It All Adds Up!
1. a) 195 litres each day. 1,365 litres each week
1. b) 35 litres each day. 245 litres each week
2. 15 litres
3. 25 litres
4. 15 litres
UV Radiation and Clouds
| Type | Factor | % UV |
| Scattered Clouds | 1.1 | +10% (transmitted) |
| Hazy | 0.9 | -10% (absorbed) |
| Mainly cloudy with/without precipitation | 0.7 | -30% (absorbed) |
| Cloudy | 0.6 | -40% (absorbed) |
| Cloudy with/without precipitation | 0.4 | -60% (absorbed) |
| Overcast | 0.3 | -70% (absorbed) |
| Heavily overcast with/without rain/drizzle | 0.2 | -80% (absorbed) |
1. Clouds can have a marked impact on the amount of UV that reaches the Earth's surface; generally, thick clouds reflect and absorb more UV than thin cloud cover.
2. UV radiation is absorbed and scattered on water vapour and aerosols and this leads to decreasing of the UV irradiance. UV can pass through thin clouds. However, sides of clouds can also reflect UV and focus solar energy and can increase the amount received at the Earth's surface in some situations.
Periodic Table Scavenger Hunt
1. Hydrogen
2. Lithium
3. Carbon
4. Nitrogen
5. Teflon
6. Potassium
7. Titanium
8. Gold
9. Iron
Science Aboard the ISS
(1) Vegetable juice
- Decantation: No significant phase separation over the short term.
- Filtration: The filter contains a solid residue. The filtrate is a thin reddish liquid.
- Centrifuging: The solid portion of the mixture ends up at the bottom of the test tube. The liquid is quite thin and reddish.
(2) 3.25% milk
- Decantation: No phase separation.
- Filtration: No phase separation.
- Centrifuging: No phase separation.
(3) Vinaigrette
- Decantation: After a certain amount of time, the oil forms a layer over the vinegar. The two components can be separated with the separating funnel.
- Filtration: The vinegar passes through the filter and takes some oil with it. The filter captures the particles.
- Centrifuging: Complete phase separation. The oil forms a layer over the vinegar and particles
Which of the three mixtures is a colloid?
3.25% Milk
What are the components of this mixture?
Water and fatty substances (3.25%)
Cell Structure Scavenger Hunt
- Chromosome
- Golgi apparatus
- Mitochondrion
- Ribosomes
- Spikes
- Vacuole
- Cell wall
- Smooth endoplasmic reticulum
- Protein coat
- Flagellum
- Cell membrane
- Envelope
Going South for a Tan?
| Vacation Site | Latitude ( ° ) | Date of Overhead Sun |
| Montego Bay, Jamaica | 18.5°N | July 11 |
| Cancun, Mexico | 21.2°N | June 30 |
| Acapulco, Mexico | 16.9°N | July 17 |
| Rio de Janeiro, Brazil | 16.9°S | Dec 23 |
| Havana, Cuba | 23.1°N | June 22 |
| San Jose, Costa Rica | 9.9°N | Aug 14 |
| Ambergris Caye, Belize | 18°N | July 13 |
1. The sun is highest in the sky around noon at almost 90 degrees to the surface of the earth. At this time, UV radiation is at its highest level because the sun's rays have the least distance to travel through the atmosphere, allowing more of the UV rays to filter through. In the early morning and late afternoon, the sun's rays pass through more of the atmosphere at a sharper angle, filtering more of the UV radiation greatly reducing its intensity. Similarly, the UV rays are the strongest at the equator, where the sun is most directly overhead.
2. During summer months, the sun is higher in the sky than in winter, and the length of the day is longer, hence UV is more intense.
3. The sun will pass directly overhead at the equator twice a year. The first time this occurs is in March for the vernal equinox which signifies the start of Spring. The second time this happens is in September for the autumnal equinox which signifies the start of Fall. The following chart demonstrates the second date when the sun is overhead for places south of the Tropic of Cancer and north of the Tropic of Capricorn. i.e. June 21 (summer solstice)-July 11 (the first time the sun is overhead for Montego Bay, Jamaica) = 20 days; June 21-20 days = June 1st (the second time the sun is overhead for Montego Bay, Jamaica).
| Vacation Site | Latitude ( ° ) | Second Date of Overhead Sun |
| Montego Bay, Jamaica | 18.5°N | June 1 |
| Cancun, Mexico | 21.2°N | June 12 |
| Acapulco, Mexico | 16.9°N | May 26 |
| Rio de Janeiro, Brazil | 16.9°S | Dec 19 |
| Havana, Cuba | 23.1°N | June 19 |
| San Jose, Costa Rica | 9.9°N | April 28 |
| Ambergris Caye, Belize | 18°N | May 30 |
4. The sun's rays are never directly overhead in Canada as the whole country lies north of the Tropic of Cancer (23.5 °N) limit.