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FRQ & Math Tips. Viry , Drew, Lori, and Mara. Population Equations.
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FRQ & Math Tips Viry, Drew, Lori, and Mara
Population Equations Although the math section of the AP Environmental Science exam may seem daunting, there are some simple equations and conversions that could greatly benefit you. All of these equations and conversions can and will be put into play when solving mathematical problems during the exam. Example questions, with answers, will be provided. Population Density= Population ÷ Area Birth/Death Rate= Number of births/deaths ÷ Number of people Growth Rate= [(Birth+Immigration) – (Death+Emmigration)] ÷ Initial Population, multiplied by 100 Doubling Time= Rule of 70= 70 ÷ Growth Rate
Conversions Length1 inch (in) = 2.54 centimeters (cm) exactly1 foot (ft) = 0.305 meters (m)1 yard (yd) = 0.914 meters (m)1 mile (mi) = 5280 feet (ft) = 1.61 kilometers (km)1 centimeter (cm) = 0.394 inches (in)1 meter (m) = 100 centimeters (cm) = 39.4 inches (in) = 3.28 feet (ft) = 1.09 yards (yd)1 kilometer (km) = 1000 meters (m) = 0.621 miles (mi) Area = length x width1 square inch (in2) = 0.00694 square feet (ft2 = 6.45 square centimeters, cm21 square foot, (ft2) = 144 square inches (in2 = 0.0929 square meters, m21 square yard (yd2 = 1296 square inches (in2 = 9 square feet (ft2 = 0.836 square meters (m21 square mile (mi2 = 640 acres = 2.59 square kilometers (km21 acre = 160 square rods = 43,560 square feet (ft2) = 0.405 hectares1 hectare = 10,000 square meters (m2 = 100 ares = 2.47 acres
Volume = length x width x height1 cubic inch (in3) = 0.000579 cubic feet (ft3) = 16.4 cubic centimeters (cm3)1 cubic foot (ft3) = 1728 cubic inch (in3) = 0.0283 cubic meters (m3)1 cubic yard (yd3) = 27 cubic feet (ft3) = 4.65 x 104 cubic inch (in3) = 0.765 cubic meters (m3)1 cubic meters (m3) = 106 cubic centimeters (cm3) = 1,000 liters (L) = 35.3 cubic feet (ft3)1 quart (qt) = 2 pints (pt) = 946 milliliters (mL) = 0.946 liters (L)1 gallon (gal) = 4 quarts = 231 cubic inch (in3) = 3.79 liters (L)1 liter (L) = 1000 cubic centimeters (cm3) = 1.06 quarts (qt) = 0.265 gallons (gal) Mass1 kilogram (kg) = 1,000 grams TemperatureoF = 9/5 x oC + 32oC = (oF - 32) x 5/9Absolute Temperature, kelvin, K = oC + 273.150 K = -273.15 oC = -459.72 oFNormal Body Temperature = 98.6 oF Work and Energy or Heat Work = Force x parallel distance1 joule, J = 0.738 ft . lb = 107 ergs1 calorie, cal = 4.18 J = 0.00442 British Thermal Units, Btu1000J = 1 kJ 1000cal = 1kcal 1 cal = 4.184 J 1 BTU = 1.05 kJ 1 therm = 100,000 BTU Power = Work/time1 Watt, W = 1 J/s = 0.738 ft·lb/s = 0.00134 hp1 kW = 1.34 hp (P = E/t) 1W = 1J/s (1Watt = 1 Joule per second)
Practice Problems: Population 1. One thousand two hundred and seventy deer are living on an island that is eight hundred and thirty square kilometers in size. What is the population density of the deer per square kilometer? (Answer: 1.53 deer/square kilometer)
Practice Problems: Population 2. A city with 53,340 people has 876 births. What is the birth rate (as a percentage and per thousand)? (Answer: .0164 or 1.64%)
Practice Problems: Energy Math 3. How much energy, in kJ, does a 75 Watt light bulb use then it is turned on for 25 minutes? (Answer: 112.5 kJ)
Practice Problems: Energy Math 4. Suppose your electric lights use 400 watts per hour and average four hours per day, every day for one year. How many kWh per year does this represent? (Answer: 584 kWh/yr)
Practice Problems: Dimensional Analysis 5. Convert 6.0 cm to km. (Answer: .000060 km.)
Practice Problems: Dimensional Analysis 6. Convert 4.17 kg/m2 to g/cm2. (Answer: .417 g) cm2
Lost? Here is the work for the example problems. 1. 1270/830 square km= 1.53 deer/sq km 2. 876/53340= .0164(100)= 1.64% 3. 75 W-> 75 J/s (60 sec/min)(25 min)(kJ/1000J)= 112.5 kJ 4. 400 W= 400 J/s. 400 J/s ( 4h/d)(3600 sec/h) (365 d/yr) ( 1kWh/ 3.6 x 10 6 J)= 584 kWh/yr 5. 100 cm = .00100 km .00100 km100 cm 6.0 cm.00100 km 100 cm 6.0 cm.00100 km 100 cm .000060 km or 6.0 E -5 km 6. 1.00 m = 100 cm 1.00 kg = 1000 g 1000 g 1.00 m 1.00 m1.00 kg 100 cm 100 cm 4.17 kg 1000 g 1.00 m1.00 m m2 1.00 kg 100 cm 100 cm 4.17 kg1000 g 1.00 mx1.00 mm2 1.00 kg 100 cm 100 cm .417 g cm2
Do’s and Don’t’s DOread questions thoroughly. DO make sure to answer everything that is being asked. DOwrite clearly and neatly. DO go into detail. DO carefully label your diagrams–they get no points otherwise! DO bring a watch to pace yourself! • DON’Tramble! Get to the point and move on to the next question. • DON’T use a pencil. Essays in pencil will not even be graded. • DON’T panic. You will not know everything on the test. • DON’T worry about spelling or grammar, but keep in mind that very poor spelling and grammar may confuse the reader. • DON’T leave questions blank–there is no penalty for guessing. • Most importantly: DON’T QUIT!
Tips Read through all of the questions to determine which you feel most prepared to answer. Erasing wastes time–just write a line through whatever you think is incorrect. Don’t forget to include the proper units! Organize your answers. At least attempt the math questions–most students don’t even attempt them.