1. Warm up Day 1: You will need your INB, 2 different colors, scissors, tape & computer.
Rising sea levels are caused by primarily 2 factors: Thermal expansion of water and the melting of ice caps and glaciers.
Research and elaborate on why these two are the main reasoning of rising sea levels. (3 sentence max)
PHONES UP!!!!

2. Thermal expansion: increasing the distance between neighboring water molecules, and this distance increases with increasing temperature. 1 degree increase in temperature will raise sea level by 28 inches
When ice is floating on the water melts, it does not contribute to a rise in sea level. However, it does affect climate by changing albedo. With higher sea levels and more water covering Earth’s surface, more heat energy is absorbed by the water and less is reflected back into space, resulting in higher temperatures.

3. Warm up Day 2: YOU NEED A COMPUTER
Suppose your electric lights use 400 watts and are on an average of 4 hours a day, every day for 1 year.
How many kWh/ year does this represent?
YOU NEED A COMPUTER
Remediation schedule for retest Monday Before/After school Tuesday Before/Eagles Nest Wednesday Before/After/Eagles Nest

4. Warm up Day 2:
Suppose your electric lights use 400 watts and are on an average of 4 hours a day, every day for 1 year.
How many kWh/ year does this represent?
Want: kWh/year
Have: 400 watts
4 hours
1 year
400 watts X

5. Warm up Day 2:
Suppose your electric lights use 400 watts and are on an average of 4 hours a day, every day for 1 year.
How many kWh/ year does this represent?
Want: kWh/year
Have: 400 watts
4 hours
1 year
1 kW
400 watts X X
1000 watts

6. Warm up Day 2:
Suppose your electric lights use 400 watts and are on an average of 4 hours a day, every day for 1 year.
How many kWh/ year does this represent?
Want: kWh/year
Have: 400 watts
4 hours
1 year
4 hours
1 kW
400 watts X X
Day
1000 watts

7. Warm up Day 2:
Suppose your electric lights use 400 watts and are on an average of 4 hours a day, every day for 1 year.
How many kWh/ year does this represent?
Want: kWh/year
Have: 400 watts
4 hours
1 year
4 hours
365 days
1 kW
400 watts X X X
Day
1 year
1000 watts

8. Warm up Day 2:
Suppose your electric lights use 400 watts and are on an average of 4 hours a day, every day for 1 year.
How many kWh/ year does this represent?
Want: kWh/year
Have: 400 watts
4 hours
1 year
4 hours
365 days
1 kW
400 watts
= 584 kWh/year X X X
Day
1 year
1000 watts

9. Warm up Day 3:
Previous question: Suppose your electric lights use 400 watts and are on an average of 4 hours a day, every day for 1 year.
Adding on to the original question: If replacing the lights with a fluorescent bulb would save 60 w per hour, what savings in kWh does this represent in one year?
How many kWh/ year does this represent?
Remediation schedule for retest Monday Before/After school Tuesday Before/Eagles Nest Wednesday Before/After/Eagles Nest

10. Warm up Day 3:
Previous question: Suppose your electric lights use 400 watts and are on an average of 4 hours a day, every day for 1 year.
Adding on to the original question: If replacing the lights with a fluorescent bulb would save 60 w per hour, what savings in kWh does this represent in one year?
Want: kWh/year
Have: watts
4 hours
1 year
340 watts X

11. Warm up Day 3:
Previous question: Suppose your electric lights use 400 watts and are on an average of 4 hours a day, every day for 1 year.
Adding on to the original question: If replacing the lights with a fluorescent bulb would save 60 w per hour, what savings in kWh does this represent in one year?
Want: kWh/year
Have: watts
4 hours
1 year
1 kW
340 watts X X
1000 watts

12. Warm up Day 3:
Previous question: Suppose your electric lights use 400 watts and are on an average of 4 hours a day, every day for 1 year.
Adding on to the original question: If replacing the lights with a fluorescent bulb would save 60 w per hour, what savings in kWh does this represent in one year?
Want: kWh/year
Have: watts
4 hours
1 year
4 hours
1 kW
340 watts X X
Day
1000 watts

13. Warm up Day 3:
Previous question: Suppose your electric lights use 400 watts and are on an average of 4 hours a day, every day for 1 year.
Adding on to the original question: If replacing the lights with a fluorescent bulb would save 60 w per hour, what savings in kWh does this represent in one year?
Want: kWh/year
Have: watts
4 hours
1 year
4 hours
365 days
1 kW
340 watts X X X
Day
1 year
1000 watts

14. Warm up Day 3:
Previous question: Suppose your electric lights use 400 watts and are on an average of 4 hours a day, every day for 1 year.
Adding on to the original question: If replacing the lights with a fluorescent bulb would save 60 w per hour, what savings in kWh does this represent in one year?
4 hours
365 days
1 kW
340 watts
= kWh/year X X X
Day
1 year
1000 watts
Want: kWh/year
Have: watts
4 hours
1 year

15. Warm up Day 4:
Calculate the gallons of gas use just for going to the supermarket in one year if you take 5 trips to the store per week, traveling 7.5 miles roundtrip, and your car gets 22 miles per gallon.
Want: gallons of gas per year
Have: 5 trips per week
7.5 miles roundtrip
22 miles per gallon

16. Warm up Day 4:
Calculate the gallons of gas use just for going to the supermarket in one year if you take 5 trips to the store per week, traveling 7.5 miles roundtrip, and your car gets 22 miles per gallon.
Want: gallons of gas per year
Have: 5 trips per week
7.5 miles per roundtrip
22 miles per gallon
7.5 miles X
trip

17. Warm up Day 4:
Calculate the gallons of gas use just for going to the supermarket in one year if you take 5 trips to the store per week, traveling 7.5 miles roundtrip, and your car gets 22 miles per gallon.
Want: gallons of gas per year
Have: 5 trips per week
7.5 miles per roundtrip
22 miles per gallon
1 gallon
7.5 miles X X
trip
22 miles

18. Warm up Day 4:
Calculate the gallons of gas use just for going to the supermarket in one year if you take 5 trips to the store per week, traveling 7.5 miles roundtrip, and your car gets 22 miles per gallon.
Want: gallons of gas per year
Have: 5 trips per week
7.5 miles per roundtrip
22 miles per gallon
5 trips
1 gallon
7.5 miles X X
1 week
trip
22 miles

19. Warm up Day 4:
Calculate the gallons of gas use just for going to the supermarket in one year if you take 5 trips to the store per week, traveling 7.5 miles roundtrip, and your car gets 22 miles per gallon.
Want: gallons of gas per year
Have: 5 trips per week
7.5 miles per roundtrip
22 miles per gallon
5 trips
1 gallon
7.5 miles X X X
1 week
trip
22 miles

20. Warm up Day 4:
Calculate the gallons of gas use just for going to the supermarket in one year if you take 5 trips to the store per week, traveling 7.5 miles roundtrip, and your car gets 22 miles per gallon.
Want: gallons of gas per year
Have: 5 trips per week
7.5 miles per roundtrip
22 miles per gallon
5 trips
52 weeks
1 gallon
7.5 miles X X X
1 week
1 year
trip
22 miles

21. Warm up Day 4:
Calculate the gallons of gas use just for going to the supermarket in one year if you take 5 trips to the store per week, traveling 7.5 miles roundtrip, and your car gets 22 miles per gallon.
Want: gallons of gas per year
Have: 5 trips per week
7.5 miles per roundtrip
22 miles per gallon
5 trips
52 weeks
1 gallon
7.5 miles
= gallons of gas per year X X X
1 week
1 year
trip
22 miles

22. Warm up Day 5:
Calculate the potential reduction in petroleum consumption in gallons of gasoline per year that could be achieved in the United States by introducing electric vehicles under the following assumptions
• The mileage rate for the average car is 25 miles per gallon of gasoline.
• The average car is driven 10,000 miles per year.
• The United States has 150 million cars.
• Ten percent of the US cars could be replaced with electric cars
Start with the easy simplification & translate the numbers into scientific notation:
10 % of _______________________ millions of cars
Want: gallons of gas per year
Have: # cars/ trip
Miles /year
gallon/mile

23. Warm up Day 5:
Calculate the potential reduction in petroleum consumption in gallons of gasoline per year that could be achieved in the United States by introducing electric vehicles under the following assumptions
• The mileage rate for the average car is 25 miles per gallon of gasoline.
• The average car is driven 10,000 miles per year.
• The United States has 150 million cars.
• Ten percent of the US cars could be replaced with electric cars
Start with the easy simplification & translate the numbers into scientific notation:
10% of 150 million cars = 15 million cars = 1.5 × 107 cars… now on to the dimensional analysis…
Want: gallons of gas per year
Have: # cars/ trip
Miles /year
gallon/mile

24. Warm up Day 5:
Calculate the potential reduction in petroleum consumption in gallons of gasoline per year that could be achieved in the United States by introducing electric vehicles under the following assumptions
• The mileage rate for the average car is 25 miles per gallon of gasoline.
• The average car is driven 10,000 miles per year.
• The United States has 150 million cars.
• Ten percent of the US cars could be replaced with electric cars
Start with the easy simplification & translate the numbers into scientific notation:
10% of 150 million cars = 15 million cars = 1.5 × 107 cars… now on to the dimensional analysis…
Want: gallons of gas per year
Have: # cars/ trip
Miles /year
gallon/mile
1.5 x 10^7 cars X

25. Warm up Day 5:
Calculate the potential reduction in petroleum consumption in gallons of gasoline per year that could be achieved in the United States by introducing electric vehicles under the following assumptions
• The mileage rate for the average car is 25 miles per gallon of gasoline.
• The average car is driven 10,000 miles per year.
• The United States has 150 million cars.
• Ten percent of the US cars could be replaced with electric cars
Start with the easy simplification & translate the numbers into scientific notation:
10% of 150 million cars = 15 million cars = 1.5 × 107 cars… now on to the dimensional analysis…
Want: gallons of gas per year
Have: # cars/ trip
Miles /year
gallon/mile
1.5 x 10^7 cars
1X 10^4 miles X X
Car X year

26. Warm up Day 5:
Calculate the potential reduction in petroleum consumption in gallons of gasoline per year that could be achieved in the United States by introducing electric vehicles under the following assumptions
• The mileage rate for the average car is 25 miles per gallon of gasoline.
• The average car is driven 10,000 miles per year.
• The United States has 150 million cars.
• Ten percent of the US cars could be replaced with electric cars
Start with the easy simplification & translate the numbers into scientific notation:
10% of 150 million cars = 15 million cars = 1.5 × 107 cars… now on to the dimensional analysis…
Want: gallons of gas per year
Have: # cars/ trip
Miles /year
gallon/mile
1 gallon
1.5 x 10^7 cars
1X 10^4 miles X X
25 miles
Car X year

27. Warm up Day 5:
Calculate the potential reduction in petroleum consumption in gallons of gasoline per year that could be achieved in the United States by introducing electric vehicles under the following assumptions
• The mileage rate for the average car is 25 miles per gallon of gasoline.
• The average car is driven 10,000 miles per year.
• The United States has 150 million cars.
• Ten percent of the US cars could be replaced with electric cars
Start with the easy simplification & translate the numbers into scientific notation:
10% of 150 million cars = 15 million cars = 1.5 × 107 cars… now on to the dimensional analysis…
Want: gallons of gas per year
Have: # cars/ trip
Miles /year
gallon/mile
1 gallon
1.5 x 10^7 cars
1X 10^4 miles
= 6.0 x 10^9 gallons/year X X
25 miles
Car X year

28. Warm up Day 6:
Name 3 reasons why the California current has risen 2.7 degrees Fahrenheit and has lower plankton numbers

29. Warm up Day 6:
Name 3 reasons why the California current has risen 2.7 degrees Fahrenheit and has lower plankton numbers
Slowing of ocean circulation
Increased reduction in Greenland and west Antarctic ice sheet
Increase of global warming
Decrease in upwelling
Release of terrestrial carbon from permafrost region and methane in coastal regions

30. Warm up Day 7:
Increase of algal blooms impacts eutrophication. Eutrophication decreases oxygen levels which increases fish deaths. But can’t we use algae for an alternative to fossil fuels? How could this impact/benefit the environment?

31. Warm up Day 8
What is Dissolved oxygen? What is a severe impact from lowered Dissolved oxygen rates?

32. Warm up Day 9:
Describe the clean water act in one sentence.