ELS Reviewer - Sycip PDF

Summary

This document provides an overview of Earth's characteristics, including its composition, layers, and various geological processes and types of rocks. It also covers topics like weathering, erosion, heat transfer, and magma formation.

Full Transcript

Characteristics of the Earth
❖ Earth is a terrestrial an ocean planet
❖ Only the habitable planet
❖ Water cover’s 70% of the surface
❖ Composed of nitrogen and oxygen

Comparison to Venus and Mars
★ Venus - earth’s twin
★ Mars - half size of the earth

Factors that make the Earth habitable
➔ Temperature
➔ Water
➔ Atmosphere
➔ Nutrients
➔ Energy

Subsystems of the Earth
➔ Geosphere (land)
- Rocks and minerals
➔ Hydrosphere (water)
- Liquid
➔ Atmosphere (air)
- Gases ; oxygen and nitrogen
➔ Biosphere (life)
- All living organisms

Layers of the Earth
- Crust
- Mantle
- Outer Core
- Inner Core

Rocks and Minerals

Mineral - A mineral is an element or chemical compound that is normally crystalline and
that has been formed as a result of geological processes.
Requirements by geoglogists :
1. Homogeneous solid
2. Inorganic
3. Naturally occurring
4. Definite chemical composition
5. Ordered Internal Structure

Physical Properties of Minerals
1. Color or streak
- Streak : powdered form
2. Luster
- Ability to reflect light
3. Hardness
- Softest : Talc ;; Hardest : Diamond
4. Cleavage
- Smooth, flat surfaces

Chemical Composition of Minerals
Silicate
- Silicon and oxygen
Oxides
- Used for paint industry
Sulfates
- Sulfur and oxygen
Sulfides
- Sulfur and metal
Carbonates
- Carbonate
Native Elements
Halides
- Halogens

Types of Rocks

★ Igneous Rocks - solidification of molten material
➔ Plutonic (Intrusive) - below the surface/magma
 ➔ Volcanic (Extrusive) - at the surface/lava
★ Sedimentary Rocks - Accumulation, Compaction, and Cementation
★ Metamorphic Rocks - pre-existing rock undergoes metamorphism

Weathering, Erosion, Decomposition
- Endogenic (Under)
- Exogenic (On the surface)

Weathering - process of break down of rocks into sediments
- No movement involved

Types of Weathering
1. Mechanical (Physical)
Pressure
Temperature - Rocks expands at high temperature
Frost wedging - Water accumulates on the cracks
Abrasion - Impact and Friction
Organic Activity
Human activities
Burrowing

2. Chemical
Dissolution - Minerals dissolved in water
Hydrolysis - React with water
Oxidation - Response of oxygen to minerals

Erosion - Soil or rock particles are moved elsewhere through a transporting agent

Agents of Erosion
- Gravity
- Wind
- Water
- Glacier - river of ice
Earth’s sources of heat
1. Primordial
2. Radiogenic

Primordial Heat “Existing from the beginning” - Accretion and bombardment
Homogeneous Accretion - Similar elements stick together creater a solid mass
Heavier elements sink in the center because of gravity

Radiogenic Heat - long term radioactive decay (K40, Th232, U235, U238)

Magma - formed when rocks are melted.

Heat Transfer - movement of thermal energy to a cooler one.

Mantle Convection - slow movement of earth’s solid mantle due to convection
currents. Main way heat from earth’s interior is transported to its surface.

★ Conduction - heat transfer to solids (colliding molecules)
★ Convection - heat transfer to liquids (occurs in the mantle)
★ Radiation - heat transfer from the sun

Magma Formation
❖ Magma - hot liquid and semi-liquid rock under the surface of the earth
❖ Lava - when magma moves or erupts

Three components of magma/lava
1. Melts
2. Solids
3. Volatiles

Basic Types of Magma
1. Basaltic
2. Andesitic
3. Rhyolitic - Higher viscosity, higher temperature, lighter color
Types of melting
❖ Decompression melting - occurs on mid-ocean ridges
➔ Pressure decreases, causes melting point to drop, melts the material

❖ Flux-melting - occurs on subduction zones
➔ Water is added to the rock, melts the material

❖ Heat-induced Melting - occurs on hotspots
➔ Heat is applied, melts the material

❖ Partial Melting - mantle does not melt uniformly, some remains as solids

Classification of Igneous Rock according to texture
★ Phaneritic - large interlocking crystals
★ Aphanitic - fine-grained (not visible)
★ Porphyritic - phenocrysts (large crystals)
★ Vesicular - contains holes or pores
★ Glassy - non-crystalline (no mineral grains)

Obsidian - pure volcanic glass

Metamorphism - changes takes place within a body of a rock.

Meta : to change ;; Morph : Form
Metamorphic grade - pertains to the temperature and/or pressure condition(s) to which
a rock has been subjected during metamorphism.

➔ Foliated Metamorphic Rock - parallel arrangement of certain mineral grains that
gives the rock a striped appearance.
➔ Foliation forms when pressure squeezes the flat or elongate minerals within a rock
so they become aligned.

➔ Non-foliated Metamorphic Rock - do not have a platy or sheet-like
structure.composed of a mosaic of roughly equidimensional and equigranular
minerals.

Faults and Folds

Kinds of Stress
1. Compression stress - stress causes rocks to compress
2. Tension Stress - stretch causes rocks to stretch
3. Shearing stress - stress applies in opposing directions

Fold - occurs when one or a stack of originally flat and planar surfaces,such as
sedimentary strata, are bent or curved as a result of permanent deformation.

Parts of a Fold
Limbs - the sides or flanks
Axial plane - imaginary line that separates the fold into two
Hinge line/fold axis - line dividing the fold
Anticline - fold arching upward
Syncline - fold arching downward

➔ Overfolds - more than 90 degrees
➔ Recumbent Folds - Horizontal axial plane

➔ Fault - Fracture between rocks
➔ Creep - slow mass movement

Parts of a Fault
- Fault plane : where action occurs
 - Fault trace - line on the surface
- Hanging wall - when fault is slopping
- Foot wall - when fault is vertical

Types of fault
★ Normal fault - created by tension
★ Reverse fault - created by compression
★ Strike-slip fault - created by shearing

Layers of Rock
Nicholas Steno - studied positions of sedimentary rock
Strata - also known as rock layers
Stratigraphy - science of strata

Law of superposition - any location indicates the ages of rock layers
Law of original horizontality - most sediments were layed down horizontally
Principle of lateral continuity - layers of sediments extends laterally in all
directions
Principle of cross-cutting - geologic feature which cuts another is the younger of
the two features.

❖ Relative Dating - Relative order or past events; estimate age of rocks but not the
❖ actual age
❖ Absolute Dating - Determining age of rocks in a specified timescale.
Radiometric Method - process where it determines the number decaying
products such as isotopes.

Half-life - time required for one-half of nuclei of the isotope to decay