December 19

Garibaldi lake

for this project i will be attempting to answer these following questions…

  1. Estimate how much water the barrier contains behind it in the lake.
  2.  and if the barrier failed, what do you think would happen

So after using some truly useful and trust worthy internet sites i can confidently say that the Max depth is 258.7 M deep and the area is 9.94 Km which translates to 9940 M but the average depth is 119M. So first we take the SA (9940M) then we multiply it by the average depth of 119M (which i guess for this acts as the height) and i get the answer of 1,182,86oM. which after some complected conversion from meters to pounds it equals 2607759.923426515 Pounds of water. which roughly translates to 3,535,648Nm of force and that can cause a lot of….pain


i think if the wall was to break it would go out with enough force that it would knock over most of the trees in its way, it would pore out and drain pretty fast which would give it enough force to reach squeamish and do some major damage like cars being taken away, major house flooding and most work being shut down/stopped (but that would mostly be at the beginning of Squamish and it will thin out as it goes) but not all the water would drain out cause lets say the entire blockade breaks well it will still leave water in the bottom and doing the math that is just 258.7-119=139.7M worth of water left in the deepest part but then there is also the extra water that is still sitting on the top moving on the way to the now broken barrier. but after a while a river will form flowing to the ocean and that will be the end of the lake tragedy

Category: Math 10 | LEAVE A COMMENT
December 19

Earthquake lab


  1. What went wrong with today’s lab? List all the variables that disturbed our results and create a solution to make the outcome more accurate.
  2. Why do you need more than one seismometer station to find the epicentre of an earthquake? Why is one not enough?
  3. Why do you think identifying an epicentre location is important for our  society?
  4. How could we use this data in an emergency response situation?


  1. There where TOO many variables to get an accurate reading on this, from different walking speeds, to leg length, to not having a steady turn on your S wave.
  2. because it only gives you the radius of where the earth quake came from. So if you have multiple readings, you will have a more precise reading as to where it came from.
  3. Because if you know where the earthquakes are hitting you can be more prepared for the next one or you can just not live there.
  4. to find where the most damage has been caused and to try to get there faster to save the people that took the worst of the impact
Category: Geo12 | LEAVE A COMMENT