1. Review of Skills Covered in the Summer Assignment

2. Reporting Numerical Answers Whenever reporting numbers, you MUST include The appropriate number of sig figs (magnitude) The direction (angle measurement, cardinal direction, linear direction) if it’s a vector quantity The units Sig Figs Zeros to the left of the decimal and after a number are significant Zeros to the right of a decimal that ALSO follow a number are significant Zeros in between numbers are significant Zeros after a number that are NOT followed by a decimal are NOT significant. For numbers less than 1, zeros between the decimal and the first digit are NOT significant

3. Sig Fig Examples For the following numbers, report the correct number of sig figs.

4. Keeping Sig Figs When calculating, you must keep the appropriate sig figs! Try to keep the numbers in your calculator as much as possible Use the answer key Only round your answer to the appropriate number of sig figs at the end of the calculation. When multiplying and dividing numbers, report your answer with the same number of sig figs as the original number having the least number of sig figs When adding or subtracting, report your answer to the same decimal place as the original number having the least number of decimals.

5. Applying the Sig Fig Rules Answer the following with the correct number of significant Figures Adding/Subtracting: 1) 9.748 - 9.67 = _______ 2) 22.9 + 61.678 = _______ 3) 4.285 + 1.8454 + 1.38 = _______ 4) 22.8392 + 7.971 + 45.83 = _______ 5) 7.5733 - 1.8 = _______ Multiplying/Dividing: 1) 68 x 8 x 20 = __________ 2) 6001 ÷ 79.8 = __________ 3) 0.0026 x 62 = __________ 4) 950 ÷ 9.73 = __________ 5) 8600 ÷ 7.970 = __________

6. Scientific Notation Keeps things neat and concise. NO extra numbers Example Speed of light in a vacuum 300000000m/s Only one significant figure with many non-significant zeros becomes…. 3x10 8 m/s Put answers into scientific notation as often as possible keeping the appropriate number of sig figs based on the given information.

7. Orders of Magnitude Another way to keep numbers neat and concise The exponent tells you how many zeros Positive exponent means numbers greater than 1 Negative exponent means numbers less than 1 You can replace the orders of magnitude with well know prefixes seen below Reading the Table 1 kilometer = 1x10 3 meter 1 nanosecond = 1x10 -9 seconds

8. Orders of Magnitude A race is 5kilometers long How many meters is that? How many centimeters? How many megameters? A flash of light lasts 0.00056 seconds How many milliseconds is that? How many microseconds? An object has a mass of 75kilograms How many grams is that? A molecule is 1.5x10 -10 m long How many nanometers is it? How many picometers is it?

9. Orders of Magnitude A race is 5kilometers long How many meters is that? 5000m How many centimeters?500,000cm How many megameters? 0.005Mm A flash of light lasts 0.00056 seconds How many milliseconds is that? 0.56ms How many microseconds?560μs An object has a mass of 75kilograms How many grams is that?75,000g A molecule is 1.5x10 -10 m long How many nanometers is it?15nm How many picometers is it?0.015pm

10. Interpreting Graphs Both axes stand for actual physical quantities (check their units) They y-intercept will give you the initial contitions. The slope of the graph usually stands for a physical quantity also Divide the y-axis units by the x-axis units to determine what it is. The area between the graph and the x-axis also sometimes stands for a physical quantity. Multiply the y-axis units by the x-axis units to determine what it is BEFORE ANSWERING ANY GRAPH QUESTIONS, YOU SHOULD ADDRESS THE FOUR POINTS ABOVE.

11. Analyzing Graphs Assuming this is a graph of money in your bank account vs. time, what can you tell me about your bank account? Remember to address the 4 points above talk segment by segment Use descriptive words like constant, rate of change, increasing, decreasing… moneytime

12. Initial condition: at the start of time, there is no money in your bank account To A: the amount of money in your bank account increases at a constant rate. A to B: the amount of money in your bank account is still increasing, but the rate at which it is increasing is decreasing. At B: you stop earning money and start to lose it B to C: you are losing money at an increasing rate, then reach a point where you are neither losing or gaining money Segment C: The amount of money in your bank account is constant. You are not losing or gaining money. moneytime

13. Segment D: You are again earning money at a constant rate that is the same as the rate to A At E: you instantaneously stop earning money and start to lose it at a constant bur faster rate as compared to how fast you were earning money At F: you have the same amount of money in your account that you did at C At G: you have no more money in your account at that instant At H: you are still losing money at a constant rate and now you are in debt. You have negative money in your bank account. moneytime

14. Translating one Graph to Another Using your description of the flow of money just described, sketch a graph that depicts the rate at which your bank account is changing as a function of time. Rate of change of the money time

15. Translating one Graph to Another Address the four points to make sure this graph makes sense time Rate of change of the money

16. Fraction Math 101 When adding and subtracting Turn mixed numbers into improper fractions Find a common denominator Add/subtract Reduce When multiplying Turn mixed numbers into improper fractions Multiply all numerators Multiply all denominators Reduce When dividing Turn mixed numbers into improper fractions Keep the first, change to multiplying, reciprocate the second fraction Follow multiplying rules

19. Other Math Skills Algebra Solving for x Quadratic equation System of equations Trig Sohcahtoa Pythagorean theorem Graphs Calculating slope Geometry Area of… Circle Triangle rectangle

20. Algebra

21. X=-2

22. Using the quadratic formula Solve for x

23. Using a system of equations Solve for x and y

24. Using a system of equations Solve for x and y X=1 y= 1/6 X=17/9 y= -89/18 X=-3 y= 2 X=1 y= 3/2

25. Multiplying / Dividing with Exponents Square roots Other exponents Multiplying different exponents with the same base Add the exponents Dividing different exponents with the same base Subtract the exponents Raising an exponent to a different power Multiply the two exponents Different bases Try to change the base by changing the exponents 8 2 x 2 3 = (4 x 2) 2 x 2 3 = (2 2 x 2) 2 x 2 3 = (2 3 ) 2 x 2 3 = 2 6 x 2 3 = 2 9 Answer is under here

26. Definition of a Scalar A quantity that has an magnitude (size or amount) and NO direction Just memorize Time Mass Temperature Distance Speed Work and Energy Charge

27. Definition of a Vector A quantity that has an magnitude (size or amount) and direction (north, south, east, west OR up, down, left, right OR an angle) MADFIVE Momentum Acceleration Displacement Force Impulse Velocity Electric Field Strength

28. Vector Components Original given magnitude = A Reference line θ Original given direction (North of East) Horizontal or x – component of vector A A x = A cos θ Vertical or y – component of vector A A y = A sin θ

29. Vector Addition Any vectors pointing in the EXACT same direction: add the magnitudes Any vectors pointing in the EXACT opposite direction: subtract the magnitudes 2 vectors Pointing at EXACT right angles to each other: use the Pythagorean theorem to find the magnitude, use trig to find the direction 2 vectors pointing in any other directions Break the angled vector into its components Then follow the rules above

30. Same Direction 7m Put them head to tail Draw resultant Add magnitudes 3m resultant Magnitude: 7m+3m=10m Direction: to the right

31. Opposite Direction 7m Put them head to tail Draw resultant Subtract magnitudes 12m resultant Magnitude: 7m-12m= -5m = 5m Direction: to the left (the negative sign means ‘to the left’)

32. Right Angles 7m Put them head to tail Draw resultant Use Pythagorean Theorem to find the magnitude Use trig to find the direction (angle) 3m resultant Magnitude: 7.6m Direction: 23 o south of east θ

33. Other Angles 7m Put them head to tail Break angled vector into its components Draw resultant Add/subtract all x-components Add/subtract all y-components Use Pythagorean Theorem to find the magnitude of the resultant Use trig to find the direction (angle) of the resultant resultant Magnitude: 11.3m Direction: 17 o north of east θ A x = A cos θ = 5m cos 40 O = 3.8M A y = A sin θ = 5m sin 40 o = 3.2m 40 o 5m 7m+3.8m = 10.8m 3.2m

34. Translating Wave function Equations The y-value at the time t given The amplitude of the wave (it is constant) Omega is the angular frequency of the wave. It can tell you about the period of the wave. MUST BE IN RADIANS!!!! Period of a wave Frequency of a wave

35. Interpret this function The amplitude of wave is… 5m Which means the maximum y-value is +5 and minimum y-value is -5 ω is 2 which means… The period of the wave is π The frequency of the wave is 1/ π Period and frequency are always inverses of each other