September 15

Term 3 Project

If you would like to view my work as a PDF, here’s the link;





  • Introduction
  • Tectonic Plates
  • Seismic waves
  • Graph On Magnitude
  • Diagram of Earth’s core
  • System Analysis
  • Glossary
  • Conclusion
  • Bibliography



With a sudden shock the whole villages were wiped out, lives lost, people left homeless, no food left, no clean water, no help, no hope, this is the deadly reality of an earthquake. Now many may be left wondering how this all started, well, it all starts with the tectonic plates.


2-Tectonic Plates

One of the main fundamentals of earthquakes is the movement of tectonic plates. The movement of the plates are the building blocks of how earthquakes occur. Each year tectonic plates move approximately 2-5 centimetres and they move slowly over the globe. Due to the slow movement of tectonic plates earthquakes cannot occur all that often. Tectonic plates move because the radioactivity/heat from the earth’s core pushes against the tectonic plates causing it to move, and as the gas cools down it moves back down into the earth’s core (Convection). This is an incredibly slow process and can take years to make a major earthquake occur. The way that the tectonic plates move is determined on which way the gas rubs against the tectonic plates, this is also why some plates move towards each other and some plates move away from each other. When they move into each other this is called the subduction zone and this is where the tectonic plates collide. When they move apart this is called divergent plate boundaries.



When the crust goes under and over each other at the subduction zones (sometimes these collide causing an earthquake), the crust goes down into the mantle later melting into magma/lava becoming part of the mantle. Some of it goes into the magma chamber of a volcano, and as the pressure slowly builds up a volcanic eruption occurs. This can be seen looking at a map of volcanoes and tectonic plates, on the boundaries of the tectonic plates there are multiple volcanoes, this is also why the ring of fire exists. On a subduction zone this is where the plates go under and over each other, and where the rocks may be on a fault. It is also where the plates occasionally collide causing an earthquake, and is where most earthquakes occur. At subduction zones an oceanic plate slides under a continental plate or under another oceanic plate, (this is because oceanic plates are denser therefore floating lower on the mantle while the continental plates are less dense and they float higher on top of the mantle). This is where geo hazards (earthquakes & volcanoes) occur. The actual earthquakes are caused when rock that is underground breaks along a fault, and then the seismic energy and seismic waves make the ground shake. However, how this energy is released is when the 2 rocks and/or plates are rubbing against each other, the place that the rocks broke is rigid, so they won’t slide smoothly against each other. So the rocks on either side will catch on to each other, but the rocks are still pushing against each other but the rocks are stopping the motion. So soon there will be too much pressure built up and the rocks will break, releasing seismic waves, causing an earthquake. The severity of an earthquake is caused by how much pressure is built up when the rocks stopped the plates rubbing against each other.

The positioning of the plates change a lot of things as well, because as stated earlier, where the tectonic plate boundaries are is basically prone to earthquakes and/or volcanoes. Volcanoes are just the crust that had melted after it had gone into the mantle when the tectonic plates were moving under and over each other and the crust had to go somewhere. At because at the divergent plate boundaries the gap spreads, which would leave a giant gap, well, the magma from the mantle rises up, because the convection currents push this up, So in reality the earth is just recycling rock that was melted into the mantle, over and over again. On tectonic plates there are also things called collisional boundaries, this is where 2 plates of the continental lithosphere collide. As they collide the rock is pushed upwards therefore creating mountains, this is apparently how the Himalayas and the Alps were formed. This would also create devastating earthquakes.






Pangea was a phenomenon that occurred 300 million years ago when all the land masses we know as countries and continents were formed together. Until 175 million years ago the tectonic plates began to move, therefore moving the continents/continental plates away from each other, hence the name, Continental drift. Because of the ways tectonic plates work, NASA estimates that in 250 million years from now, Pangea will form again and what they call Pangea Ultima. This would probably cause devastating earthquakes that would be unimaginable. Although our countries won’t go underneath each other and engulf each other, because only oceanic crust goes under continental crust, continental crust doesn’t go under continental crust. Instead the continent will clash, causing earthquakes; these would be collisional boundaries and will cause a lot of mountains to form.


3-Seismic Waves
But there are also something called seismic waves. When an earthquake occurs there are 2 types of seismic waves; surface waves and body waves. Body waves are seismic waves that travel through solids & liquids, so they travel through the earth, the rock and the mantle. Body waves are faster than surface waves and are of higher frequency. But there are specific types of body waves; there are P waves and S waves. P waves, also known as the primary wave, these are the fastest type of seismic wave, and they are the first to arrive at the `seismic station`. P waves push and pull rock, although these are not that deadly because people normally only fell the rattle of the wave. P waves are also called compressional waves because of the way that they act, the particles move in the same direction that the wave moves, or the same direction the energy is moving, this is called the `direction of propagation`, here is a link to show a better understanding;                                                              But P waves are not the only type of body wave; there are also S waves, also known as; Secondary Waves. S waves are the second waves that arrive at a seismic station, therefore making it slower than the P wave and faster than both surface waves. But what makes it special is that the S wave cannot move through liquid, it can only move through a solid, S waves move the rock particles up and down and side to side, perpendicular to the direction the wave is travelling in, (The direction of wave propagation), here is yet another link to explain how S waves work;                                                        During the description of S waves It was confirmed that S waves can only go through solids and not liquids, so this is what led seismologists to believe that the earth’s outer core is actually a liquid.




But there are also things called surface Waves, these waves don’t go through the inner layers of the earth, instead the travel along the surface of the earth. Unlike Body waves, surface waves only travel through the crust and have a lower frequency than body waves. These arrive after the body waves, and are mainly responsible for the destruction caused by an earthquake. The first type of surface wave is the Love wave, this is the fastest type of surface wave and moves the particles entirely from side to side, and this wave was named after A.E.H Love who found the mathematical model for this wave in 1911. This is how the love wave works;                                                               then there is the Rayleigh wave. A Rayleigh wave rolls along the ground like a wave rolls along the ocean, this moves up and down, side to side in the direction that it is moving, Rayleigh waves are one of the biggest waves, and causes most of the shaking, here is a diagram to show how it works;


4-Graph on Magnitudes



Here is a graph of the mean average of the magnitudes of DEADLY earthquakes from 1990-2000, the question posing was; have the magnitude of earthquakes gone higher over the years? The graph looks like it’s in a completely random order, because it is. It is up to chance if the magnitude of earthquakes will be increasingly higher or lower each year, and it will always be that way. Because the tectonic plates always move about the same each year, and earthquakes have developed a system that will most probably never stop, so the magnitudes of earthquakes is just chance. Most likely earthquakes will just have random magnitudes.


5-Diagram of Earth’s Core

This diagram shows the layers of the earth and many other minor details regarding the topic that this information text is about. First of all there is the inner core; this is made of iron and a few other elements. Its heat ranges from 5000-7000 degrees Celsius, (the iron has not melted due to the sheer pressure of the weight on it). Then there is the outer core, this is a liquid layer of the earth’s core. And the heat is ranging from 4000-5000 degrees Celsius. While the mantle is made up of magma (semi-molten rock) and its heat is from 500-900 degrees Celsius. Finally there is the crust, this is where the tectonic plates lie and where all the magic, that is earthquakes happen. There is a dark grey line that is the lithosphere; the lithosphere is the uppermost part of the mantle and all of the crust. And the lithosphere is made up of tectonic plates, so the lithosphere IS the tectonic plates except it represents the tectonic plates as a whole. There are also those arrows, these are called `Convection currents`. Convection is how heat is transferred by mass motion of air and water (fluids) when a heated fluid is forced to move away from the source of heat carrying energy (the heat) with it. Convection above a hot surface occurs because when the air is heated it expands and becomes less dense, therefore it rises, and a convection current is simply when a current in a fluid that is caused by convection, much like how a current in water works. So convection currents come from the earth’s core, because of the heat making the fluid less dense, causing it to rise with the energy (heat) then when it reaches the mid-ocean ridges/tectonic plates the energy (heat) is lost. Causing the fluid to cool down, which makes the fluid denser therefore making it float back to the earth’s core. There are also mid-ocean ridges; this is where an underwater mountain range is created by tectonic plates. This is caused when the convection currents rise under the oceanic crust, and that created magma where 2 tectonic plates meet at a divergent plate boundary.














6-System Analysis

System Analysis:

If there wasn’t any radiation coming from the earth’s core, the tectonic plates wouldn’t move, so at the subduction zones nothing would happen and no seismic waves would’ve been released, therefore there would be no such thing as an  earthquake. Now if there is no such thing as subduction zones/fault lines, so that would probably mean that the continents will just move in a circlearound the sphere that is earth, endlessly, which wouldn’t change that much, and there will also be no such thiing as earthquakes. But if no rocks got stuck on each other, firstly the earth will have to be completely spherical and there would be no mountains, the earth will have to be COMPLETELY spherical so the rocks couldn’t catch onto eachother and would just run smoothly into the mantle, and once again there would be no such thing as earthquakes. BUT what if the rocks that caught onto eachother didn’t break, like an immovable object? Well, the whole entire movement of tectonic plates will probably halt, and the earth’s continents wouldn’t move, therefore leading to no earthquakes, but what if the movement of tectonic plates was an unstoppable force?, wouldn’t the earth’s tectonic plates be able to break it, right? If there were no seismic waves?, Well quite simply if no seismic waves were released the earth wouldn’t shake, so there would be no earthquakes, BUT what if there was no such thing as body waves. Well as stated before body waves only cause minor damage and surface waves cause the most damage so most of the damage will still happen, but if there was no such thing a surface waves most of the damage will still happen, and finally if the seismic waves didn’t move any particles at all, there would be no such thing as earthquakes, and seismic waves probably wouldn’t be noticable and we would never know of their existence.





Tectonic Plates-Tectonic plates make up what’s known as the lithosphere, (crust &upper mantle) there are 8 major tectonic plates, the convection from the earth’s core moves these plates 2-5 centimetres a year.

Subduction zone-A subduction zone is where the tectonic plates meet, when the tectonic plates move, they have to go somewhere, so they meet at subduction zones. The tectonic plates go underneath each other soon melting into the mantle.

Divergent plate boundaries-This is where the tectonic plates are moving away from each other, because at the subduction zones they move towards each other, when this happens the convection currents push the mantle up taking the place of the crust that had gone into the mantle at subduction zones.

Fault/Fault line-A fault is a break in the earth’s crust, what defines a fault is the movement of the rocks on either side, when this movement is sudden an earthquake occurs.

Collisional boundaries-Collisional boundaries also known as continent collision is when at convergent boundaries the subduction zone gets destroyed mountains are created and 2 countries are stuck together.

Convergent boundary-A convergent boundary is when 2 or more tectonic plates (or parts of the lithosphere) move towards each other and collide.

Mid-ocean ridges-A mid ocean ridge is a underwater mountain range, this is created when convection currents make the mantle rise where 2 tectonic plates meet at a divergent plate boundary

Lithosphere-The lithosphere is the rigid and hard outside consisting of the upper mantle and the crust, the lithosphere is made up of tectonic plates.

Crust –The crust is made up of igneous and many other types of rocks. And this is uppermost part of the earth.

Igneous rocks-Igneous rocks are just solidified magma and lava.

Mantle-The mantle is in between the crust and the outer core (as shown on diagram) and is a silicate rocky shell, this makes up 84% of the earth’s volume.

Outer core- the inner core is the fluid layer of the earth, and is mostly composed of iron and nickel.

Inner core- this is the innermost part of the earth and is primarily a solid iron ball.

Continental crust-The continental crust is the crust that we know as countries, it is older than oceanic crust and the reason that it is elevated higher than oceanic crust is because it is less dense, causing it to float higher on the mantle.

Oceanic crust-Oceanic crust is the crust that is denser so it’s elevated lower on the mantle, these also hold midocean ridges.

Dense-A closely compacted substance or a substance that particles are closely compacted.

Geo Hazards-Also known as geological hazards are hazards such as volcanoes and earthquakes.

Convection-Convection is heat transfer by mass motion, when a heated fluid is forced to move away from source of heat, carrying the energy/heat with it. When convection occurs above a hot surface, the air expands causing it to become less dense and rise, but when it loses the energy/heat it goes back to normal and sinks back down.

Convection current-a convection is a current that is formed by the process of convection.

Fluid-A fluid is practically a gas or most commonly a fluid.

Radioactivity-Also known and radioactive decay, this is when an unstable atom loses energy emitting radiation. Every material does this, except radioactive materials do it much quicker.

Pangea/Pangea ultima-Pangea was a super continent that consisted of all the countries and continents that we know today, it was assembled 300 million years ago and began to drift 175 million years ago. Although Pangea ultima is what NASA is suggesting will occur in 250 million years, this is when all the continents will from back together.

Seismic Waves-A wave in the earth that is caused by earthquakes, this is much like sound waves and how they work. These are also described as waves of energy that travel through and on top of the earth’s layers. Surface waves consist of Love waves and Rayleigh waves.

Surface waves-Surface waves are a type of seismic wave that travels along the top of the earth’s crust, these have longer wavelengths and they travel slower than body waves.

Body waves-A body wave is a type of seismic wave that travels through the earth’s layers, these have shorter wavelengths and are faster than surface waves. Body waves consist of P waves and S waves.

Seismic station-A seismic station is a laboratory that has the equipment to detect, monitor and record earthquakes locally and/or anywhere in the world.

Frequency-frequency is how much a repeated circuit happens in one second, this can be shown by wavelengths, this has a different meaning with sound and other science areas.

Direction of propagation-In geology, direction of propagation is the way the seismic waves move or the way the energy moves, the way the energy moves is also the way the particles move.

Particles- A particle is a minute fragment or quantity of matter.

Pressure-A continuous physical force exerted on an object and/or something in contact with it.

Seismologists-Seismologists are a certain type of scientist that studies earthquakes and other geological hazards; they also use tools and equipment to monitor the earth’s crust.

Magnitude-A magnitude is a number that characterizes an earthquake and how big it is. Magnitude is based on the maximum motion given to a seismograph and is measured on the Richter scale.




Earthquakes will always be around and will always devastate our daily lives, this is an ongoing thing and will never stop until the world either ends or we can make it stop.









Bibliography Source #

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This is my self assessment for my term 3 project of 2016


And finally this is an assessment reflection on which  I reflect on the work that i have done, while assessing myself.

This was definitely one of the hardest projects I’ve done, during this project I had a shorter time to complete it than any other person and I am very proud of what I have accomplished. I am proud of the facts and research I put into this and the effort that I put into every sentence. I really like the graph and the diagram I made because they let the people understand my work better. I am also VERY proud of the number of words (3100) that I have included in this, with no repeating to make the information report longer. I like the number of tier 3 words and I like how this can be used to each higher audiences than my own.

Although there are some things I need to improve. One thing that I think I need to improve  is my system analysis, I thought it was bland, it didn’t teach anyone anything, it’s either that I am not seeing what you can learn from it or I am not understanding and not looking for the information that will teach people things. One other thing is that my glossary might’ve been a bit too much copied. Because I found it hard finding definition in my own words of tier 3 words of that level.

But all in all, I believe I have done a great information report for the  amount of time that I’ve got to do this (A bit more than a week) and I am so proud of myself.

Posted September 15, 2016 by anton2013 in category 2016, Schoolwork

2 thoughts on “Term 3 Project

  1. Adriana

    You did a really good job. You used a lot of tier 3 words and you regularly used cause and effect or sequence words.

    Something you could’ve improved on was your sentence fluency. If you had put more commas in, it would be a bit clearer for a 5/6 audience (if it’s for them). Also, I think you could of made your subheadings a bit clearer because at one point I thought there was a massive paragraph, when it was actually just 3.

    But your facts were spot on and your diagram and your other graphic features were great! Also, your systems analysis was pretty good as well. Well done.

  2. antsclass

    Well done on this outstanding piece Anton. I think you have managed to create a fascinating piece that is pitched well for a secondary school audience. I think your theme was clear and you researched aspects that most people wouldn’t know, and the GIF diagrams you found on the internet illustrated your writing perfectly. You used tier 3 language and impersonal voice well to create authority, and you have a logical sequence to your paragraphs. You have shown comparison, causal links and sequence well, and I personally thought your systems analysis was quite interesting, analysing the effects different parts have on the system. To my mind the area that needed most improvement was your conclusion-this was flat and didn’t round off the piece well. Also, be careful to embed your diagrams the correct way- they can only be helpful if they are easy to look at.
    But overall Anton you should be extremely proud of this piece,


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