Animated Earth Online Game
Driving Discovery / Moteur de la Découverte
Created on September 30, 2020
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Transcript
START
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Nova Scotia is a province with incredible geology, but it hasn't always looked this way! Billions of years of geological evolution have shaped our province into what we see today. To keep things simple let's narrow our scope to just the past 300 million years.
The area now known as Nova Scotia was once at the centre of a supercontinent called Pangea. When the continental plates drifted apart, Nova Scotia stayed with North America...
Welcome to Animated Earth:
A geological "what-dunnit"
Click here to begin
...but who - or what - is responsible for the changes that have been happening ever since?
Pangaea has to form before our culprits can act on Nova Scotia's landscape!
Complete the Pangaea puzzle to unlock your clues
Double click on the continents to rotate them, then drag them into place!
Click here to get started!
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rotate(270deg)</div><script></script>
<div class="scape" style="color: white; background-color: black; font-size: 20px;
border: 1px solid; text-align:
center; opacity: 0;">FONCTION CACHE</div>
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border: 1px solid; text-align:
center; opacity: 0;">FONCTION CACHE</div>
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var url = window.location.pathname.split( "/" );
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ondblclick="
var PAPA=this.parentNode.parentNode.parentNode.parentNode.parentNode;
var angle=parseInt(this.getAttribute('data-rotate'),10)+90;
if (angle>=360) {angle=0};
var degre='rotate('+angle+'deg)';
this.setAttribute('data-rotate',angle);
this.innerHTML=degre;PAPA.style.transform = degre;">
rotate(270deg)</div><script></script>
ondblclick="
var PAPA=this.parentNode.parentNode.parentNode.parentNode.parentNode;
var angle=parseInt(this.getAttribute('data-rotate'),10)+90;
if (angle>=360) {angle=0};
var degre='rotate('+angle+'deg)';
this.setAttribute('data-rotate',angle);
this.innerHTML=degre;PAPA.style.transform = degre;">
rotate(270deg)</div><script></script>
<div class="scape" style="color: white; background-color: black; font-size: 20px;
border: 1px solid; text-align:
center; opacity: 0;">FONCTION CACHE</div>
<script>
var url = window.location.pathname.split( "/" );
var refgenial= url[1];
if (refgenial!="editor")
{
var x = document.querySelectorAll(".scape");
for (var i = 0; i < x.length; i++)
{
x[i].style.opacity="0";
}
}
</script>
border: 1px solid; text-align:
center; opacity: 0;">FONCTION CACHE</div>
<script>
var url = window.location.pathname.split( "/" );
var refgenial= url[1];
if (refgenial!="editor")
{
var x = document.querySelectorAll(".scape");
for (var i = 0; i < x.length; i++)
{
x[i].style.opacity="0";
}
}
</script>
<div class="scape" data-rotate="270" style="padding: 3px; text-align: center; border: 1px solid black; width: 100%; height: 100%; opacity: 0;" oncontextmenu="return false"
ondblclick="
var PAPA=this.parentNode.parentNode.parentNode.parentNode.parentNode;
var angle=parseInt(this.getAttribute('data-rotate'),10)+90;
if (angle>=360) {angle=0};
var degre='rotate('+angle+'deg)';
this.setAttribute('data-rotate',angle);
this.innerHTML=degre;PAPA.style.transform = degre;">
rotate(270deg)</div><script></script>
ondblclick="
var PAPA=this.parentNode.parentNode.parentNode.parentNode.parentNode;
var angle=parseInt(this.getAttribute('data-rotate'),10)+90;
if (angle>=360) {angle=0};
var degre='rotate('+angle+'deg)';
this.setAttribute('data-rotate',angle);
this.innerHTML=degre;PAPA.style.transform = degre;">
rotate(270deg)</div><script></script>
<div class="scape" style="color: white; background-color: black; font-size: 20px;
border: 1px solid; text-align:
center; opacity: 0;">FONCTION CACHE</div>
<script>
var url = window.location.pathname.split( "/" );
var refgenial= url[1];
if (refgenial!="editor")
{
var x = document.querySelectorAll(".scape");
for (var i = 0; i < x.length; i++)
{
x[i].style.opacity="0";
}
}
</script>
border: 1px solid; text-align:
center; opacity: 0;">FONCTION CACHE</div>
<script>
var url = window.location.pathname.split( "/" );
var refgenial= url[1];
if (refgenial!="editor")
{
var x = document.querySelectorAll(".scape");
for (var i = 0; i < x.length; i++)
{
x[i].style.opacity="0";
}
}
</script>
Where and how do tectonic plates interact?
What does this map show?
What is the geological significance of this information?
What else happens at plate boundaries?
How is geological change different depending on where you are in the world?
choose a culprit to get started!
Great work! Now, select a culprit to explore
From Sydney to Shelburne, River Hebert to Petite Rivière, our culprits have left behind clues all across Nova Scotia.
Be sure to take good observations so you can make the strongest case possible for What-dunnit!
Choose another culprit to explore!
Make your case
Culprit 1
Explore different sites to gather details that will help you identify and make a case against your culprit!
Who are the culprits?
Make your case
choose another culprit
Culprit 2
Explore different sites to gather details that will help you identify and make a case against your culprit!
Who are the culprits?
Make your case
choose another culprit
Culprit 3
Explore different sites to gather details that will help you identify and make a case against your culprit!
Who are the culprits?
Make your case
choose another culprit
Water and Ice
Back
Living Things
Click a culprit to learn more!
Air
Tectonic Plates
Water and Ice
Back
Living Things
Click a culprit to learn more!
Air
Tectonic Plates
Water and Ice
Back
Living Things
Click a culprit to learn more!
Air
Tectonic Plates
Water and Ice
All forms of water, including glaciers, the ocean, and precipitation like rain, can cause geological change through erosion and deposition. They can even be powerful enough to carve out large pieces of land.
Back
Tectonic Plates
Tectonic plates lie on top of the fluid mantle, causing geological change through the moving the continents (continental drift). This movement can lead to earthquakes, volcanoes, and landforms like mountains or rift valleys.
Back
Air
The atmosphere around us can cause geological change through wind erosion, deposition, and the generation of waves.
Back
Living Things
Things that are alive can cause geological change by producing chemicals that can cause erosion and weathering, or through changing the climate. Things that were once alive make organic matter that can create some geological formations.
Back
You've made your observations, now make your case!
Draw a cartoon! Assemble a model! Write a story, poem, or song!
Use your creativity (and whatever resources are available to you) to convince your peers as to the culprit responsible for your landforms...good luck!
choose another culprit
Want to use the Pangaea Puzzle to support your case? Click here!
want to reWatch the Earthquake video? Click here!
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ondblclick="
var PAPA=this.parentNode.parentNode.parentNode.parentNode.parentNode;
var angle=parseInt(this.getAttribute('data-rotate'),10)+90;
if (angle>=360) {angle=0};
var degre='rotate('+angle+'deg)';
this.setAttribute('data-rotate',angle);
this.innerHTML=degre;PAPA.style.transform = degre;">
rotate(270deg)</div><script></script>
ondblclick="
var PAPA=this.parentNode.parentNode.parentNode.parentNode.parentNode;
var angle=parseInt(this.getAttribute('data-rotate'),10)+90;
if (angle>=360) {angle=0};
var degre='rotate('+angle+'deg)';
this.setAttribute('data-rotate',angle);
this.innerHTML=degre;PAPA.style.transform = degre;">
rotate(270deg)</div><script></script>
Back
Locality images:
Individual sources are noted on the images themselves
Topographical map of Nova Scotia:
National Oceanic and Atmospheric Administration (NOAA), used under Creative Commons 4.0 International
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