General Mathematics & Earth Science - Assessment 2 (Reviewer)

Summary

This document appears to be a set of notes for a general mathematics and earth science assessment/review. It covers topics such as inverse functions, simple interest, and the formation of magma.

Full Transcript

General Mathematics How about:

=
8
+14
4
−6
Solution:
9“
This is my command—be strong Step 1:
and courageous! Do not be afraid or 8
+ 14
discouraged. For the Lord your God
=
4
− 6
is with you wherever you go.” – Step 2:
Joshua 1:9 8
+ 14

=
4
− 6
Rebyuwer Step 3:
Unit 6: Inverse Functions
8
+ 14
Lesson 1: Inverse of a Function =
1 4
− 6
Key Points: 8
+ 14 = 4

− 6

8
− 4

=− 6
− 14

(8 − 4
) −6
− 14
=
8 − 4
8 − 4

−6
− 14

=
8 − 4

2( − 3
− 7)

=
2(4 − 2
)
−3
− 7
Example:
=
4 − 2

Step 4:
−3
− 7

−1 (
) =
4 − 2

Graphing of Inverse Function:

− 14

−1
=
8
and

= 8
+ 14
(Use Table of Values) Start with x=-2–2
Unit 12: Simple and Compound
Interest
Lesson 1: Simple Interest (w/
Maturity Value) Ex.
Key Points:
 Interest is amount that a person
gets or pays on top of the original
investment or loan.
 Lender or creditor refers to the
party lending money or
extending credit.
 Borrower or debtor refers to the
party using the money or credit.
 A principal refers to the amount
of money extended for credit or
the amount of money deposited
in a bank for safekeeping.
 The interest rate refers to the
charged amount for using the
money over a certain period. It is
commonly expressed in percent
but is converted to decimal.
 The time of interest refers to
the period covered from the time
that the money (principal) is
borrowed until its due date.
 The maturity date is the due
date of the payment of the
principal.
 Simple interest refers to an
interest computed on the original
principal during the whole period
or time of borrowing.

Exponential function (ewan ko kung kasama)
Earth Sci
13
For I can do everything through
Christ,[a] who gives me strength. –
Philippians 4:13

Lesson 11.2

Magmatism: How Magma is
Formed

Magma Pressure
 Magma is defined as molten  Decrease in pressure causes
rock material produced by adiabatic decompression. As
partial melting of the mantle pressure is decreased, melting
and crust. It contains liquids, temperatures of materials
gases, crystals and rock decrease.
fragments.

Volatiles
 Volatiles are substances that
evaporate easily and can exist
in gaseous form in the surface
of Earth.
Formation of Magma
 Examples of this kind of
substances are water and
Temperature
carbon dioxide. When
 Temperature increases with
volatiles mix with hot mantle
depth, which is called
rock, magma forms.
geothermal gradient. This
 When water or carbon dioxide
increase will obviously induce
are introduced to rock, flux
melting.
melting occurs which cause
the rock to melt.
 Flux melting is the process of
reducing a substance's
melting point by introducing
impurities. When volatiles are
 added to rocks, their melting Lesson 12.1
point decreases. What is Metamorphism?

Magmatism Metamorphism
 Magmatism occurs along - It is the process of changing
plate boundaries or margins the characteristics of a rock
and sometimes within the as a result of changes in
plate. Cracks on Earth's crust temperature, pressure, or
are the result of these plate reactions with hot fluids.
boundaries. - The protolith is a pre-
 In effect, hot mantle rock existing rock that undergoes
penetrates the crust and metamorphism. It can be any
becomes magma. types of rock.
 Plate boundaries can be - Metamorphism of the
classified as convergent, protolith changes the
divergent, and transform. texture and mineralogy
(mineral components) of the
original rock.

Different Processes Involved in
Metamorphism
 Recrystallization
o This is the process
where there is a growth
in size of the mineral
grains of pre-existing
Classification of Magma materials.
o This is the most
 Tholeiitic magmas or common process
tholeiites, are produced by involved in
large degree of melting. metamorphism.
 Calc-alkaline basalts form Example: limestone to
along convergent plate marble; clay into
boundaries above subduction muscovite mica.
zones.
 Alkaline basalts form from
smaller degree of partial
melting, which results in
alkali-rich and silica depleted
magma of diverse
compositions.  Neocrystallization
Carbonatites are the only magmas o It is the formation of new
that are not produced by silicate minerals from the pre-
source rock. existing minerals due to
heat.
 Example: Phyllite is a mica-
rich mineral rock. When clay
undergoes neocrystallization,
it forms mica.

Lesson 13.2

The Formation of Faults
and Folds

Rocks respond to stress by
 Phase Change flowing, bending or breaking.
o It refers to the change in This constant exposure causes
mineral structure but with rock deformation which will
the same chemical formula eventually lead to folding and
(example: andalusite to faulting.
kyanite).
o Minerals with the same Stress is a force exerted on an object.
chemical formula but In the study of plate tectonics,
different mineral structure are stress acts on rocks.
called polymorphs of each
other. Types of Stress in Rocks
- Confining stress takes place
 Pressure Solution when a rock or sediment is
 It takes place when minerals buried and acts uniformly in
are dissolved in areas with all directions.
high pressure and - Directed stress only acts in
recrystallize in other areas one direction and is most
with low pressure. likely associated with tectonic
activities.

Types of Directed Stress
Compression
squeezing stress
Tension
pulling stress
Shear
 Plastic deformation parallel but opposite directions
 It occurs when mineral
grains soften and deform at
high temperatures.
 Paleomagnetic Evidence
- Magnetic orientation of the
oceanic crust and the age of
rocks help support that the
ocean floor is spreading.
- Imprints from rocks show
evidence of magnetic reversals
of Earth.

Rock Deformation
 The different types of stress
on rocks can cause them to
deform.
 The type of deformation that
rocks can undergo also
depend on the composition
of rock, or the type and
intensity of stress.

Types of Deformation
Elastic
rock returns to original shape
Ductile
rock reshapes without breaking
Brittle
causes breakage

Faults
 Some rocks fracture because
of stress.
 A fault is a discernible
displacement where rocks
grind or slide past each other.

Lesson 13.3

The Seafloor Spreading

The Seafloor Spreading
Hypothesis The Mid-Oceanic Ridge
- Proposed by Harry Hess and - Comprises 20% of the ocean
Robert Dietz, this hypothesis floor’s surface
explains the formation of - The developed concepts
oceanic crust. helped explain the formation
of this ridge.
 How Layers of Rocks Are Formed

Fossils
 Fossils are remains of
organisms that lived prior to
the last glacial period about
10 000 years ago.

Transform Faults
- These are abundant in the sea
floor.
- Sea floor is divided into
segments as a result.

Formation of Fossils
 Fossils are usually seen in
sedimentary rocks because as
organisms die, their remains
will sink at the bottom and
will eventually be covered with
Parts of the Ocean Floor sediments.
- Abyssal plains are flat parts
of the ocean. Stratification
- Black smokers are vents that  The formation of sedimentary
spew dark, mineral-rich fluids. rock layers is because of
- Oceanic trenches are stratification. Stratigraphy is
depressions on the seafloor the study of these rock layers.
- A seamount is a mountain
above the sea floor. Determining the Age of Rock
- If the structure rises above Layers
sea level, it is called a
volcanic island.  There are several principles
- A flat-topped seamount is that have been established in
called a guyot. order to determine the relative
age of rock layers.

Law of Original Horizontality
 This states that sediments are
generally deposited
horizontally.

Lesson 14.1
 grasp on the succession of
events that took place in the
past.
- Relative dating uses the laws
of stratigraphy and does not
Law of Lateral Continuity give a numerical estimate of
 Layers of sediments spread age.
out in all directions until they
thin out at the edge of the
depositional basin or grade
into a different kind of
sediment.

Law of Superposition
 This states that sediments are
generally deposited
horizontally. Absolute Dating
- Absolute dating or numerical
dating allows the
determination of the exact
numerical age of rocks and
When the beds are undisturbed, the fossils.
purple layer is the youngest while
the green layer is the oldest.

Principles of Cross-Cutting
Relationships
 This states that geologic
features that cut across rocks
are younger than the rocks
which they cut through.

Concepts Involved in Absolute
Dating
The red body represents an
intrusion. It cross-cuts the three Isotopes
layers which are relatively older. are elements that have a different
number of neutrons.
Lesson 14.2 Half-life
is the time it takes for half of the
Relative and Absolute Dating isotope to decay.
Radiometric Methods
Relative Dating rely on radioactive decay.
- Relative dating uses a
sequence of rocks to get a
The Method of Absolute Dating
- If an isotope’s half life is
250,000 years, this means
that only half the isotope will
remain after that amount of
time.

Relative vs Absolute Dating

Relative Dating Absolute Dating

A qualitative A quantitative
method of method of dating
dating

Uses a Uses radiometric
stratigraphic techniques to
method to identify the
identify the specific age of
order of rocks/objects.
formation of the
remains.

It gives a It gives the exact
relative age of age of the
the remains remains

Less specific More specific

Cheaper and Expensive and
time-efficient time-consuming