Posts Tagged ‘Camosun College’

Face-lift initiated…

Hey guys,

Ok, so the second semester is officially over and I finally got some time to slow down and not do anything. So to keep me busy, I created a new theme for the website from scratch and I am still working on to get some more flash into the site for cooler presentations of pictures and movies.

I hope you like it!

Comment below if you wish…

ENVR103 – Environmental Isolate

Source and Data Summary

The teachers’ desk in Fisher Building laboratory 222. Read the rest of this entry »

Earth Hour – My spin on it…

From a outsiders view with ignorance bless I can really understand how this became so popular so quick.

I’m a Environmental Technology student at Camosun College and I can see issues with reducing the load significantly and then turning it on after an hour. When the load changes significantly, frequency imbalances can occur (due to either too much or too little power being produced with respect to the load) as it takes time for the generators to adjust to the change in load. Read the rest of this entry »

ENVR107 – Lab 9 – Mt Tolmie Fieldtrip

Thursday, March 18th 2010, ENVR107 students from Camosun College conducted a fieldtrip to the local park, Mt Tolmie (Lat: N48° 27’’ 23’ Long: W123° 19’’ 34’) in Victoria, BC. The aim of the fieldtrip was to get familiar with Ecosystem Field Form and accompanying field books (Handbooks 25 (White) & 28 (Red)). Read the rest of this entry »

ENVR107 – Lab 5 – Weather Analysis

Camosun College – Stefan Martensson

  1. A. Weather Observations at 10:00am – Feb 11 – Feb 18, 2010. More elaborate descriptions below.

Feb 11 – Cloudy, drizzles, some fog over the ocean, light wind, temp 8C.
Feb 12 – Cloudy, light wind, temp 8C.
Feb 13 – Cloudy, drizzles, light wind, temp 8C.
Feb 14 – Partly cloudy, slight wind, temp 8C.
Feb 15 – Partly cloudy, slight wind, temp 6C.
Feb 16 – Clear, sunny, no wind, temp 9C.
Feb 17 – Clear, sunny, no wind, temp 7C.
Feb 18 – Clear, sunny, no wind, temp 6C. Read the rest of this entry »

CHEM121 – Experiment 2

Stefan Martensson

CHEM121 – Experiment 2 – Preparation of a Standard Solution and the Analysis of an Unknown Acid.

Purpose: To use Xylenesulphonic acid (XSA) from Lab1 as a primary standard for the standardization of a sodium hydroxide solution, and use the sodium hydroxide to determine the weight of an acid that reacts with a ratio of: one mole sodium hydroxide to one mole of unknown acid. Read the rest of this entry »

ENVR103 – Biofilms

Have you ever slipped on rocks at the beach or at the river and when you tried to stand up again you felt the surface of the rock to be smooth, slick and slimy? The layer on the rock that looks and feels like the mucus layer inside your mouth; is called a biofilm.

Biofilm were first discovered by a scientist called Antonie van Leeuwenhoek in Holland more than 300years ago. Back then, he tried to kill a Read the rest of this entry »

Report – ENVR206B – Phytoremediation

Biology 206B, Biotechnology – Phytoremediation Report

Allanah Greenham, Alex Carota, Stefan Martensson, Brianne Smith

December 3, 2009

Purpose

The reason for this experiment was to determine if water hyacinths are able to successfully absorb contaminants such as Zinc and Copper from an aqueous solution and also possible methods to improve results in the experiment for future classes. Read the rest of this entry »

Report ENVR206 – Constructed Wetlands

ENVR206B – Constructed Wetlands for Remediation Purposes

Stefan Martensson C03347318
Definition:
Constructed wetlands are artificially built marshes built to treat human wastewater and stormwater. They have four key components:
• Wastewater
• Soil and drainage materials (such as pipes and gravel)
• Plants (both above and below the water)
• Micro-organisms Read the rest of this entry »

Report – ENVR110 – A Study of the Relationship of Relative Humidity and Temperature

A Study at Camosun College, Lansdowne Campus of the Relationship of Relative Humidity and Temperature

Jenny Kendrick, Geoff Kerr, Stefan Martensson, Kate Musto

ENVR 110, Camosun College

November 20, 2009

Introduction:

Relative humidity is a ratio expressed as a percentage of the moisture in the air to the moisture it would contain if it were saturated at the same temperature and pressure (Oxford Concise Science Dictionary, 2006).  The maximum amount of water vapor that can be contained in the air is dependent on temperature.  A given volume of warm air can hold more water vapor before it precipitates than colder air can. Factors that influence relative humidity include: altitude, cloud cover, pollution, air temperature, regulated temperature in buildings and wind. Read the rest of this entry »