ࡱ> !#  tbjbjupup *.L'ppppp8$$!pt($ p"pp?jppR` `oW2g@0!P !  ! l !pl ! ! 6: AP Physics - Problem Solving As you may have dreaded, physics will involve a good deal of problem solving. You will become a master problem solver, which will, of course, bring you great success in physics, but the utility of problem solving is not limited to science classes. It is of tremendous value in leading what you call your basic day-to-day life. In this class, a good solid problem assault is more important than the actual answer. Let us look at a hypothetical situation: you are solving a problem and have figured out a way to use the data, some equations, and everything is so cool, except, you make a mistake (hey, it could happen!). One of your clumsy fingers hits the divide key instead of the multiply key on your trusty calculator, so that you divide by 10 instead of multiplying by 10. You are off by a factor of 100! This is pretty bad - I mean you arent even close! But, in this class, if your method is correct, and I can see what you were doing, you will suffer only a minor deduction in points for the problem. Let us now imagine that you dont show your work but have the right answer. This sounds outrageous, but the Institute requires that your instructor deduct half the points! If your answer is wrong, then you will lose all points for the problem. It is, therefore, in your best interest to learn how to use this problem solving format. Problem Solving Guidelines: Read the problem carefully at least twice. Draw a diagram with labels. Imagine a movie in your mind of what happens in the problem. Identify basic physics principles, list knowns and unknowns. Write down or develop equation (s) needed. Symbolically solve for unknown. Substitute given values. Get answer with proper units - questions to ask self: Do units match? Is answer reasonable? Is plus or minus sign proper or meaningful? The Little Stuff: Science has conventions in which certain physical quantities are given specific letters or symbols to represent them in equations. Velocity is "v" for example while volume is "V". Acceleration is always "a", the acceleration of gravity on earth, being somewhat special, is given its own symbol, "g". In a math class when you solve a problem, you could use any letter you wanted to represent the different things in the problem, but in physics, you should use the proper agreed upon symbol. There are some symbols that arent agreed upon and I will point these out. For example, many sources use d for distance, the lovely AP pholks use x, sometimes y, sometimes s, and occasionally an r. What a world. You must show your work on all labs, tests, homework assignments . . . . in short, on everything. For each problem you solve, you must: Write down the formulas that you will use. Make a list of the knowns, unknowns, and constants appropriate to the problem. Many problems have multiple parts (a), (b), (c), &tc. Organize your work the same way the problem is problem set up. Solve for the unknown (if necessary) using the terms in the formula. (This means manipulating the symbols in the equation.) Plug in the known values into the solved equation. Include all units and show how they cancel (if they do). Write down your answer - make sure it has the correct units! Make sure your answer has the correct number of significant figures. Draw a circle or square or something around the final answer. This will be the answer that I will look at. Every time that you write down a measurement (a number that represents some real physical thing) you should include the units, you will lose valuable points for neked" numbers. Example: Heres a simple chemistry problem. A gas occupies a volume of 2.50 L at a pressure of 1.25 atm. If the pressure is changed to 5.75 atm what is the new volume? 1. Write down the equation (this would be Boyles law):  EMBED Equation.DSMT4  Write down the knowns and unknowns:  EMBED Equation.DSMT4  3. Now you must solve the equation for V2, the new volume:  EMBED Equation.DSMT4  note that no numbers have been used thus far. Next, plug in the values for the data: (This is known as pluggin' and chuggin'.)  EMBED Equation.DSMT4  (Don't forget to cancel the units!) 4. Write down the answer:  EMBED Equation.DSMT4  5. It needs to have the proper number of significant figures, but this has been taken care of, so make a circle around it or make a square around it or something:   EMBED Equation.DSMT4  That's all there is to it. This is the way that the class is. This is the way you must solve problems. Things will not change. I do not want to hear any whining about this. Accept it, learn it, adopt it, and make use of it. Do not cry about it. Students will be heard saying things like: "How come I lost so many points? I got the right answer!" In a most indgnant voice. The answer is simple. I am good at finding little errors. The odd unit that wasnt cancelled, the failure to have a unit on some obscure number, the wrong number of significant figures, etc. There is not appeal from any of this, so learn how to solve the problems properly and get on with your life.     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