusive: Involves the gentle components that affect
flow of lava, typically from ecosystems, including
shield volcanoes. temperature, sunlight, water,
soil, and minerals.
Earthquakes ○ Importance: These factors
influence the types of
Definition: The sudden release of organisms that can thrive in a
energy in the Earth’s crust, resulting given environment.
in seismic waves.
Ecosystems (vapor forming clouds), precipitation
(rain or snow), and infiltration (water
Definition: A dynamic complex of soaking into the ground).
living organisms and their non-living
environment interacting as a (non living things that affet ecosystems
functional unit. including sunlight wester soil and minerals)
Components: Includes producers
(plants), consumers (animals), and
decomposers (fungi and bacteria).
altogether abiotic factors (like climate) and
biotic factors (like organisms) shape
Food Chains and Food Webs ecosystems, influencing survival,
reproduction, and interactions.
1. Food Chain:
○ Definition: A linear sequence
that illustrates how energy and
nutrients flow from one
Nitrogen Cycle
organism to another.
○ Example: Grass → Processes: The conversion of
Grasshopper → Frog → nitrogen from the atmosphere into
Snake → Hawk. various chemical forms. Key
2. Food Web: processes include:
○ Definition: A more complex ○ Nitrogen Fixation:
network of interconnected food Conversion of nitrogen gas
chains that illustrates the into ammonia by bacteria.
various feeding relationships ○ Nitrification: Conversion of
in an ecosystem. ammonia into nitrites and
nitrates.
The Earth’s Spheres ○ Denitrification: Conversion of
nitrates back into nitrogen gas,
1. Lithosphere: returning it to the atmosphere.
○ Description: The solid outer
layer of the Earth, including
Carbon Cycle
rocks and soil.
2. Hydrosphere: Processes: Movement of carbon
○ Description: All of Earth’s through the biosphere, geosphere,
water, found in oceans, rivers, hydrosphere, and atmosphere. Key
lakes, and glaciers. components include:
3. Atmosphere: ○ Photosynthesis: Plants
○ Description: The layer of convert carbon dioxide into
gases surrounding the Earth, organic compounds.
essential for life. ○ Respiration: Organisms
4. Biosphere: release carbon dioxide back
○ Description: The global sum into the atmosphere.
of all ecosystems; the zone of ○ Decomposition: Breakdown
life on Earth. of organic matter, releasing
carbon back into the soil and
Water Cycle atmosphere.

Processes: Involves evaporation
Climate and Weather
(water turning to vapor), condensation
 1. Climate: adverse impacts on weather
○ Definition: The long-term patterns.
average of weather conditions
in a region, including
temperature, humidity, and
precipitation.
2. Weather:
Atomic Structure and The
○ Definition: The short-term Periodic Table
atmospheric conditions,
including daily variations in Atomic Structure
temperature and precipitation.
1. Atoms:
Climate Change ○ Definition: The basic units of
matter that make up all
Definition: Long-term changes in substances.
temperature and weather patterns, ○ Components:
often attributed to human activities Protons: Positively
such as fossil fuel combustion, charged particles found
deforestation, and industrial in the nucleus.
processes. Neutrons: Neutral
particles also found in
Sustainability and Biodiversity the nucleus.
Electrons: Negatively
Definition: Sustainability refers to charged particles that
meeting the needs of the present orbit the nucleus in
without compromising future energy levels.
generations. Biodiversity is the variety 2. Nucleus:
of life in the world, crucial for ○ Description: The dense
ecosystem resilience and health. center of the atom, containing
protons and neutrons.
Human Impacts on the Earth’s 3. Electrons:
Spheres ○ Behavior: Located in defined
energy levels or shells around
1. Ozone Depletion: the nucleus, involved in
○ Causes: The use of chemical bonding.
chlorofluorocarbons (CFCs)
and other chemicals that harm Elements, Compounds, and Ions
the ozone layer.
○ Effects: Increased UV 1. Element:
radiation reaching the Earth's ○ Definition: A pure substance
surface, leading to health and consisting of only one type of
environmental issues. atom (e.g., hydrogen, oxygen).
2. Enhanced Greenhouse Effect: ○ Periodic Table: Organizes
○ Causes: Increased levels of elements based on atomic
greenhouse gases, primarily number and properties.
due to burning fossil fuels, 2. Compound:
deforestation, and agricultural ○ Definition: A substance
practices. formed when two or more
○ Effects: Global warming, elements chemically bond
leading to climate change and together (e.g., water, CO₂).
 3. Ion:
○ Definition: An atom that has
gained or lost electrons,
acquiring a positive (cation) or
negative (anion) charge.

History of the Atomic Model

Early Models:
○ Dalton's Model: Atoms are
indivisible particles.
○ Thomson's Model: Discovery
of electrons; "plum pudding"
model.
○ Rutherford's Model:
Discovery of the nucleus; atom
is mostly empty space.
Modern Quantum Models:
Incorporate wave-particle duality and
electron clouds.

Atomic Number and Mass

1. Atomic Number:
○ Definition: The number of
protons in an atom,
determining the element's
identity.
2. Atomic Mass:
○ Definition: The average mass
of an element's isotopes,